NZ785485A - Mask system - Google Patents

Abstract

Disclosed is a CPAP or ventilation mask system that allows for separate oral and/or nasal interfaces. The mask system for delivery of respiratory therapy to a patient has a mouth portion with a mouth cushion adapted to form a seal with the patient’s mouth, where the mouth cushion has a recessed portion with a first outlet opening in a superior region of the mouth cushion; and a fascia that is more rigid than the mouth cushion and forms a mouth plenum chamber together with the mouth cushion. The fascia has a headgear connector and an inlet opening, the mouth plenum chamber is configured to receive pressurized, breathable gas through the inlet opening. A nares portion that is configured to nest within the recessed portion of the mouth cushion and has a nares sealing portion adapted to form a seal with the patient’s nares; and a plenum base that forms at least part of a nares plenum chamber and includes a nares portion opening. The nares plenum chamber is configured to receive at least a portion of the pressurized, breathable gas from the mouth plenum chamber through the nares portion opening; and a cushion clip configured to secure the nares portion to the mouth portion. The cushion clip has a wall that is more rigid than the mouth cushion and the nares portion and forms at least part of a gas flow passage that pneumatically connects the nares plenum chamber to the mouth plenum chamber when the cushion clip is secured to the mouth portion and the nares portion. A retaining portion is positioned on an outer surface of the wall, the retaining portion is inserted through the nares portion opening to engage an interior surface of the plenum base; and a flange configured to secure the cushion clip to the mouth cushion, wherein the recessed portion of the mouth cushion and first outlet opening are oriented so that the pressurized, breathable gas flowing through the cushion clip flows in a superior-posterior direction.

Description

wo 2012/040792 MASK SYSTEM CROSS-REFERENCE TO APPLICATIONS This application claims the bene?t ofUS. Applications 61/388,357, 61/443,623, and 61/457,981, and ,524, ?led ber 30, 2010, February 16, 2011, July 27, 2011, and August 29, 2011, respectively, each of which is incorporated herein by nce in its entirety.

FIELD OF THE TECHNOLOGY The present technology relates to a mask system used for Non-invasive Positive Pressure Ventilation (NPPV) and for continuous positive airway re (CPAP) therapy of sleep disordered breathing (SDB) conditions such as obstructive sleep apnea (OSA).

BACKGROUND OF THE TECHNOLOGY Treatment of sleep ered breathing (SDB), such as obstructive sleep apnea (OSA), by uous positive airway pressure (CPAP) ?ow generator systems involves continuous delivery of air (or other breathable gas) rized above atmospheric pressure to the mask airways of a human or other mammalian patient via a conduit and a mask. Typically, and to the ?ts over or in the mouth and/or nose of the patient. Pressurized air ?ows to the mask mask by a airways ofthe patient via the nose and/or mouth. Pressurized air is delivered to the conduit connected to the CPAP device and the mask. their The mask should be comfortable and unobtrusive so that a patient may tolerate mask (as known therapy and maintain usage. Some patients may prefer a pillows or prongs type in the art), or a nasal mask or a full face mask. Some patient’s may prefer to use one or a combination e masks interchangeably. However, this would require the purchase number ofdi?‘erent mask systems, which may be expensive and/or may not be covered by insm‘ance.

Patients In addition, masks including oro-nasal masks typically include a rigid frame.

The frame may also dislodge the sealing portion of the mask away may not ?nd this comfortable. from the face ofthe patient if it is contacted or forced by bed clothing, s, SUMMARY OF THE TECHNOLOGY be used One aspect of the present technology relates to a mask system that is able to mask. as either a nasal only type mask or an oro-nasal Another aspect ofthe present technology relates to an oro-nasal mask that is ntially comprised of ?exible components.

Another aspect of the present technology relates to an oro-nasal mask that is stabilised at the nose sealing portion separately to the mouth sealing portion.

Another aspect of the present technology relates to an oro-nasal mask having at least a ?rst headgear connection on the nasal portion ofthe mask and at least a second headgear connection on the mouth portion ofthe mask.

Another aspect of the present technology relates to a modular mask system that is adapted to be used in a nares only con?guration, or in a nares and mouth con?guration.

Another aspect ofthe present technology relates to a modular mask system that is d to be used in a nares only con?guration, in a mouth only con?guration, or in a nares and mouth con?guration In one form ofthe present technology, the mask system is provided with a nares portion and a mouth portion that are useable at the option ofthe t with the nares portion and the mouth portion, or withjust the nares portion. The mouth portion when used with the nares portion may be used to deliver respiratory y to the patient’s mouth, or may be used as a mouth seal.

In one form ofthe present logy, the mask system is ed with a nares portion and a mouth portion that are useable at the option of the patient with the nares portion and the mouth portion, with just the nares portion, or with just the mouth portion.

In one form ofthe present technology, the mask system is provided with a nares portion and a mouth portion, where the nares portion includes a nares g portion adapted to form a seal with the patient’s nares, where the nares g portion is structured to extend or curve dly ?our a supporting wall de?ning an air path into the nares sealing portion.

Another aspect of the present technology relates to a mask system that includes a nares portion and a mouth portion, and the mouth portion is adapted to be used in both a ?rst con?guration where at least a portion ofthe rized, breathable gas is delivered to the patient’s mouth and in a second con?guration where the mouth portion functions as a mouth seal that prevents any ofthe pressurized, breathable gas ?'om being red to the patient’s mouth.

] Another aspect of the present technology relates to a method of providing a mask system kit for delivering respiratory therapy to a t, where a nares portion and a mouth portion are useable at the option ofthe patient with the nares portion and the mouth portion, with just the nares n, or with just the mouth portion.

Another aspect of the present technology relates to a method ofproviding a mask system kit for delivering respiratory y to a patient, where a nares portion and a mouth portion are useable at the option of the patient with the nares portion and the mouth portion, with just the nares portion, or with just the mouth portion, where the when the nares portion and the mouth portion are both utilized, the nares portion and the mouth portion may both be utilized to deliver pressurized air to the nares and mouth of the patient, respectively, or one ofthe nares portion and the mouth portion may be utilized to deliver pressurized air to the nares or mouth of the patient, while the other of the nares portion and the mouth portion is utilized as a nares or mouth seal.

] Another aspect ofthe present technology relates to a method of converting a mask system having a nares n and a mouth portion between ?rst and second modes, where in the ?rst mode the mask system is useable with the nares portion and the mouth portion, and in the second mode the mask system is e with only the nares n.

Another aspect of the present technology relates to a kit providing a nares only n for delivering respiratory therapy to a patient’s nares, the nares portion adapted to function with a mouth portion.

Another aspect ofthe t technology relates to a kit providing a month portion for delivering respiratory y to a patient’s mouth, the mouth portion adapted to n with a nares portion.

Another aspect of the present technology relates to a method iding respiratory therapy to one of a patient’s nares only, a t’s mouth only, or to both a patient’s nares and mouth, and periodically changing the respiratory therapy to another of the patient’s nares only, the patient’s month only, or to both the patient’s nares and mouth.

Another aspect of the present technology relates to a method ofrespiratory therapy , then treatment, where a ?rst mask with a ?rst footprint is applied to a patient for a period the ?rst mask is removed, and a second mask with a second footprint different from the ?rst int is applied to the patient for a second period of time.

Another aspect of the t technology relates to a mouth portion for delivering atory therapy to a patient’s mouth, the mouth portion including a docking station adapted to receive a nares portion, wherein the nares portion is capable of functioning as a nares only device for delivering pressurized gas to the nares of a patient.

Another aspect of the present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion adapted to form a seal with the patient’s nares, a mouth portion ing a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth chamber including an Opening adapted to selectively receive pressurized, breathable gas, an inlet conduit connected to at least one ofthe nares portion and the mouth portion to deliver the pressurized, breathable gas, n the mask system is adapted to selectively utilize the nares portion and/or the mouth portion in a ?rst mode utilizing both the nares portion and the mouth portion, and in a second mode utilizing the nares portion and not ing the mouth portion.

Another aspect ofthe present technology relates to a mask system for delivery of atory therapy to a patient, the mask system including a nares portion adapted to form a seal with the patient’s nares, a mouth portion ing a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, an inlet conduit connected to at least one of the nares portion and the mouth portion to deliver pressurized, breathable gas to the patient, wherein the nares portion and the mouth n are adapted to connect to each other. and the mouth portion is adapted to selectively function in both a ?rst con?guration where at least a portion of the pressurized, able gas is delivered to the t’s mouth and in a second con?guration where the mouth portion functions as a mouth seal that prevents any ofthe pressurized, breathable gas ?'om being delivered to the patient‘s mouth.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a sealing portion including a nares sealing portion and a mouth sealing portion, the nares sealing n adapted to form a seal with the patient’s nares, the nares sealing portion structured to extend or curve outwardly from a supporting wall de?ning an air path into the wares sealing n, the mouth sealing portion adapted to form a seal with the patient’s mouth, the sealing portion adapted to connect to at least one inlet conduit to receive a supply of pressurized, breathable gas and headgear for retaining the sealing assembly in position on the head of the patient.

Another aspect of the t technology relates to a method ofproviding a mask system kit for delivering respiratory y to a patient, the method including providing a nares portion adapted to form a seal with the patient’s nares, ing a mouth portion including a mouth r and a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth r ing an opening adapted to selectively e pressurized, breathable gas, and providing an inlet conduit connectable to at least one ofthe nares portion and the mouth chamber to deliver the pressurized, breathable gas, wherein, at the option of the patient, the mask system is adapted to selectively utilize the nares portion and/or the mouth portion in at least ?rst and second modes, the ?rst mode utilizing the nares portion and the mouth portion to provide the respiratory y to the patient's hares, wherein the mouth portion is con?gured to provide the respiratory therapy to the patient’s mouth or to seal the mouth portion, and in the second mode utilizing the nares portion to provide the atory therapy to the t’ 3 nares and not ing the mouth portion as a seal or to deliver respiratory therapy.

] Another aspect of the present technology relates to a method of converting a mask system between ?rst and second modes, the mask system for delivery of respiratory therapy to a patient, the method including providing a nares portion adapted to form a seal with the patient’s nares, providing a mouth portion including a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth chamber including an opening adapted to selectively receive pressurized, breathable gas, assembling the mask system in the ?rst mode utilizing the nares portion and the mouth portion to provide the respiratory therapy to the patient’s nares, utilizing the mouth portion to provide the respiratory therapy to the patient‘s mouth or utilizing the mouth n as a mouth seal, and ting the mask system in the second mode utilizing the nares portion to provide the respiratory therapy to the patient’s nares and not utilizing the mouth portion.

Another aspect of the present technology relates to a mask system for delivery of atory therapy to a patient, the mask system including a mouth portion including a mouth chamber and a mouth g portion adapted to form a seal with the patient’s mouth, the mouth r including an opening adapted to selectively receive pressurized, breathable gas, and a nares portion docking station formed on the mouth portion, the nares portion docking station adapted to receive a nares portion, wherein the nares portion is e of ?mctioning as a nares only device for delivering pressurized gas to the nares of the patient.

Another aspect ofthe present technology relates to a l package including a kit for converting a CPAP device comprising a nares only portion to a CPAP device having a nares and a mouth portion, the medical package including a mouth portion including a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth chamber including an opening adapted to selectively receive pressrn-ized, breathable gas, a vent plug adapted to plug an aperture in the nares only portion, and headgear adapted to secure at least the mouth portion to a patient’s head.

Another aspect of the t technology relates to a system kit d to convert a and mouth device for nares only device for delivering respiratory therapy to a patient into a nares delivering atory therapy to a patient, the system kit including a mouth n including a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth chamber including an opening d to selectively receive pressurized, breathable gas, the mouth portion d to function with the nares only device as a nares and mouth device, a plug adapted to connect to either the opening in the mouth r or an opening in the nares only device, and headgear adapted to secure at least the mouth portion to the patient’s head.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory y to a t, the mask system ing a naros portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth chamber and a mouth sealing n adapted to form a seal with the patient’s mouth, and a double elbow, e.g., having one branch connected to the nares portion and another branch connected to the mouth portion to r the pressurized breathable gas to the nares portion and the mouth portion.

] Another aspect of the present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth chamber and a mouth sealing portion adapted to form a seal with the patient’s mouth, and a covering ?ap ing from the mouth portion to cover the nares portion and/or the patient’s nares in use.

Another aspect of the present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion including a nares sealing n adapted to form a seal with the patient’s nares, a mouth portion including a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth sealing portion being oriented generally horizontally and the nares g portion being oriented generally vertically.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a t, the mask system including a nares portion including a nares sealing portion and a nares supporting portion, the nares sealing portion d to form a seal with the patient’s nares, a mouth n including a mouth sealing portion adapted to form a seal with the patient’s mouth, the nares supporting portion being a semi-rigid material and the nares sealing portion being a ?exible material.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory y to a patient, the mask system including a nares portion including a nares sealing portion and a nares supporting portion, the nares sealing portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth portion and/or the nares portion including a magnet to retain the mouth portion and/or the nares portion in position.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion adapted to form a seal with the patient’s nares, a mouth portion d to form a seal with the patient’s mouth, and a foam portion adapted to clip onto at least one ofthe nares portion and the mouth portion to form a seal between the mask system and the patient.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system ing a nares portion including a nares sealing portion and a nares supporting n, the nares sealing portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth sealing portion adapted to form a seal with the patient’s mouth, and a connecting ring adapted to connect the mouth portion to the nares portion, the connecting ring having a ?rst channel adapted to e the mouth portion and a second channel adapted to receive the nares portion.

Another aspect ofthe present technology relates to a mask system for ry of respiratory y to a patient, the mask system including a nares portion including a nares sealing portion and a nares supporting n, the nares sealing portion d to form a seal with the patient’s nares, a mouth n including a mouth sealing portion adapted to form a seal with the patient’s mouth, wherein the nares sealing portion has indentations adapted to form an interference ?t with the mouth portion.

Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion including a nares sealing portion and a nares supporting n, the nares sealing portion adapted to form a seal with the t’s nares, a mouth portion including a mouth sealing portion adapted to form a seal with the patient’s mouth, upper headgear d to connect to the nares portion, the upper headgear including a back strap adapted to wrap around a back ofthe t’s head, and lower headgear adapted to connect to the mouth portion, the lower ar having a loop adapted to receive the back strap of the upper headgear.

Another aspect of the present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion including a nares sealing portion adapted to form a seal with the patient’s nares, an elbow connected to the nares portion to deliver pressurized gas, the elbow including a lug portion, a mouth n including a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth portion including an aperture selectively connectable to the lug portion of the elbow to t the mouth portion to the nares portion.

Another aspect ofthe present logy relates to a mask system for delivery of atory therapy to a patient, the mask system including a nares portion including a nares sealing portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth sealing portion adapted to form a seal with the patient’s mouth, the mouth g portion including a cushion having a pocket or lower stif?iess region, shaped and adapted to receive the nares portion.

] Another aspect ofthe present technology relates to a mask system for delivery of respiratory therapy to a patient, the mask system including a nares portion including a nares sealing portion and a nares ting portion, the nares sealing portion adapted to form a seal with the patient’s nares, a mouth portion including a mouth g n d to form a seal with the patient’s mouth, the mouth portion including a cushion and a cushion fascia portion, the cushion fascia portion adapted to t to the cushion, the cushion having a connecting portion with an aperture, the aperture adapted to receive a ring to connect the nares portion to the mouth portion.

Another aspect of the present technology relates to a mask system for deliv3 of respiratory therapy to a t, the mask system Lg a ___ut_h pom- - sealing portion adapted to form a seal with the patient’s mouth, the mouth sealing portion not comprising a pocket.

Other aspects, features, and advantages ofthe present technology will become apparent from the following detailed description when taken in conjunction with the anying drawings, which are a part ofthis disclosure and which illustrate, by way of example, principles ofthis technology.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings facilitate an understanding of the various es of this technology. In such drawings: Fig. 1-1 depicts a front view ofa mask system in a nares only mode on a model patient’s head according to an embodiment ofthe present technology; Fig. 1—2 depicts a ?'ont View of a mask system on a model patient’s head in a nares and mouth mode ing to an embodiment of the present technology; Fig. 1-3 depicts a front view of a mask system on a model patient’s head in a nares and mouth mode according to an embodiment ofthe present technology; Fig. 1-4 depicts a front view of a mask system on a model patient’s head in a mouth only mode according to an embodiment of the present technology; Fig. 1-5 depicts a front ed view of a mask system illustrating how the hares portion may connect to the mouth portion according to an embodiment of the present technology; Fig. 2 s a front view of the mask system of Figs. 1-1 to 1-5 t the elbow connector according to an embodiment ofthe present technology; Fig. 3 depicts a rear view ofthe mask system of Figs. 1-1 to 1-5 according to an embodiment ofthe present technology; Fig. 4 depicts a rear isometric view of the mask system of Figs. 1-1 to 1-5 according to an embodiment of the present technology; Fig. 5-1 depicts a front isometric view of a mask system on a model patient’s head according to another ment ofthe present technology; Fig. 5-2 depicts a front isometric view of the mask system of Fig 5-1 on a model patient’s head in a nares only mode; Fig. 6 depicts a side view of the mask system of Fig. 5 in use according to an embodiment ofthe present technology; Fig. 7 depicts a rear isometric view of a headgear utilized with the mask system of Fig. 5-1 according to an embodiment ofthe t technology; Fig. 8 depicts a front isometric view of the mask system of Fig. 5-1 without the elbow tor according to an embodiment ofthe present technology; Fig. 9 depicts a front view of the mask system ofFig. 5-1 without the elbow connector according to an embodiment of the present technology; Fig. 10 depicts a top view of the mask system of Fig. 5-1 without the nares portion according to an ment ofthe present technology; Fig. 11 depicts a rear isometric view ofthe mask system of Fig. 5-1 ing to an embodiment ofthe t technology; Fig. 12 depicts a rear view of the mask system of Fig. 5-1 according to an embodiment of the present technology; Fig. 13 depicts a front view ofa portion of the mask system of Fig. 5-1 without the nares portion and without the elbow connector and including a headgear according to an embodiment ofthe present technology; Fig. 14 depicts a ?'ont view ofa mask system on a model patient’s head according to another embodiment ofthe present technology; Fig. 15 s a side view ofthe mask system of Fig. 14 on a model patient’s head according to an embodiment of the t technology; Fig. 16 s a rear view of a mask system with a decoupling portion and connecting portion removed ing to another embodiment of the present technology; Fig. 17 depicts a front isometric view ofthe mask system of Fig. 16 according to an embodiment ofthe t technology; Fig. 18 depicts a front isometric view ofthe mask system of Fig. 16 according to an embodiment ofthe t technology; Fig. 19 depicts a rear isometric view of a nares portion that may be used with mask systems according to an embodiment ofthe present technology; ] Fig. 20 depicts a front isometric view ofthe nares portion of Fig. 19 according to an embodiment ofthe present technology; Fig. 21 depicts a front isometric view of a mask system on a model patient’s head in a nares only mode according to another embodiment of the present technology; Fig. 22 depicts a front isometric view the mask system of Fig. 21 on a model t’s head in a nares and mouth con?guration according to an embodiment of the present technology; Fig. 23 depicts a front isometric view of a mask system on a model patient’ 3 head according to another ment ofthe present technology; Fig. 24 depicts a side view of a mask system on a model patient’s head according to another embodiment ofthe present technology; Fig. 25 depicts a side View of a mask system on a model patient’s head according to another embodiment of the present technology; Fig. 26 depicts a schematic cross-sectional view ofa modular mask system on a model patient’s head according to an embodiment ofthe t technology; Fig. 27 depicts a schematic cross-sectional view of an integrated mask system on a model t’s head according to an embodiment ofthe present logy; Fig. 28 depicts a schematic sectional view of an integrated mask system on a model patient’s head according to an embodiment ofthe present technology; Fig. 29-1 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head ing to an embodiment ofthe t technology; Fig. 29-2 depicts a schematic top view ofa mouth sealing portion ofthe mask system ofFig. 29-1 according to an embodiment ofthe present technology; Fig. 29—3 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment ofthe present technology; Fig. 30-1 depicts a schematic cross-sectional view of a modular mask on a model patient’s head ing to an embodiment of the present technology; ] Fig. 30-2 s a schematic cross-sectional view of a modular mask system on a model patient’s head according to an ment ofthe present technology; Fig. 31 depicts a cross-sectional view ofan integrated mask system on a model patient’s head according to an embodiment of the present technology; Figs. 32(a)-(k) are schematic views the ?ow ofpressurized gas through the mask system various con?gurations according to embodiments ofthe present technology; Fig. 33 depicts a schematic view ofa nares and mouth kit according to ments ofthe present technology; Fig. 34 depicts a schematic view ofa modular mask system on a model patient’s head according to an ment of the present technology; Fig. 35 depicts a front view of a nares sealing portion according to an embodiment of the present technology; Fig. 36 depicts a front perspective view ofthe nares g portion of Fig. 35 according to an embodiment ofthe present technology; Fig. 37 depicts a prior art nares only CPAP device on a model patient’s head; Fig. 38 s a retro?t kit used to convert the nares only CPAP device of Fig. 37 into a nares and mouth CPAP device according to an embodiment ofthe present technology; Fig. 39 depicts a retro?t kit used to convert the nares only CPAP device of Fig. 37 into a nares and mouth CPAP device according to an embodiment of the present logy; Fig. 40 depicts a prior art hares only CPAP device; Fig. 4] depicts a retro?t kit to convert the nares only CPAP device of Fig. 40 into a mates and mouth CPAP device illustrated on a model patient’s head according to an embodiment ofthe present technology; Fig. 42 s a schematic cross-sectional view ofa modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 43 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 44 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head ing to an embodiment of the t technology; Fig. 44A is a cross-sectional view of a nares portion according to an ment of the present technology; Fig. 44B is a cross~sectional view of a nares portion ing to an embodiment of the present technology; 1] Fig. 45 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment ofthe present technology; Fig. 46 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 47 depicts a schematic cross-sectional view ofa modular mask system on a model patient’s head according to an embodiment ofthe present logy; Fig. 48 depicts a schematic partial cross-sectional view ofa modular mask system according to an embodiment ofthe present logy; Fig. 49 is an exploded view ofa modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 50 depicts a schematic cross-sectional view of an integrated (or modular) mask system on a model t’s head ing to an embodiment of the present technology; Fig. 51 depicts a perspective view ofthe ated (or modular) mask system of Fig. 50 on a model pa?ent’s head; Fig. 52 depicts a side view of the integrated (or modular) mask system of Fig. 51; Fig. 53 depicts schematic cross-sectional view ofa modular mask system on a model t’s head according to an ment of the present technology; Fig. 54 depicts a schematic cross-sectional View of a modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 55 depicts a rear view ofa nasal portion of a mask system according to an embodiment ofthe present technology; Fig. 55A is a cross-sectional view through line SSA-55A of Fig. 55; Fig. 56 depicts a rear view ofa nasal portion of a mask system according to an embodiment ofthe present technology; Fig. 56A is a cross-sectional view through line 56A-56A of Fig. 56; Fig. 57 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment ofthe present logy; Fig. 58 depicts a side view ofan integrated or modular mask system on a model patient’s head according to an embodiment ofthe present technology; Fig. 59 depicts a perspective view ofan ated or modular mask system on a model patient’s head according to an embodiment ofthe present technology; Fig. 60 depicts a rear view of a modular mask system according to an embodiment of the present technology; Fig. 61 depicts a tic cross-sectional view of a modular mask system on a model patient’s head ing to an embodiment ofthe t technology; Fig. 62 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment of the present technology; Fig. 63 depicts an exploded view of a modular mask system according to an ment ofthe present technology; Fig. 64 depicts a schematic cross-sectional view of a modular mask system on a model patient’s bead according to an embodiment ofthe present technology; Fig. 65 depicts a schematic cross-sectional view of a modular mask system on a model patient’s head according to an embodiment of the present technology; 4] Fig. 66 depicts an exploded view of a modular mask system according to an embodiment ofthe present technology; Fig. 67 depicts an exploded view of a modular mask system according to an embodiment ofthe present technology; Fig. 68 s a perspective view of a modular mask system according to an embodiment ofthe present technology; 7] Fig. 69 depicts a ?'ont view of the modular mask system of Fig. 68; Fig. 70 depicts a top view of the modular mask system of Fig. 68; Fig. 71 s a bottom view of the modular mask system of Fig. 68; Fig. 72 depicts a side view ofthe modular mask system of Fig. 68; Fig. 73 depicts a cross nal view along lines 73-73 ?'om Fig. 69; Fig. 74 depicts a ctive view of a nares portion ofthe mask system of Fig. 68; Fig. 75 depicts a perspective view of a mouth portion of the mask system of Fig. 68; 4] Fig. 76 depicts a perspective view of the cushion portion ofthe mask system of Fig.

Fig. 77 depicts a front view of the cushion portion ofthe mask system of Fig. 68; Fig. 78 s atop view of the cushion portion of the mask system of Fig. 68; Fig. 79 depicts a bottom view of the cushion portion ofthe mask system of Fig. 68; Fig. 80 depicts a cross sectional view along lines 80-80 ?'om Fig. 77; Fig. 81 depicts a cross sectional view along lines 81-81 from Fig. 77; Fig. 82 depicts a cross sectional view along lines 82-82 ?'om Fig. 77; Fig. 83 s a cross sectional view along lines 83-83 from Fig. 77; Fig. 84 depicts a cross sectional view along lines 84-84 from Fig. 77; Fig. 85 s a cross sectional view along lines 85-85 from Fig. 77; Fig. 86 depicts a rear view of the cushion portion of the mask system of Fig. 68; Fig. 87 depicts a right side view of the cushion portion ofthe mask system of Fig. 68; Fig. 88 depicts a le? side view ofthe n portion of the mask system of Fig. 68; Fig. 89 depicts a perspective view ofthe cushion portion of the mask system of Fig.

Figs. 90, 91A, and 91B illustrate a headgear system that is convertible between two point and four point support in accordance with a sample of the t technology; Figs. 92A to 92B and 93A to 931 illustrate a mouth cushion according to a variant of the current technology; [00.0150] Figs. 94-102 illustrate a cushion-to-fascia connection according to an example of the present technology; Fig. 103 illustrates a lip seal according to an example ofthe t technology; Fig. 104 is an exploded assembly view of a mask system according to an embodiment ofthe present technology; Fig. 105 is a rear view of the mask system of Fig. 104 in w.e assembled state; Fig. 106 is a top view of the mask system of Fig. 104 in the led state; Fig. 107 is a bottom view of the mask system of Fig. 104 in the asSembled state; 6] Fig. 108 is a le? side view ofthe mask system of Fig. 104 in the assembled state; Fig. 109 is a cross section view along the line 9 in Fig. 105; Fig. 110 is a cross section view along the line 110-110 in Fig. 105; 9] Fig. 111 is a detailed view ofa portion of Fig. 110; 0] Fig. 112 is a rear isometric view ofthe mouth cushion of the mask system of Fig. 104; Fig. 113 is a front isometric view ofthe mouth cushion ofthe mask system of Fig.

Fig. 114 is front view of the mouth cushion of the mask system of Fig. 104; Fig. 115 is a top view ofthe mouth cushion of the mask system of Fig. 104; Fig. 116 is a bottom view ofthe mouth cushion ofthe mask system of Fig. 104; Fig. 117 is a right side view of the mouth cushion of the mask system of Fig. 104; Fig. 1 18 is a ?'ont view ofthe mouth cushion ofthe mask system ofFig. 104; Fig. 119 is a cross section view ofthe mouth cushion along the line 119-1 19 in Fig.

Fig. 120 is a cross section view ofthe mouth cushion along the line 120-120 in Fig. l 18; Fig. 121 is a cross section view ofthe mouth cushion along the line 1 in Fig.

I 18; Fig. 122 is a cross section view of the mouth n along the line 122-122 in Fig. 1 18; Fig. 123 is a cross section view of the mouth cushion along the line 123-123 in Fig. l 18; Fig. 124 is a cross section view ofthe mouth cushion along the line 124-124 in Fig. 1 18; 3] Fig. 125 is a rear isometric view of the cushion clip ofthe mask system of Fig. 104; Fig. 126 is a ?'ont isometric view of the n clip of Fig. 125; Fig. 127 is a top view ofthe cushion clip of Fig. 125; Fig. 128 is a bottom view of the cushion clip of Fig. 125; 7] Fig. 129 is a le? side view of the cushion clip of Fig. 125; Fig. 130 is a rear view of the cushion clip of Fig. 125; Fig. 131 is a cross section view along lines 131-131 in Fig. 130; Fig. 132 is a front isometric view of a fascia ofthe mask system of Fig. 104; Fig. 133 is a front view of the fascia of Fig. 132', Fig. 134 is a rear view of the fascia of Fig. 132; 3] Fig. 135 is a top view ofthe fascia of Fig. 132; Fig. 136 is a bottom view of the fascia of Fig. 132; Fig. 137 is a right side view of the fascia of Fig. 132; Fig. 138 is a cross section view along the line 138-138 in Fig. 133; Fig. 139 is a ?‘ont isometric view of a cushion clip ing to an embodiment ofthe present technology; Fig. 140 is a rear isometric view ofthe cushion clip of Fig. 139; Fig. 141 is a ?'ont view of the cushion clip of Fig. 139; Fig. 142 is a top view of the cushion clip of Fig. 139; Fig. 143 is a bottom view ofthe cushion clip of Fig. 139; Fig. 144 is a le? side View ofthe cushion clip of Fig. 139; and 3] Fig. 145 is a cross section view along lines 145-145 in Fig. 141.

DETAILED DESCRIPTION OF ILLUSTRATED EMBODIMENTS The following description is provided in relation to several embodiments which may share common characteristics and features. It is to be understood that one or more features of features ofthe other embodiments. In any one embodiment may be combinable with one or more addition, any single e or combination of features in any of the embodiments may constitute additional embodiments.

In this speci?cation, the word "comprising" is to be understood in its "open" sense, that is, in the sense 0 "including", and thus not limited to its "closed" sense, that is the sense of "consisting only of". A corresponding g is to be attributed to the corresponding words "comprise", "comprised" and "comprises" where they appear.

The term "air" will be taken to include breathable gases, for example air with supplemental . It is acknowledged that the CPAP ?ow generator systems or blowers described herein may be designed to pump ?uids other than air. 7] 1. Mask System The mask system ofthe present technology rs pressurized breathable gas to the patient and includes a nares portion, a mouth portion, a positioning and stabilizing structure, and an air ry system. A sealing portion may be included with the nares portion and/or the mouth portion to form a seal or substantially seal with the nose and/or mouth of the patient. One or more vents may also be included to vent gas exhaled by the patient on the nares portion and/or the mouth portion. r, the mask may be non-vented and be used in a hospital/ventilation scenario. The mask system my also be provided with an anti-asphyxia valve (AAV).

The sealing n is arranged to form a seal or ntially seal with the nose and/or mouth ofthe patient to deliver pressurized gas to the patient. Preferably, the sealing portion has a nares sealing portion and a mouth sealing portion. The nares sealing n and the mouth sealing portion may be integrally formed, or they may be in the form of separate ts.

The nares g portion and mouth sealing portion may be connected or otherwise positioned so as to independently or discretely seal with the nose and mouth of the patient, respectively.

A positioning and stabilizing structure may be connected to the g portion and is adapted to engage the sealing portion with the patient. The positioning and stabilizing structure may have an upper n and a lower portion that is constructed and arranged to avoid the patient’s eyes and ears in use. The upper and lower portions may be integrated with one another, in te pieces that do not connect with one another, or in separate pieces that are coupled to one another. The positioning and stabilizing structure may have a rear portion adapted to engage with the back ofa patient’s head in use. The rear portion may interconnect the upper and lower portions.

The air delivery system may connect the sealing n to a ?ow generator. The air delivery system may include an elbow and/or a tube.

The mask system provides patients with options for therapy (nares only, mouth only or nares and mouth therapy) without the system becoming too expensive and also improving intuitive use ofthe mask system. This allows the patient to use the mask system without too much or any instruction.

The mask system may be a modular mask system having the wares n and the mouth portion, where the hares portion is adapted to be utilized without the mouth portion to provide atory therapy to a patient’s nares, or the nares portion may be adapted to be utilized with the mouth portion to provide respiratory therapy to the patient's nares and mouth, or to provide atory therapy to the patient’s nares and to utilize the mouth portion as a mouth seal.

The mask system may be a modular mask system having the nares portion and the mouth portion, where the mouth n is adapted to be utilized without the nares portion to provide respiratory therapy to a patient’s mouth, or the mouth portion is adapted to be utilized with the nares portion to e respiratory therapy to the patient’s nares and mouth, or to provide respiratory therapy to the patient’s mouth and to utilize the nares portion as a nares seal.

The mask system may be an ated mask system having a nares portion and a mouth portion, where the nares portion and the mouth portion are integrated and formed in a single piece. Pressurized gas may be provided to the nares and mouth portions for delivery to the nose and mouth, or pressurized gas may be delivered only to the nares or mouth portion, with the other portion being blocked offfrom the pressurized gas. 6] As illustrated in Figs 1-1 to 4, for example, a mask system 1 may include a nares portion 20, a mouth n 40 and positioning and stabilizing structure, which may include headgear 60. An air delivery system may deliver air to the mask system 1, such as through ?exible tube 5. The mask system of Figs. 1-1 to 4 is a modular mask system in which the nares portion 20 and the mouth portion 40 are both d to be used t each other (in a nares only mode or in a mouth only mode), or the nares n 20 and the mouth portion 40 may be utilized together (in a nares and mouth mode). When utilized in the nares and mouth mode, one ofthe nares portion 20 and the mouth portion 40 may be utilized to deliver pressurized gas, while the other ofthe hares portion 20 and the mouth portion 40 may be utilized as a nares or mouth seal. In another form, when utilized in the nares and mouth mode, both the nares portion 20 and the mouth portion 40 may be utilized to deliver pressurized gas to the patient’s airways.

Alternatively, the mask system 1 may be formed as an integrated mask system, where the nares portion 20 and the mouth portion 40 are formed as a single element. 7] Figs. 5—1 to 13 illustrate another mask system 1 that may be in the form of a modular mask, where the nares n 20 and the mouth portion 40 may be adapted to be used without each other, or the nares portion 20 and the mouth portion 40 may be adapted to function together to r the breathable, pressurized gas to the patient’s nares and mouth. In Figs. 5-1 and 6 to 13, the ?exible tube 5 is connected to the swivel ring 4 via the elbow 2, to direct the pressurized, breathable gas to the chamber of the mouth portion 40 and to the nares n 20. Fig. 5-1 and Figs. 6 to 12 illustrate the modular mask system 1 in a nares and mouth mode, where the nares portion 20 and the mouth portion 40 are both utilized. Fig. 5-2 illustrates the mask system 1 in a nares only mode, where the nares portion 20 is used without the mouth portion 40. In the nares only mode, the elbow 2, ?exible tube 5 and the swivel ring 4 are connected to an opening in the nares portion 20.

Figs. 14 and 15 illustrate an integrated mask system 101, which includes a nares portion 120, a mouth portion 140, and positioning and stabilizing structure, which may include headgear 160. In the integrated mask system, the nares portion 120 and the mouth portion 140 are not separable, and are typically formed together in a single piece. An air delivery system may deliver air to the mask system 101, such as h and a ?exible tube 105 connected to the mouth portion 140 via an elbow 102.

Figs. 16-18 illustrate another mask system 201, which may be an ated mask system, and which es a nares portion 220 and a mouth portion 240. An air delivery system may deliver air to the mask system 201 .

Figs. 21 and 22 illustrate a modular mask system 301 in accordance with an embodiment ofthe t logy. The mask system 301 includes a nares portion 320, a mouth portion 340 and headgear 360. An air delivery system may deliver air to the mask system 301, such as through e tube 305 connected to the mouth portion 340 or nares portion 320 via connector 306 and optional swivel connector 308. The connector 306 may be in the form of an elbow or other type of connector. The connector 306 may be a ?exible portion that is able to absorb external forces that may otherwise dislodge the seal of nares portion 320 and/or mouth portion 340 with the patient, for e as may be caused by tube drag forces. Fig. 21 illustrates the mask system 301 in the names only mode, and Fig. 22 illustrates the mask system 301 in the nares and mouth mode.

Fig. 23 rates a modular mask system 370 in accordance with an embodiment of the present technology. The mask system 370 includes a nares portion 372, a mouth portion 380, and headgear 360. An air delivery system including an air delivery tube or conduit 379 may deliver air to the mask system 370. Further, tube 379 may on as ar in addition to being an air delivery tube or conduit. 2] Fig. 24 illustrates a modular mask system 401 in accordance with an embodiment of the present technology. The mask system 401 includes a nares portion 420, a mouth portion 440, and headgear 460. An air delivery system may deliver air to the mask system 401, such as h a ?exible tube 405 connected to the mouth n 440 via connector 402 and optional swivel connector 444. 3] Fig. 25 illustrates an integrated mask system 501 in accordance with an embodiment of the present technology. The mask system 501 includes a nares portion 520, a mouth portion 540, and headgear 560. An air delivery system may deliver air to the mask system 501, such as through a ?exible tube 505 connected to the mouth portion 540 via connector 502 and optional swivel connector 544. 4] Fig. 34 illustrates mask system 701 that may be in the form ofa modular mask, where the nares portion 720 and the mouth portion 740 may be adapted to be used without each other, or the nares portion 720 and the mouth portion 740 ?mction together to deliver the breathable, pressurized gas to the patient’s nares and mouth. Fig. 34 illustrates the mask system 701 utilized in the wares and mouth mode, with the ?exible tube 705 connected to the swivel rings 710 and 744 via the double elbow 712, to direct the pressurized, breathable gas to the chamber of the mouth portion 740 and to the nares portion 720.

In a nares only mode, only the nares portion 720 is utilized and the mouth portion 740 is not utilized. In this mode, the double elbow 712 is removed and the mouth portion 740 is removed. The patient utilizes the nares portion 720 only, and connects the tube 705 to the swivel ring or other tor 710. An elbow such as elbow 2 may be utilized to t the tube 705 to the swivel ring or other connector 710.

In a mouth only mode, only the mouth n 740 is utilized and the nares portion 720 is not utilized. In this mode, the double elbow 712 is d and the nares portion 720 is removed. The patient utilizes the mouth portion 740 only, and connects the tube 705 to the swivel ring or other connector 744. An elbow such as elbow 2 may be utilized to connect the tube 705 to the swivel ring or other connector 744. 1.1 Naree Portion 8] The nares portion is ed to form a seal with the patient's nasal airway in use.

The nares portion could be a seal that is disposed on the outside ofthe patient’s nose, for example a cradle type mask or a typical nasal mask. Alternatively, it could be an around the nares type seal like a pillows type mask, or it could be an in the nose type seal like nasal plugs.

A hares seal may be an appropriate choice for patient’s who have upper airway obstructions.

Breathing through the nose may also have other bene?ts like a natural ?ltration ofthe inhaled air.

As illustrated in Figs. 1-1 to 4, the modular mask system 1 may include a nares n 20. The nares portion 20 may include nares sealing portion 22, a decoupling portion 25, headgear connectors 21, a swivel ring 4, and a plug 3. The headgear connectors 21 may include headgear tabs 31 adapted to connect to headgear.

The decoupling portion 25 may function to decouple forces applied to the nares portion 20 from the nares sealing portion 22, such as tube drag forces applied at the swivel ring 4 by movement of ?exible tube 5. The swivel ring 4 ?ts into an g in the decoupling portion on a front of the nares portion 20. The decoupling portion 25 may comprise a thin walled section, for example less than ham to enable ?exibility ofthis portion.

The plug 3 is adapted to ?t into the swivel ring. The plug 3 may include a ity of optional vent holes 6 that allow air exhaled by the patient’s nose to be vented out of the nares portion 20. Preferably, vent holes 6 are arranged in a diffuse array to t jetting of air from the vent. In some embodiments, the plug 3 may be removed and ed with a connection to the tube 5.

Fig. 1.1 illustrates the nares portion 20 ofmask system 1 utilized in a nares only mode. Nares portion 20 is ed t mouth portion 40, and the elbow 2 and ?exible tube 5 are connected to the swivel ring 4 on the nares portion 20.

The hares portion 20 illustrated in Figs. 1-1 to 4 may be a modi?ed version ofthe commercially sold Swi?TM FX by ResMed Ltd, (e.g., as described in WO 39014 Al, both ofwhich are incorporated by reference herein in their entirety), for example, although other nares portions may be utilized. The nares portion 20 may be modi?ed ?'om the commercially sold S'wi?TM FX by ResMed Ltd. to include a connector 30, as rated in Figs. 1-1, 1-5 and 3, the connector 30 adapted to connect a chamber 49 of the nares portion 20 at an opening 46 in mouth portion 40, so that air is pneumatically allowed to ?ow between the nares portion 20 and the mouth portion 40. When used in the nares only con?guration illustrated Fig. 1-1, the connector 30 is removed from the opening 46 as shown in the exploded view ofFig. 1-5, and the connector 30 is engaged with plug 35. The plug 35 is shaped so as to ?t into either the opening 46 or the connector 30 as needed. The plug 3 is removed ?'om the nares portion 20, and the elbow 2 and e tube 5 may be ted via the swivel ring 4 to the hares portion 20 to deliver the pressurized able gas to the nares portion 20.

Figs. 5-1 to 13 illustrate a mask system 1 that includes a nares portion 20. The nares portion 20 may include hares sealing portion 22, a decoupling portion 25, headgear connectors 21, and a swivel ring 4. The headgear connectors 21 may e headgear tabs 31 adapted to connect to headgear 60.

The nares portion 20 illustrated in Figs. 5 to 13 may be the commercially sold M FX by ResMed Ltd, for example, although other nares portions may be utilized. Further details of such a nares portion 20 are disclosed in , the disclosure ofwhich is incorporated herein by reference in its entirety.

Figs. 19 and 20 illustrate another nares portion 220, which may be utilized with any of the embodiments disclosed herein. The nares portion 220 may include nares sealing portion 222, a support membrane 252, a supporting portion 253, and headgear connectors 230 with headgear tabs 231 for connecting to headgear. The support membrane 252 may be adapted to connect to a swivel ring or other connector for connection to a supply of pressurized, breathable gas. Further details of the nares portion 220 are disclosed in which are incorporated herein by reference.

Figs. 14 and 15 illustrate an integrated mask system 1, which includes the nares portion 120. The nares portion 120 may e nares sealing portion 122, decoupling portion 125 and headgear connectors 121 d to connect to headgear 160. A nares portion such as the cially sold Swi?"M FX nares portion, the modi?ed version ofthe cially sold Swi?TM FX nares portion, or the nares portion of Figs. 19 and 20 may be utilized and integrated with the embodiment ofFigs 14 and 15.

Figs. 16-18 illustrate a mask system 201 that may include nares portion 220. The nares portion 220 may include nares g portion 222 and an ori?ce 226 for receiving pressurized, breathable gas. The mask system 201 is illustrated with a nares portion 220 such as illustrated in Figs. 19 and 20, although other nares portions could be ed, such as the commercially sold Swi?'l'M FX nares portion or the modi?ed version ofthe commercially sold Swi?TM FX nares portion.

Figs. 21 and 22 illustrate a modular mask system 301, which es nares portion 320. The nares portion 320 may include nares sealing portion 322, decoupling portion 325 and headgear tors 321 for connecting to headgear 360. Nares portion 320 may be adapted to connect to connector 306 by including opening 326 adapted to receive connector 306. 0] Fig. 23 rates an integrated mask system that includes a nares portion 372 connected to a mouth n 380 and ar 360. The nares portion 372 includes nares sealing portion 374 d to form a seal with the patient’s nares.

Fig. 24 illustrates an integrated mask system 401 that includes a nares portion 420 connected to a mouth portion 440, and headgear 460. The nares portion 420 includes nares sealing portion 422 adapted to form a seal with the patient’s nares, decoupling portion 425, and headgear connectors 421 d to connect to headgear 460. The nares n 420 is illustrated as the membrane type illustrated in Figs. 19 and 20, gh other nares portions could be utilized, such as the commercially sold Swi?m FX nares portion or the modi?ed n of the commercially sold T'M FX nares portion. 2] Fig. 25 illustrates an integrated mask system 501 that includes a nares portion 520 connected to a mouth n 540, and headgear 560. The nares portion 520 includes nares sealing portion 522 adapted to form a seal with the patient’s nares, decoupling portion 525, and headgear connectors 521 adapted to connect to headgear 560. The nares portion 520 is illustrated as the ne type illustrated in Figs. 19 and 20, although other nares portions could be utilized, such as the commercially sold Swi?TM FX nares portion or the modi?ed version ofthe commercially sold SwiftTM FX nares portion.

Fig. 34 illustrates a modular mask system 701 that includes a nares portion 720 connected to a mouth n 740, and ar 760. The nares portion 720 includes nares sealing portion 722 adapted to form a seal with the patient’s names, decoupling portion 725, and headgear connectors 721 adapted to connect to headgear 760. The nares portion 720 may be the commercially sold Swi?TM FX nares portion, although other nares portions could be ed, such as the commercially sold Swi?l'M FX nares portion or the nares portion illustrated in Figs. 19 and 20.

Figs. 55, 55A, 56, and 56A illustrate nares portions 1380, 1390, each including foam portions 1382, I392. The foam portions 1382, 1392 have holes 1384, 1394 allowing passage of air to the mates of a patient. As shown Fig. 55A, the foam portion 1382 is ant and will reveal the nasal prong once compressed. As shown in Fig. 56A, the nasal prong rolls back to hold the foam portion 1392 in place and provide a relatively ?at surface to contact with the nose. 1.2 Mouth Portion The mouth portion may be adapted to surround the patient’s mouth and form a seal with the patient’s airway at the mouth. The seal of the mouth portion could be a ?ap type seal like a membrane type seal, or it could be a compression seal utilizing materials such as foam, gel, fabric, etc. 7] A mouth portion 40 as illustrated in Figs. 1-2 to 4 may include mouth sealing portion 42, a decoupling n 45 to decouple forces applied to the mouth portion 40 from the mouth sealing portion 42, lower headgear connectors 41, and a swivel connector 44. The mouth portion 42 forms a chamber 49 into which air may be delivered and directed to the t’s mouth.

A swivel connector 44 may be disposed in a front aperture 52 of the mouth portion 40.

The swivel connector 44 may be a swivel ring adapted to connect to a tube tor, such as elbow 2, for connecting to e tube 5, which may deliver breathable gas to the mouth portion 40. The swivel connector 44 may be removed from the front aperture ofthe mouth portion 40.

Alternatively, the tube 5 may connect directly to the mouth portion 40.

The mouth portion 40 illusu'ated in Figs. 1-1 to 4 is also adapted to connect to the nares portion 20. Speci?cally, the mouth portion 40, as rated in Figs. 1-4 and 1-5, may include an aperture or opening 46 adapted to receive and seal with the connector 30 ofthe nares portion 20, to pneumatically connect the nares portion 20 to the chamber 49 of the mouth portion 40. A plug 35 may be included with the mask system 1, the plug 35 being adapted to ?t within and plug the connector 30 or the aperture 46. Also, the nares portion 20 may on in a nares mode only without the mouth portion 40.

The mouth portion 40 may function as a docking n, where the mouth portion 40 is d to provide docking (the mouth portion is adapted to removably receive the nares portion) with respect to the nares portion 20. As illustrated in Fig. 1-5, the mouth portion may e a nares portion docking station 56 formed on the mouth portion 40, where the nares portion docking n 56 is adapted to receive a nares portion 20. The received nares portion 20 is capable of functioning as a nares only device for delivering pressurized breathable gas to the nares of a patient. 1] The nares portion docking station 56 may be adapted to receive the nares portion 20 by having a shape selected to mate with a shape ofthe nares portion. For example, as shown in Fig. 1-5, the nares portion docking station may have a curved upper surface to match a curved lower ofthe mouth portion 40. The nares portion docking n 56 may be adapted to receive the nares portion 20 by having an opening or aperture, such as aperture 46, d to receive a protrusion or connector in the nares portion 20, such as tor 30. Alternative connections of the docking station 56 to the nares portion 20 are possible, such as utilizing undercuts or grooves to hold the nares portion 20 in place. A plug 35 may be provided, the plug 35 adapted to plug either the connector 30 or the opening 46.

When the connector 30 ofthe nares portion 20 is connected to the re 46 of the mouth portion, the plug 35 may be placed in the connector 30 to prevent air ?'om tically ?owing between the nares portion 20 and the mouth portion 40. The mouth portion 20 may alternatively be adapted to prevent air from pneumatically ?owing between the nares portion 20 and the mouth n 40, by including a valve 55 as illustrated in Fig. 3, the valve 55 ively opening and closing the g 46. The patient can selectively operate the valve 55, such as by turning a knob 54 illustrated in Figs. 2 and 3.

In some embodiments, such as illustrated in Fig. 1-3, the elbow 2 and ?exible tube 5 may not be ted to the swivel connector 44, but may instead be replaced with plug 3, which may or may not include the optional vent holes 6.

Figs. 5-1 to 13 illustrate a modular mask system 1 which includes a mouth portion 40 that includes an alternative tion to nares portion 20. In particular, in the embodiments of Figs. 5-1 to 13, a nares portion connector 43 is utilized to connect the mouth portion 40 to the nares portion 20. The nares portion connector 43 is adapted to ?t over and seal with the nares n 20, so that the air ?-om the ?exible tube 5 may be delivered into the mouth portion 40, and through nares portion connector 43 to the nares portion. The decoupling portion 45 decouple forces at swivel ring 4, such as tube drag forces, from both the sealing portion 22 of the nares portion 20 and from the sealing portion 42 of the mouth portion 40.

The sealing portion 42 of the mouth portion 40 may include a bottom portion 79, side portions 81, a top portion 85 and a neck portion 87. The bottom portion 79 may be adapted to form a seal with a patient’s lower lip or chin area. The top portion 85 may be d to form a seal with the patient’s upper lip area. The side portions may be adapted to form a seal with the patient’s face on side areas ofthe patient’s mouth. The side portions 81 extend between the bottom portion 79 and the top portion 85. The neck portion 87 ts the top portion 85 to the nares portion connector 43. The sealing n 42 transitions from the top portion 85 sweeping into the neck portion 87, with the neck portion 42 being narrower than the top n 85 to conform to the size and shape of the nares portion connector 43. By having the narrower neck portion 42, the pressure and ?ow of air into the g portion 42 may be ed.

Figs. 14 and 15 illustrate a mask system 101 that includes the mouth portion 140. The mouth portion 140 may include a structm'al portion 147, a mouth sealing portion 142, decoupling portion 145, headgear connectors 141 for connecting to headgear, and vent 103, which may include one or more vent holes or slots for venting gas d by the patient. A nares portion connector 143 for connecting to the nares portion 120 may be utilized when the nares portion 120 and the mouth portion 140 are not formed as a unitary element. Flexible tube 105 may be connected to the mouth portion 140 via an elbow 102. Structural portion 147 may be constructed and ed to stiffen the outer perimeter of the g portion to the shape ofthe sealing portion is maintained and sufficient sealing force is applied to the patient’s face.

Figs. 16 to 18 illustrate a mask system 201 that includes the mouth portion 240. The mouth n 240 includes a mouth seal portion 242 which may be in the form of a cushion for sealing with the mouth of the patient, a frame 247, a mouth ori?ce 246 for receiving the rized, breathable air, a decoupling portion 245, and a nares connecting portion 243 for connecting with the nares portion. Fig. 16 is illustrated with the ?ame 247, the ling portion 245 and the connecting portion 243 removed. Although not illustrated, the mouth portion may include connection to a ?exible tube for delivery of the pressurized, breathable gas, such as the swivel connector, elbow and e tube rated in other embodiments.

Figs. 21 and 22 illustrate a modular mask system 301 that includes a mouth portion 340. The mouth portion 340 includes decoupling portion 345, opening 348 and connector 349.

The connector 306 is adapted to connect to either opening 326 in the nares portion 320 as illustrated in Fig. 21 or to g 348 in the mouth portion 340 as illustrated in Fig. 22. The connector 349 of the mouth portion is adapted to connect to opening 326 in nares portion 320, when the mask 301 is utilized in a nares and mouth mode. A plug may be ed to plug the connector 349 when the mask 30] is utilized in a month only mode.

The mask system 375 illustrated in Fig. 23 may include a mouth portion 380. The mouth portion 380 may include a mouth sealing portion 375, and may be adapted to connect to headgear 360, and to connect to nares portion 372. The mask system may include air delivery conduit or tube 379 which may be integrated into the headgear. The air delivery tube 379 thus eliminates the need for an elbow connected to the mouth portion 380, ing a "ducted" air delivery and giving the mask system 375 a more lined look.

The mask system 401 illustrated in Fig. 24 includes a mouth portion 440. The mouth portion 440 includes a mouth sealing portion 442, ar connectors 441 for connecting to headgear 460 and a decoupling n 445. The swivel connector 444 may connect the mouth portion 440 to elbow 402 and ?exible hose 405, which rs pressurized, breathable gas to the mask system 401.

The mask system 501 illustrated in Fig. 25 includes a mouth portion 540. The mouth portion 540 includes a mouth sealing portion 542, headgear connectors 541 for connecting to headgear 560, swivel connector 544 and foam patient contacting portion 569. The foam may be placed around a perimeter ofthe mouth sealing portion 542, but optionally could be placed only at selected portions, e.g., just at a top lip portion for t. ne or another sealing means could be placed in the areas around the perimeter ofthe mouth sealing portion 542 not containing the foam. The mouth portion may 540 also include an optional decoupling portion 545. The swivel connector 544 may t to elbow 502 and ?exible hose 505, which rs pressurized, breathable gas to the mask system 501. The foam patient contacting portion 569 may contact with and form a seal with the upper lip area ofthe patient, and thus form part ofthe mouth seal.

The mask system 701 illustrated in Fig. 34 includes a mouth portion 740. The mouth portion 740 may include a mouth sealing portion 742, a decoupling portion 745 and headgear connectors 741 for connecting to headgear 760. A swivel ring or other connector 744 may also be used to connect to ?exible hose 705 via double elbow 712. 1.3 Sealing Portions The sealing portion may consist of at least two portions: a nares g portion and a mouth sealing portion. By providing at least a nares sealing portion and a mouth sealing portion, the patient may receive pressurized breathable gas selectively through their nose and/or mouth.

The nares sailing portion may function independently of the mouth sealing portion.

Therefore, in some embodiments, the patient may remove the mouth sealing portion by removing the mouth n and use only the nares portion with the nares sealing portion ifdesired. The mouth sealing portion may ftmction independently ofthe nares sealing n. Thus, in some embodiments, the patient may remove the nares portion and the nares sealing portion and use only the mouth portion and the mouth sealing portion.

The nares sealing portion and the mouth sealing portion may both need to form a seal with the upper lip ofthe t. However, due to the limited amount of surface area in which to position the nares g portion and the mouth sealing portion in the upper lip region, the various embodiments utilize structural elements to accomplish sealing of both the nares sealing portion and the mouth sealing portion in the upper lip region ofthe patient. 7] The mouth g portion may ?t a wide range of the population. The mouth sealing portion may have a single size that ?ts most people. r, the mouth g portion may be provided in various sizes to accommodate a wide range of the population. The mouth seal may be lengthwise adjustable to accommodate the varying pometric range ofthe tion.

The nares sealing n may ?t a wide range ofthe population. Preferably, the nares sealing portion may be provided in one or two sizes to accommodate a wide range of the population. 1.3.1 Nam g Portion The nares sealing portion is adapted to e a comfortable and effective seal with the nares of a patient.

The nares sealing portion may be in the form ows, , a membrane seal such as a nasal cradle, and/or a nasal chamber.

The nares sealing portion may be the pillows seal such as disclosed in PCT Application No.

Preferably the nares g portion may be ?exible and compliant so as to conform to the shape of the patient’s nose and/or nares in use.

Preferably the nares sealing portion may be constructed from a polymer such as silicone, thermoplastic elastomer, thermoplastic methane. Alternatively the nares seal portion may be constructed of foam, gel, fabric or other compliant material. Alternatively, the nares sealing portion may be constructed of a combination of materials such as a foam and fabric lamination, fabric and r ation or any other combination of the afore mentioned materials.

] As illustrated in Figs. 1-1 to 4, embodiments ofthe t technology may include a nares g n 22in the form ofa pillows or prongs type nares seal. The nares sealing portion 22 may atively be a membrane type nares seal or a nasal chamber. Nares sealing portion 22 is adapted to form a seal with the nares of a patient in use. Nares sealing portion 22 may be positioned to sit underneath the patient’s nose, and be shaped to form an e?‘ective seal.

As illustrated in Figs. 19 and 20, a nares portion 220 may include nares g portion 222, a support membrane 252, a supporting portion 253, and headgear tors 230 with headgear tabs 231 for connecting to headgear. All ofthe embodiments disclosed herein may use a nares sealing portion in the form ofthe nares sealing portion 222 when utilized with a membrane type nares n.

The nares sealing portion 222 may include a nose tip engagement portion 254, an upper lip engagement portion 256, and ned comer regions 258. The supporting portion 253 A higher stiffness may include rear thickened portions 262 and front thickened portions 260. al in portions of the supporting portion 253 may be used instead of or in addition to the ned portions 260 and 262 to provide additional support in these areas. The front thickened portions 260 are positioned adjacent to an area of the sealing portion that contacts with sides of the patient’s nose in use, and transfer headgear load into a pinch force on the sides of a patient’s nose to provide an effective seal. The ?ont thickened portion 260 may have a thickness that increases from a top to a bottom. The rear thickened portions 262 may include a lower portion 266 having a ?rst ess and an upper portion 264 having a second thickness r than the ?rst thickness.

The nose tip engagement portion 254 is formed as a hanging, ?exible membrane. The sides ofthe sealing portion 222 are connected to or bonded to the supporting portion 253, while there is a front gap between a~central portion of the sealing portion 222 and the supporting portion 253 between front anchor points 257. By utilizing this hanging, ?exible membrane, the nose tip engagement n 254 provides a ?exible surface that remains in tensile contact with the nose during patient interface movement, and better accommodates varying nose geometries.

The nose tip engagement n 254 engages with and seals with the patient’s nose, and stretches towards the supporting n 253. The sides of the sealing portion 222 engage with and seal with the sides of the t’s nose.

The sealing portion 222 includes an upper lip ment portion 256 that engages with a patient’s upper lip in use. The upper lip engagement portion 256 is formed as a hanging, ?exible membrane, with a rear gap between the upper lip engagement portion 256 of the sealing portion 222 and the supporting portion 253. The rear gap is positioned between rear . points 259 that anchor the sealing portion 222 to the supporting portion 253. The ?exible, hanging membrane provides a e surface that s in tensile contact with the upper lip ofthe t during patient interface movement, and can stretch to accommodate varying facial geometries by allowing movement of the upper lip engagement portion 256.

The rear thickened ns 262 may have a curved portion 268. The rear thickened portions 262 may include a cored out portion 270 to reduce a bulk ofthe silicone and to reduce a curing time. The rear ned portions 262 are positioned directly below the thickened corner regions 258 ofthe sealing portion 222, as may be seen in Fig. 20. When utilized with headgear connectors such as illustrated in Figs. 24 and 25, the rear thickened portions 262 transfer a load from the headgear tors to the thickened corner regions 258 and to the lower corners ofthe patient’s nose to aid in providing an effective seal, and when the headgear is tensioned, the transfer ofload to the lower corners of the patient’s nose is increased. The bending force from headgear connectors is transferred in use by the rear thickened portions 262 to the thickened comer regions 258 of the sealing portion 222 to apply a sealing force as an anchor force to regions of the patient’s nose adjacent the nasal labial creases.

The was sealing portion 222 is structured to extend or curve outwardly from ting wall 221 formed in aperture 226 which de?nes an air path through the nares portion Further details ofthe nares sealing portion 222 are sed in which is orated herein by reference in its entirety.

All of the embodiments disclosed herein may use a nares sealing portion in the form ofa pillows or prongs type nares seal, a membrane type nares seal such as illustrated in Figs. 19 and 20, or a nasal chamber.

Figs. 35 and 36 illustrate a nares sealing portion 820 that may be utilized to form a seal with a patient’s nares to deliver pressurized, breathable gas to the patient’s nares via opening 826 and inlet tube 830 in a mask . The nares sealing portion 820 may be a membrane type nares seal, such as the sealing portion 222 illustrated in Figs. 19 and 20.

A dial 822 and rigid elements 823 are disposed on a bottom surface of the names sealing portion 820. There may be four such rigid elements 823, although any number could be used. The rigid elements 823 may be disposed to extend radially ?'om the dial 822, and the dial 822 may be diSposed around the opening 826. Turning the dial 822 rotates a beveled gear, causing the rigid elements 823 to move s or downwards, in turn causing the sides ofthe nares sealing portion 820 to move upwards or downwards, increasing or decreasing a ng force on the sides of the t’s nares in use. 1.3.2 Mouth Sealing Portion The mouth sealing portion may be d to seal with the mouth of a patient.

Preferably, the mouth sealing portion may be ?exible and compliant so as to conform to the shape ofthe patient's nose and/or nares in use. The mouth sealing portion may include a membrane that can stretch over the upper lip and chin s of the patient, i.e. be more ?exible than the side regions of the membrane that interface with the checks of the patient. The checks or side of the mouth region are less sensitive to pressure from the force ofthe mask so more force can be applied in the cheeks or side region thereby anchoring the mouth portion over the mouth of the patient. r, the ?exibility of the upper lip and chin regions means that the mouth sealing portion is able to ?ex from a generally planar on to ?t ?at/pancake faces, and can also ?t pointy/angular faces by ?exing into a concave position. ably the mouth sealing portion may be constructed from a polymer such as silicone, thermoplastic elastomer, or thermoplastic urethane. Alternatively the mouth seal portion may be constructed of a foam, gel, fabric or other compliant al. Alternatively, the mouth seal portion may be constructed of a combination of materials such as a foam and fabric lamination, fabric and polymer combination or any other combination of the afore mentioned materials.

As illustrated in Figs. 1-1 to 4, embodiments of the present technology may include a mouth sealing portion 42. Mouth sealing portion 42 is adapted to form a seal with the mouth of a patient in use. Mouth sealing portion 42 may be positioned to sit around the patient’s mouth, and be shaped to form an ive seal. The mouth sealing portion 42 may be in the form of a cushion, which forms a rear opening 50 for insertion of the patient’s mouth. The cushion may be a soft silicone onshion, which contacts with the patient’s mouth area and forms a seal. All of the embodiments disclosed herein may include a mouth sealing n as described above.

As illustrated in the tic cross-sectional view of Fig. 26, the mouth sealing portion 42 may seal with the patient around the patient’s mouth, in the areas ofthe patient’s upper lip and an area between the patient’s lower lip and the patient’s chin. As further illustrated in Fig. 26, the mouth sealing n 42 may be ed between the decoupling portion 25 and the patient’s upper lip.

Most preferably, the mouth sealing portion may be constructed ofa ?ap seal, such as the one disclosed in US. Patent 7,658,189, which is incorporated herein by reference in its entirety. The mouth sealing n may be ucted ofa dual wall seal or a single wall seal. 1.3.3 Decoupling There may be a decoupling or force absorbing element positioned as part ofthe nares portion or the mouth portion. A decoupling element may be oned between a ?rst portion of the nares portion and a second n of the nares portion, and/or beanie-en a ?rst mrtion ofthe mouth portion and a second portion of the mouth portion, to prevent movement or forces acting on a the nares or mouth portions ?'om disrupting the seal of the tive sealing portions.

In an embodiment, the decoupling element may be a spring.

In another embodiment, the decoupling element may be a gusset or ?exible chamber.

As rated in Figs. 1-4, a decoupling portion 25 may be ed between the nares seal portion 22 and the swivel ring 4. The decoupling portion 25 may be a thin, e region of elastic material adapted to absorb force and/or movement by ?exing and/or altering its shape.

For e, the decoupling portion 25 decouples forces or movement acting on the swivel ring 4 from being transferred to the nares sealing portion 22.

Mouth sealing portion 40 may also e a decoupling portion 45 that may be disposed between the frame 47 and swivel connector 44. The decoupling portion 45 may be a thin, ?exible region adapted to absorb force and/or movement by ?exing and/or altering its shape. For example, the decoupling portion 45 decouples forces or movement acting on the ?exible tube 5, swivel connector 44, and/or the elbow 2 from being transferred to the mouth sealing portion 42, such as tube drag forces, providing a more effective seal with the patient. All ofthe embodiments disclosed herein may include one or more decoupling portions as described that may be part ofthe nares portion and/or the mouth portion.

In the mask system 1180 of Fig. 46, the nares n 1190 is decoupled from movement in the mouth portion 1182 by decoupling portion 1181. The decoupling n 1181 allows the nares portion 1190 to remain in sealing engagement with the patient’s nares ifthe air hose 1185 and/or mouth portion 1182 move. The nares portion 1190 may rotate relative to the mouth portion 1182. The covering ?ap 1183 will move with the air hose 1 185 and/or mouth portion 1 182. 1.3.4 onship between Nares and Mouth Sealing ns The sealing portion may be constructed in one piece, with the one piece including the nares sealing portion and the mouth sealing portion.

The sealing n may be ucted in more than one piece and then may be joined together to operate as a nose and mouth mask. For example, the nares sealing portion may be constructed in a ?rst piece and the mouth sealing portion may be constructed in a second piece, and the ?rst and second pieces may then be joined together.

In a further preferred embodiment, the sealing portions may be constructed in more than one piece, where each piece can be used independently ofthe other pieces or joined to the other pieces, each arrangement still providing treatment to the patient. For example, the nares portion including the nares sealing portion may be separate ?oor the mouth n ing the mouth sealing portion, and the nares portion ing the nares sealing portion can be used without the mouth portion including the mouth sealing portion attached yet still be able to deliver ent to the t’s nares. 1.3.5 Connection ofNam and Mouth Portions to Headgear The headgear 60 can connect to each of the nares portion 20 and the mouth n 40. This is unlike many prior art arrangements where the headgear connects to the mouth portion only and the mouth portion is structtn'ed and arranged to adapt the nares portion into sealing engagement with the patient’s nose.

As illustrated in Figs. 1-1 to 13, the nares portion 20 may include headgear connectors 21. The headgear connectors 21 may include headgear tabs 31 that may interface or connect with apertures 62 which may be in the form of a slot or loop on the headgear strap 61.

The mouth n 40 may include a lower headgear connector 41 for receiving a locking device 64 from lower‘headgear strap 63. 6] Alternative connecting devices are possible for the nares portion 20 and the mouth portion 40. For example, hook and loop type connections, push ?t connections, interference ?ts, ball and socket joints, etc. may be used. 1.4 Positioning and Stabilizing Structure The positioning and stabilizing structure in the form of headgear 60 may be adapted to maintain the mask system in g engagement with the nares and mouth of a t. The headgear 60 may include straps adapted to secure the position ofthe headgear 60 on the head of the patient. The straps may include a side strap headgear strap 61, a lower headgear strap 63, a rear headgear portion 65 and a crown headgear portion 66. The straps may also direct a tension force on the mask adapted to seal the mask with the face of the patient. 1.4.1 Headgear Side Portion Figs. 1-1 to 1-3 and 5-1 to 7 show a headgear 60 in use. Side headgear straps 61 may be adapted to be positioned Over the cheeks, eath the eyes and above the ears ofthe patient. Side headgear straps 61 may be connected to the headgear connectors 21 of the nares portion 20.

Side headgear straps 61 may include side headgear tors 62 for connection with the headgear connectors 21 ofthe wares portion 20. Side headgear tors 62 may be in the form ofa loop for capturing on the headgear tabs 31 on the nares n 20. Any connection method may be possible, for example hook and loop tion, clips, push ?t tabs.

Alternatively, side ar straps 61 may be integrally formed with nares portion 20.

Side headgear straps 61 may preferably be constructed of a ?exible material that may be lengthwise stretchable. Side strap 61 may be ucted of a fabric, foam, foam and fabric composition, silicone, nylon, elastic, or any other ?exible material.

Side headgear straps 61 may provide an upwards vector to the mask system 1 to assist in maintaining the mask system 1 in the d position. The upwards vector may be angled upwards with respect to a vector applied by the lower headgear strap 63. 1.4.2 Headgear Crown Portion Headgear 60 may further include a crown strap n or top strap 66 that may be adapted to be positioned in use over the top or crown ofthe patient’s head. Crown strap portion 66 may provide an upwards vector to the mask system to assist in maintaining the mask system in the desired position.

Crown strap portion 66 may be continuous with or otherwise connected to side headgear strap 61. Crown strap portion 66 and/or side headgear strap 61 may r include strap loop 68. Strap loop 68 may be structured to receive a rear portion 65.

Crown strap portion 66 may r include adjustment mechanism 69. Adjustment mechanism 69 may be that described in reference in its entirety.

Crown strap portion 66 may preferably be ucted ofa ?exible material that may be lengthwise stretchable. Crown strap portion 66 may be constructed of a fabric, foam, foam and fabric composition, silicone, nylon, elastic, or any other ?exible material. 1.4.3 Headgear Lower Portion Headgear 60 may further include lower headgear strap 63, which may connect to the mouth n 40 ofthe mask system 1. Lower headgear strap 63 may direct a tension force on the mouth portion 40 to provide a vector force normal to the patient’s face and hence g of the mouth portion 40 on the patient’s face.

Lower headgear strap 63 may be a strap that is directed ntially under the ears of thepatient.

Lower headgear strap 63 may connect or be otherwise formed with headgear rear portion 65. 1.4.4 ' Headgear Rear Portion Headgear 60 may r e a rear portion or strap 65. Rear portion 65 may be continuous with or otherwise attached to side headgear strap 61 or crown strap portion 66. Rear portion 65 may be threaded through strap loop 68, and positioned above the ears of the patient.

Rear portion 65 may travel down the sides of the patient’s head in use and capture the occiput to anchor the headgear 60 in position. Rear portion 65 may further attach to a lower headgear strap 63 at connecting region 67.

Rear portion 65 may provide a downwards and rearwards (i.e. away from the t’s face) vector to balance the upwards vector of the crown strap portion 66, and assist in pulling the mask system 1 into sealing engagement with the patient’s face.

Rear portion 65 may be secured in position under the patient’s t by attachment to a lower strap 63 (see Fig. 7). Attachment may be at connection region 67. Connection region 67 may comprise a stitched join, hook and loop join or any other join. Connection region 67 may also be a permanent join such that rear portion 65 and lower strap 63 are formed in one piece.

Rear portion 65 may ably be constructed of a ?exible material that may be lengthwise stretchable. Rear portion 65 may be constructed of a fabric, foam, foam and fabric composition, silicone, nylon, elastic, or any other ?exible material. 1.4.5 Headgear Options The various mask system and kit embodiments may include various headgear options such as rated in Fig. 33. For example, when ed in a nares only mode, nares portion headgear 812 adapted to secure the nares n to the patient's head may be utilized. When utilized in a mouth only mode, mouth n headgear 850 adapted to secure the mouth portion to the patient’s head may be utilized.

The nares portion headgear 812 utilizes headgear vectors that are angled upwards to align the nares g force with the patient’s nares. The mouth portion headgear 850 utilizes headgear s that are generally oriented in the horizontal plane to align the mouth sealing force with the patient’s mouth. The ar vectors are angled relative to one another in the examples shown in Fig. 33 and Figs. 37-38. However, in the examples of Figs. 40-41, the headgear vectors are generally parallel to one r due to the nature ofthe n and the sealing forces involved.

When utilized in a nares and mouth mode, hares portion headgear 812 and mouth portion ar 850 may be utilized together to secure the nares portion and the mouth portion to the t’s head. Alternatively, nares and mouth portion headgear 860 may be utilized, which includes a connection region in the back portion, such as connection region 67 illustrated in Fig. 7. The nares and mouth portion headgear 860 creates headgear vectors that go back and up along the patient’s head to secure the nares portion 820 to the t’s nares, and that go back along the patient’s head to secure the mouth portion 840 to the t’s head.

Also, connected nares and mouth portion headgear 870 may be utilized, which includes a connector 856 for connecting the nares only headgear and the mouth only headgear at a back portion. The connector 856 may be a Velcro tor, a hook or loop material connector, or the like. Any of the above described headgear options may be utilized with the various embodiments.

Other alternatives for allowing selective attachment and detachment are possible, see, e.g., Fig. 66 described below, which es a back loop 1622 h which the back strap 1699 extends.

Another t is shown in Figures 90 and 91 which show another option for converting ?our a two point headgear to a four point headgear. The ar 2000 includes the two point headgear 2001 as shown in Figure 33 and Figure 66, including a pair of ?ont straps to support the mask. In addition, the rear ofthe headgear 2000 includes the ?rst rear strap 2002 connected to the pair of front straps and a second rear strap 2006 that may be connected to the ?rst rear strap, e.g., by a press stud arrangement or snaps. In particular, the ?rst rear strap 2002 may have a male part 2002.1, and the second rear strap 2006 may have a complementary/female part 2006.2, to allow selected attachment and detachment. 1.5 Vent Embodiments ofthe present technology may utilize one or more vents in the mask system to vent gas exhaled by the patient. The vent or vents may be disposed to vent exhaled gas ?'om the nares portion 20, from the mouth portion 40 or from the nares portion 20 and the mouth portion 40.

For example, a plug 3 is included on nares portion 20 and may include a vent 6 to vent exhaled gas frorn the patient’s hares. r vent 6 may optionally be included on the elbow 2 connected to the mouth portion 40, to vent exhaled gas from the patient’s mouth. Either ofthe vents 6 may be excluded, particularly ifone of the nares portion 20 or the mouth portion 40 is to be used as a sealed portion, e.‘g., a portion not delivering breathable gas to the patient.

The vents 6 may be in the form of a series or array of individual vent holes.

Alternatively, the vent 6 may be in the form of one or a series of slots, such as illustrated in Figs and 6, or another aperture or apertures. 1.6 Air Delivery System Air delivery in the form ofpressurized, breathable gas is delivered to the mask system 1 through the ?exible tube 5. The e tube 5 is .coupled to a blower/humidi?er or other air ry device, which is adapted to deliver the pressurized, breathable gas to the patient to provide therapy. 1] 1.7 Modular Mask System 2] The mask system embodiments disclosed herein may be modular mask systems, including a nares portion, a mouth n and ar. The modular mask systems may be adapted to allow a patient to selectively utilize the nares portion and/or the mouth portion in a ?rst mode and in a second mode. In the ?rst mode, the patient may utilize both the nares portion and the mouth portion. In the second mode, the t may utilize only the nares portion without utilizing the mouth portion. 3] Some ofthe embodiments may also allow the modular mask system to be utilized in a third mode, where the mouth portion is ed, and the nares portion is not utilized. In embodiments that provide the third mode, the mouth portion is ed to provide air to the patient’s mouth, while the nares portion is not utilized and not worn by the user. In addition, in some embodiments, the nares portion and the mouth portion may be adapted to allow air to freely ?ow between the chambers ofthe nares portion and the mouth portion, such as an opening and/or a connector between the chambers. Some embodiments may include a plug or a selectively operated valve that may be used to plug the opening or connector to prevent air ?'orn ?oWing between the nares portion and the mouth portion. The plug may also be used to plug the opening or connector when the nares portion or the mouth portions are used alone. All of the r mask systems may alternatively be formed as integrated mask systems, where the nares portions are not separable and individually useable ?'orn the mouth portions.

Figs. 32(a) to 320:) are schematic illustrations of a nares portion 20 and a mouth portion 40 utilized with the various modes. In the ?rst mode, the patient may utilize both the nares portion and the mouth portion, as illustrated in Figs. 32(e), 32(t), 32(g), 32(h) and 32(k), by utilizing the nares portion 20 to deliver air to the patient’s nares while utilizing the mouth portion 40 to deliver air to the patient’s mouth. In Fig. 32(c), the nares portion 20 and the mouth portion 40 do not include a connection between the chambers ofthe nares portion and the mouth portion, and the pressurized air is applied separately to both the nares n 20, which delivers the air to the patient’s nares, and to the mouth portion 40, which delivers the air to the patient’s mouth. In ?g. 32(t), there is a connection between the chambers ofthe nares portion 20 and the mouth portion 40. The rized air is applied to the chamber ofthe mouth portion 40, and ?ows through the mouth n 40 to the patient’s mouth, and ?ows from the mouth portion 40 through the connection to the nares portion 20 and to the patient’s nares.

In Fig. 32(g), there is a connection between the chambers of the nares portion 20 and the mouth portion 40. The pressurized air is applied to the chamber of the nares portion 20, and ?ows through the nares portion 20 to the patient’s tunes, and ?ows from the nares portion 20 through the tion to the mouth portion 40 and to the patient’s mouth. In Fig. 32(h), there is a connection between the chambers of the narcs portion 20 and the mouth portion 40. The rized air is applied to the chamber ofthe nares n 20 and to the chamber ofthe mouth portion 40, and may ?ow h the connection between the nares portion 20 and the mouth portion 40. In Fig. 32(k), there is a connection between the chambers ofthe nares portion 20 and the mouth portion 40, but the connection is blocked by a plug, a valve or the like. The pressurized air is applied to the chamber of the nares portion 20 and to the chamber of the mouth portion 40, and flows through the nares portion 20 to the patient’s nares and h the mouth portion 40 to the patient’s mouth.

In the ?rst mode, the patient may also utilize both the nares portion 20 and the mouth portion 40, as illustrated in Figs. 32(c) and 32(i) by ing the nares portion 20 as a nares seal while utilizing the mouth portion 40 to deliver air to the patient’s mouth. In Fig. 32(c), there is no tion n the nares portion 20 and the mouth portion 40, and the pressurized air is delivered through the mouth portion 40 to the patient’s mouth, while the nares portion is utilized as a nares seal. In Fig. 32(i), there is a connection between the nares portion 20 and the mouth portion 40, but the connection is blocked by a plug, a valve or the like. The pressurized air is delivered through the mouth portion 40 to the patient’s mouth, and the nares portion 20 is utilized as a nares seal.

In the ?rst mode, the patient may utilize both the nares portion 20 and the mouth portion 40, as illustrated in Fig 32(d) and 326), by utilizing the nares portion 20 to deliver air to the patient’s nares while ing the mouth portion 40 as a mouth seal. In Fig. 32(d), there is no tion between the nares portion 20 and the mouth n 40, and the pressurized air is delivered through the nares portion 20 to the patient’s mouth, while the mouth portion 40 is utilized as a mouth seal.

In the second mode, as illustrated in Fig. 32(a), the nares portion 20 is used alone to deliver air to the patient’s nares, while the mouth n is not used and is not worn by the t. In embodiments that utilize a connection allowing air to ?ow between the nares portion and the mouth portion, when the nares portion 20 is utilized alone, a plug, a valve or the like may be ed to plug the opening.

In the third mode, as illustrated in Fig. 32(b), the mouth portion 40 is used alone to deliver air to the patient’s mouth, while the nares portion 20 is not used and is not worn by the patient. In ments that e a connection allowing air to ?ow between the nares portion and the mouth portion 40, when the mouth portion 40 is utilized alone, a plug, a valve or the like may be utilized to plug the opening. 0] The embodiment of Figs. 1-1 to 4 is a modular mask system 1, where the nares portion 20 may be used by a t in a nares only mode without the mouth portion 40, the mouth portion 40 may be utilized by a patient in a mouth only mode without the nares portion 20, and the nares portion 20 may be utilized with the mouth portion 40 in a nares and mouth mode.

Figs. 1-2 and Figs. 2 to 4 illustrate the mask system 1 in a names and mouth mode where the nares portion 20 is ed with the mouth portion 40. When utilized in the nares and mouth mode, the mask system 1 may utilize the nares portion 20 to deliver air to the nares ofa patient and the mouth portion 40 to r air to the mouth of the patient, the mask system 1 may utilize the nares portion 20 to r air to the nares ofa patient and the mouth portion 40 may be utilized as a mouth seal that does not deliver air to the mouth ofthe patient, or the mask system 1 may utilize the mouth portion 40 to deliver air to the mouth ofthe patient and the nares portion 20 may be utilized as a nares seal that does not deliver air to the nares ofthe t.

Both the nares portion 20 and the mouth portion 40 are adapted to connect to a source ofthe pressurized, able gas. In particular, in the embodiments of Figs. 1-2 to 4, both the nares portion 20 and the mouth portion 40 are adapted to connect to a source ofthe pressurized, able gas, such as ?exible tube 5 via elbow 2, although only one ofthe portions may be connected. The ?exible tube 5 may be connected to either or both of the nares portion 20 and the mouth portion 40. A connection to both the nares portion 20 and the mouth portion 40 may be made by utilizing a connector such as double elbow 712 illustrated in Fig. 34, for example.

In the embodiments of Figs. 1-2 and Figs. 2 to 4, the nares portion 20 and mouth portion 40 are internally connected allowing air to ?ow therebetween, such as by utilizing the connector 30 in the nares portion connected to the opening 46 in the mouth portion 40, although other connections could be used. If it is desired to prevent the air ?owing between the tunes portion 20 and the mouth portion 40, the connection may be block by using the plug 35 or the valve 55 activated by the knob 54.

The mask system 1 may be utilized where the pressurized, breathable gas is received by the patient’s nares and mouth by connecting the elbow 2 and ?exible tube 5 to either ofthe swivel connector 4 ofthe nares portion 20 or the swivel connector 44 of the mouth n 40, and the breathable gas can ?ow h the connector 30 and opening 46. The mask system 1 can also ?mction as a mouth seal or nares seal, where the connector 30 and/or opening 46 would be blocked, by utilizing plug 35, or by activating the valve with the knob 54, and connecting Only one ofthe nares n 20 or the mouth portion 40 to the elbow 2 and ?exible tube 5. For example, ifthe elbow 2 and ?exible tube 5 are connected to the nares portion 20, and the tor 30 and/or g 46 are blocked by utilizing plug 35 or by activating the valve 55 with the knob 54, then the pressurized air is delivered to the nares portion 20 and the mouth portion 40 acts as a mouth seal that does not deliver the pressurized air to the patient’s mouth. atively, ifthe elbow 2 and ?exible tube 5 are connected to the mouth portion 40, and the connector 30 and/or opening 46 are blocked by utilizing‘plug 35 or by activating the valve 55 with the knob 54, then the pressurized air is delivered to the mouth portion 40 and the nares portion 20 acts as a nares seal that does not deliver the pressurized air to the patient’s nares.

The mask system 1 is also adapted to ?mction in a nares only mode utilizing the nares n 20 without the mouth portion 40, as illustrated in Fig. 1-1. In this mode, the mouth portion 40 and headgear 63 are not utilized, the plug 3 is removed from the nares portion 20, and the elbow 2 and the ?exible tube 5 are connected to the nares portion 20 to deliver the pressurized, breathable gas to the patient’s nares. The connector 30 is plugged with plug 35.

The mask system 1 is also adapted to function in a mouth only mode utilizing the mouth n 40 without the nares portion 20, as illustrated in Fig. 1-4. In this mode, the nares portion 20 along with the headgear 61 are not utilized, and the elbow 2 and the e tube 5 are connected via the swivel tor 44 to the mouth portion 40 to deliver the pressurized, breathable gas to the patient’s mouth. The opening 46 on the mouth n is plugged with the plug 35.

Figs. 5-1 to 13 illustrate r embodiment of a mask system 1 that may be a modular mask system. Figs. 5-1 and 6-13 illustrate the modular mask system 1 in a nares and mouth mode. The ?exible tube 5 is connected via the swivel ring 4 to the elbow 2, to direct the pressurized, breathable gas to the chamber ofthe mouth portion 40 and to the nares portion 20 via the nares portion connector 43.

The decoupling portion 45 is connected between the swivel ring 4 and both the wares portion 20 and the mouth n 40. In addition, the nares portion 20 also may include the decoupling portion 25, such that the nares portion bene?ts from two decoupling portions to decouple forces or movements applied to the ?exible tube 5, the elbow 2, and/or the swivel ring 4 ?om being transferred to the sealing portion 22 of the nares portion 20.

In the embodiments of Figs. 5-1 to 13, the nares sealing portion 22 may be in the form ofnasal pillows such as illustrated in Figs. 8, 9, 11 and 12, or may be in the form ofprongs, a membrane seal such as a nasal cradle, and/or a nasal r. For example, the nares portion of Figs. 5-13 may be in the form of the nares n 220 illustrated in Figs. 19 and 20. The supporting portion 252 may or may not be included. When utilizing the nares portion 220, the sealing n 222 sealing with the patient’s nares is structured to extend or curve outwardly ?'om a supporting wall 221 de?ning an air path h the sealing portion 222, and forms a seal with the nose tip, upper lip and nares ofthe patient. 9] As illustrated in Fig. 5-2, the mask system may be utilized in 8. names only mode. In this mode, the mask system is utilized with the nares portion 20, and the mouth portion 40 is not utilized by the patient. To convert the mask system from the nares and mouth mode to the nares only mode, the swivel ring 4, the elbow 2 and the ?exible tube 5 are removed from mouth portion 40, the mouth portion 40 is removed from connection with the nares portion 20 by disconnecting the nares portion connector 43 from the nares n 20, and the swivel ring 4, the elbow 2 and the ?exible tube 5 are connected to the wares portion. While the headgear 60 illustrated is shown with a connection region 67, the connection region 67 may be d to facilitate usage ofthe mask system 1 in the nares only con?guration without the lower headgear strap 63.

Figs. 21 and 22 illustrate a mask system 301 in accordance with an embodiment of the present technology. The mask system 301 is adapted to be utilized in a nares only mode, in a mouth only mode, or in a nares and mouth mode. The mask system 301 includes a nares portion 320, a mouth portion 340 and headgear 360, tor 306, optional swivel connector 308 and ?exible tube 305. The connector 306 may be in the form ofan elbow or other type ofconnector.

The nares portion 320 es nares sealing portion 322, headgear connectors 321 for connecting to headgear 360, decoupling portion 325 and opening 326. The nares sealing portion 322 may be in the form of pillows, prongs, a nasal chamber, or a ne seal, and may be in the form of hares sealing portion 222 illustrated in Figs. 19 and 20. The mouth n 340 includes decoupling portion 345, opening 348 and connector 349. The connector 306 is adapted to connect to either opening 326 in the nares n 320 or opening 348 in the mouth portion As illustrated in Fig. 21, the mask system 301 is adapted to be used'by a patient in a nares only mode without the mouth portion 340. tor 306 is connected to the opening 326 in the nares portion 320. The optional swivel connector 308 may be utilized between the connector 306 and the ?exible tube 305, which delivers the pressurized, breathable gas to the nares portion 320.

As illustrated in Fig. 22, the nares only con?guration ofFig. 21 may be ted into 21 names and mouth ration by removing the connector 306 from opening 326 in the nares portion 326, connecting connector 349 of the mouth portion to opening 326, and connecting connector 306 to opening 348 in the mouth portion 340. In the nares and mouth con?guration, the nares n may receive the pressurized, breathable gas through the connector 349 and the opening 326. Alternatively, the names portion 320 may be used as a nares seal by placing a plug in the connector 349, so that the rized, breathable air is not delivered to the nares portion The mouth portion 340 may also be utilized without the nares portion 320 in a mouth only con?guration. In the mouth only con?guration, the nares portion 320 is not utilized, and a plug is placed in connector 349 to provide a seal.

Fig. 24 illustrates a modular mask system 401 in accordance with an embodiment of the present technology. The mask system 401 includes a nares portion 420, a mouth portion 440, and headgear 460.

The nares portion 420 includes a nares sealing portion 422 for forming a seal with the patient’s nares, and headgear connectors 421 adapted to connect to headgear 460. The nares portion 420 is illustrated with a nares g portion 422 such as the type rated in Figs. 19 and 20, although other nares sealing portions could be utilized, such as pillows, prongs, a nasal chamber, etc. An optional decoupling portion 425 may be included for decoupling any forces applied to the nares portion 420. The headgear 460 may be the same as the headgear 60 illustrated in Figs. 1-1 to 4.

The mouth portion 440 includes a mouth g portion 442, headgear connectors 441 for connecting to headgear 460, and swivel connector 444. The mouth portion may also e an optional decoupling portion 445. The swivel connector 444 may connect to elbow 402 and ?exible hose 405, which delivers pressurized, breathable gas to the mask system 401.

The mask system 401 could alternatively be formed as a modular mask system, where the mouth portion 440 is ble from the nares portion 420 and both portion are individually uscablc, and the ?exible tube 405 is connectable via the swivel connector 444 or the like to the nares portion 420. A ?exible portion 443 may be disposed between the decoupling portion 425 and the decoupling n 445. The ?exible portion 443 may be a gusset or collapsible portion between the mouth portion 440 and the nares portion 420, which allows the nares portion 420 to adopt the nasolabial angle (the angle between the septum of the nose and the top lip of the patient).

Fig. 25 rates a modular mask system 501 in accordance with an embodiment of the present technology. The mask system 501 es a nares portion 520, a mouth portion 540, and headgear 560.

The nares portion 520 includes nares sealing portion 522 d to form a seal with the nares ofthe patient, and headgear connectors 521 for connecting to headgear 560. The nares portion 520 is illustrated with a nares g n 522 such as the type rated in Figs. 19 and 20, although other nares sealing portions could be utilized, such as pillows, prongs, a nasal chamber, etc. An optional decoupling portion 525 may be included for decoupling any forces applied to the nares portion 520. The headgear 560 may be the same as the headgear 60 rated in Figs. 1-1 to_4.

The mouth portion 540 includes a mouth sealing portion 542, headgear connectors 541 for connecting to headgear 560, swivel connector 544 and foam sealing or t contacting portion 569. The foam patient contacting portion 569 may be a wedge utilized as at least a part of a portion of the mouth seal. The mouth portion may 540 also include an optional decoupling portion 545. The swivel connector 544 may connect to elbow 502 and ?exible hose 505, which delivers pressurized, breathable gas to the mask system 501. The mask system 501 could alternatively be formed as an integrated mask system, where the mouth n 540 is separable from the nares portion 520 and both portions are individually useable, and the ?exible tube 505 is connectable via the swivel connector 544 or the like to the nares portion 420.

Fig. 34 illustrates another modular mask system 701 . The mask system 701 includes a nares portion 720, a mouth portion 740, and headgear 760. In this embodiment, the nares portion 720 is in a modular connection with the mouth portion 740, so that the nares portion 720 may be utilized t the mouth n 740 in a ?rst nares only mode, the mouth n 740 may be utilized without the nares portion in a second mouth only mode, or the nares portion 720 may be utilized with the mouth n 740 in a third nares and mouth mode.

The nares portion 720 may include a sealing portion 722 adapted to form a seal with the patient’s nares, an optional decoupling portion 725, and headgear connectors 721 for connecting to headgear 760. A swivel ring or other connector 710 may also be utilized. The sealing portion 722 may be in the form ofpillows, prongs, a nasal chamber or a nares sealing portion, such as the membrane type illustrated in Figs. 19 and 20.

The mouth portion 740 may include a mouth sealing portion 742, a, decoupling portion 745 and headgear connectors 741 for connecting to headgear 760. A swivel ring or other connector 744 may also be used.

In a mouth and nares mode such as illustrated in Fig. 34, the nares portion 720 and the mouth portion 740 are both utilized and ted to ?exible tube 705 through double elbow 712. Double elbow 712 includes two elbowjoints so that it may connect to both the nares portion 720 and the mouth portion 740 to deliver the pressurized, breathable air to the patient’s nares and mouth. The nares n 720 and the mouth portion 740 may or may not be connected pneumatically.

In a nares only mode, only the nares portion 720 is utilized and the mouth n 740 is not utilized. In this mode, the double elbow 712 is removed and the mouth portion 740 is removed. The t utilizes the nares portion 720 only, and connects the tube 705 to the swivel ring or other connector 710. An elbow such as elbow 2 may be ed to connect the tube 705 to the swivel ring or other connector 710.

In a mouth only mode, only the mouth portion 740 is utilized and the nares portion 720 is not utilized. In this mode, the double elbow 712 is removed and the nares portion 720 is removed. The patient utilizes the mouth portion 740 only, and connects the tube 705 to the swivel ring or other connector 744. An elbow such as elbow 2 may be utilized to t the tube 705 to the swivel ring or other connector 744.

Fig. 26 illustrates a schematic cross-section view of a mask system 1 utilized in a nares and mouth mode. In this ment, the mouth portion 40 may include a sealing ring 51 adapted to connect and seal the mouth portion 40 to the nares portion 20. Alternatively, the sealing ring 51 may be formed as part ofthe nares portion 20 and connect and seal with the mouth portion 40. Further, other types ofconnectors could be utilized or the nares portion 20 and the mouth portion 40 could be formed as a unitary element so that a sealing ring or other type of tor would not be needed.

In Fig. 26, the ?exible tube 5 is connected to the mouth portion 40 via a gusset 8 and an optional inline AAV asphyxia valve) adaptor 10, and does not utilize the elbow 2 and swivel tor 4. This embodiment ts a very streamlined appearance by moving the ?exible tube 5 away from the front of the patient’s face.

Fig. 29-1 illustrates a schematic cross-section view of a mask system 401 ed in a news and mouth mode. The nares portion 420 may include a Supporting portion 458 and a sealing portion 422. The sealing portiOn 422 includes a nose tip engagement portion 454 that engages and seals with the patient's nose tip, an upper lip engagement portion 456 that s and seals with the patient’s upper lip area, and a sealing ring 472 that engages and seals with the mouth portion 440. The sealing ring 472 may optionally be part ofthe mouth portion 440, instead of being part of the nares portion 420.

Mouth portion 440 may include swivel ring 444, which connects to ?exible tube 405.

The e tube 405 may connect directly to the swivel ring 444, or may be connected through an elbow, such as elbow 402. The mouth sealing portion 442 forms a seal around the patient’s mouth, and includes an upper lip engagement portion 448 that forms a seal with the t’s upper lip area. 1] There is a limited amount ofroom on the patient’s upper lip for the upper lip engagement portion 456 of the nares portion 420 and for the upper lip engagement portion 448 of the mouth n. Accordingly, the upper lip engagement portion 448 may be disposed between the support portion 458 of the nares portion 420 and the patient’s upper lip. Fig 29-2 illustrates the mouth sealing portion 442, with the upper lip engagement n 448. The upper lip ment portion 448 may be an ultra thin ?at membrane having a thickness of about 0.1 to 0.3mm, preferably about 0.2mm, as compared to the rest of the mouth g n 442, which may have a thickness of about 0.3 to 2mm, preferably about 0.5mm. However, portions of the mouth sealing portion 442 could include thickened portions 409 around the sides of the mouth region ponding to a check area of a patient for added t. These thickened regions 409 could have a ess ofabout 1.5mm, for example.

Fig. 29-3 is a schematic cross-sectional view that illustrates further details ofthe mask system 401 . In particular, Fig. 29-3 illustrates how the mouth sealing portion 442 extends around the mouth ofthe patient and how the nares ?are ment portion 427 engages with the ?ares of the patient’s nares. Additionally, the back edge ofthe nasal sealing area 470 is illustrated along with an edge 472 ofthe nares sealing portion 422.

Fig. 30-1 illustrates a schematic cross-sectional view ofa mask system 501 utilized in a nares and mouth mode. The nares portion 520 may include a supporting portion 558, a g portion 522 and an optional decoupling portion 525. The sealing portion 522 includes a nose tip engagement portion 554 that engages and seals with the patient’s nose tip, and an upper lip engagement portion 556 that engages and seals with the patient’s upper lip area. A sealing ring 572 that engages and seals with the mouth portion 540 may be attached to the decoupling portion. The sealing ring 572 may optionally be part ofthe mouth portion 540 instead ofbeing part ofthe nares portion 520.

The mouth portion 540 may include an optional n rigidizer 573 to se the rigidity ofthe sealing portion 522. The cushion rigidizer 573 may be made from a polymer such as polycarbonate, nylon, polypropylene, high density foam, a fabric having low stretch properties like a 3D weave, or a higher shore hardness silicone or gel, e.g. 70 Shore A. There is a limited amount ofroom on the patient’s upper lip for the upper lip ment portion 556 of the nares portion and for an upper lip engagement portion ofthe mouth portion. Accordingly, the foam patient contacting 569 may be ed in a gap between the cushion on the mouth portion 540 and the upper lip engagement portion 556. The foam patient contacting 569 may contact with and form a seal with the upper lip area ofthe patient, and thus form part ofthe mouth seal.

Fig. 30-2 illustrates a schematic cross-sectional view ofthe mask system 501 utilized in the second nares and mouth mode. The sealing ring 572 is formed as part of the mouth portion 540 and}"sadapted to engage and seal with"me decoupling portion fte nares mrtion 520.

Thereis a limited amount ofroom on the t’s upper lip for the upper lip engagement portion 556 ofthe nares portion and for an upper lip engagement portion of the mouth portion. In this embodiment, the foam patient ting n 569 is disposed against the decupling portion 525 and the cushion on the mouth portion 540, and contacts with and forms a seal with the upper lip area of the patient. The foam patient contacting portion 569 may form part ofthe mouth seal.

The cushion rigidizer 573 ofFig. 30-1 may also be used in the embodiment of Fig. 30-2 and in any ofthe other embodiments disclosed .

Fig. 42 illustrates a schematic section view ofa mask system 1100 utilized in a nares and mouth mode. The mask system 1100 may be a variation of the mask system 701 illustrated in Fig. 34. The mask system 1100 includes a nares portion 1120, a mouth portion 1 130, and a double elbow 1140. A lower end 1141 ofthe double elbow 1140 is adapted to connect to swivel 1105, which may be connected to a ?exible tube to deliver air to the mask system 1100. Lower end 1141 may connect to swivel 1105 with a ball and socket arrangement (as shown) adapted to provide a greater degree ment of the swivel and therefore the air delivery tube. Alternatively, lower end 1141 may connect to swivel 1105 in any arrangement for example an interference ?t, over mold, etc.

A ?rst air passage or branch 1146 of the double elbow 1140 is adapted to communicate with an aperture in mouth portion 1130, and a second air passage or branch 1148 of the double elbow 1140 is adapted to communicate with an aperture in nares n 1 120. A first elbow ring 1142 and a second elbow ring 1144 are used to connect the double elbow 1140 to the nares n 1120 and the mouth portion 1130, respectively, although other types ofconnectors may be utilized. The double elbow may include barbed end portions 1143 on the ends ofthe ?rst branch 1146 and the second branch 1148 to engage with the mouth portion 1130 and the nares portion 1120.

The mouth portion 1130 includes a lower lip engagement portion 1134 adapted to form a seal below the patient’s lower lip, and an upper lip engagement portion 1132 adapted to form a seal just above the patient’s upper lip. The nares portion 1120 includes nozzles 1122 adapted to locate the nares portion 1 120 proximal to the patient’s nares and ensure the foam portion 1154 is located in a position to sealingly engage the patient’s nares, although s, a nasal chamber, a nasal cradle (nares seal) or a membrane seal could also be used to form a seal with the patient’s nares.

The mouth portion 1130 may be a single wall or fabric/foam ition mouth portion with a relatively low Shore hardness. The nares n 1120 may have a hardness of e.g., 40 Shore A.

Fig. 43 illustrates a schematic cross-section view of the mask system 1100 utilized in a nares and mouth mode, and is the same as the mask system 1 100 of Fig. 42 with a different nares portion1150. Nares portion 1150 es a supporting n 1153 that supports nozzles 1 152, and foam portion 1 154; The nozzles 1152 and foam portion 1154 together form a sealing portion adapted to form a seal with the patient’s nares. The nozzles 1 152 may have an air passage that gradually decreases in size as the air approaches the t‘s nares. The supporting portion 1153 may have a hardness of e.g., 40 Shore A. The nozzles 1152 aid in supporting the foam portion 1154 in position proximate to the patient’s nares. The foam portion 1154 enables a larger ?t range as the foam is able to conform to various nares sizes due to the compressibility of the foam. The foam portion 1154 also provides comfort to the patient.

Fig. 44 illustrates a schematic cross-section view of the mask system 1 100 utilized in a nares and mouth mode, with a nares portion 1160. Nares portion 1 160 includes a supporting n 1162 and a sealing portion 1164. The supporting portion 1162 may be constructed of ne and acts as an intermediate or connecting portion n the double elbow 1140 and the g portion 1164.

The supporting portion 1162 positions the sealing portion 1164 underneath the nares ofthe user and maintains the sealing n 1164 in this position. The supporting portion 1162 may e substantially parallel side portions and end portions 1165 formed substantially perpendicular to the side portions. The end portions 1165 provide an ace surface for the g portions 1164. The sealing portion 1164 may be constructed offoam, gel or other conformable material. Preferably the g portion 1164 is more ?exible than the supporting portion 1162 so as to aid in the comfort ofthe seal and the ?t range. The sealing portion 1 164 may be foam with an aperture, the foam forming a seal with the patient’s nose tip, upper lip and nares. In an example, as shown in Fig. 44A, the supporting portion may include support walls 1162-1 (e.g., constructed of silicone or a material with higher stif?ress than the foam sealing portion) to prevent the foam ?om compressing and occluding the nares. In another example, as shown in Fig. 443, the foam sealing portion 1164 may have a t shape (e.g., ?are outwards) with a silicone support wall underneath to ensure structural stability ofthe foam and also ensure sealing engagement with the patient.

Fig. 45 illustrates a schematic cross-section view ofthe mask system 1100 utilized in a nares and mouth mode, with a nares portion 1170. The nares portion 1170 includes a ting portion 1172 and a g portion 1174. The sealing portion 1174 includes a nose tip engagement portiou 1176 and an upper lip engagement portion 1178. The supporting portion 1172 may form a seal just above the patient’s Imner ?n and mnv be positioned. betwwn the - - .71.-- -.,., _.... ....., w... patient’s upper lip and the upper lip engagement portion 1132 of the mouth n 1130.

The supporting n 1172 may have a higher Shore hardness than the sealing portion 1174. For example, the supporting portion may have a Shore A hardness of, e.g., 20-80, preferably 30-60, or about 40 while the sealing portion 1174 has a Shore A hardness ofabout 5- 40 or about 20. The hardness of the sealing portion is generally lower than the supporting portion.

Fig. 46 illustrates a schematic cross-section view of a mask system 1180 utilized in a nares and mouth mode, with mouth portion 1182 and a nares portion 1190. The nares n 1190 may be removable from the mask system 1180 and replaceable with a plug, so that the mask system 1180 may be used in a mouth only mode.

The mouth portion 1182 includes an aperture for connection ofan air supply to deliver air to the mask system 1180. Elbow 1188 connects to the aperture via sealing ring 1189.

A swivel 1187 may be connected n the elbow nd the air hose 1 185. A swivel cuff (not shown) may be connected between the swivel 1187 and air hose 1185.

The mouth portion 1 182 includes a lower lip engagement portion 1184 adapted to form a seal below the patient’s lower lip, an upper lip engagement portion 1 186 adapted to form a seal just above the patient’s upper lip, and a vanity ?ap to cover nares and/or nose tip — primarily to cover nose tip - or covering ?ap 1183 adapted to cover the patient’s nares and the nares portion 1190, making the mask system 1180 more visually appealing. The ng ?ap 1 183 extends upward a ent height to cover the patient’s nares and the nares portion 1 190.

The nares portion 1190 may include ting portion 1192 and sealing portion 1193. The g portion includes nose tip ment portiou 1194 and upper lip engagement portion 1196. The nares portion 1190 may be connected to an upper aperture in the mouth portion 1182 via a mouth clip 1198 and a nares clip 1198.1, into which the nares portion 1190 may be placed. When the nares portion 1190 is not to be used with the mask system 1180, the nares portion 1190 is removed from the mouth clip 1198, and a plug my be put in the mouth clip 1198 or in the aperture to provide a seal. The mouth clip 1 198 may be ne or another material, e.g., nylon, polypropylene, etc.

Fig. 47 illustrates a schematic cross-section view ofthe mask system 1200 utilized in a nares and mouth mode, with mouth portion 1202 and a nares portion 1220. The nares n 1220 may be ble from the mask system 1200 and replaceable with a plug, so that the ' mask system 1200 may be used in a mouth only mode and the nares portion may be used in a nares only mode.

The mouth portion 1202 includes a front portion 1204 or fascia, a lower lip engagement portion 1206, an upper lip engagement portion 1208, a nares portion tab 1210, vanity ?ap or covering ?ap 1212, and a decoupling portion 1214. The front portion or fascia 1204 may be a large clear window allowing visibility of the patient’s mouth region. The nares portion tab 1210 may be adapted to receive and sealingly engage with the nares portion 1220.

The nares portion 1220 includes an attachment ring 1229 adapted to gly engage with the mouth portion 1202, a ting portion 1222, and a sealing portion 1224. The attachment ring 1229 may be co-molded, welded, permanently d or removably attached with the rest ofthe nares portion 1220. The sealing portion 1224 es a nose tip engagement n 1228 adapted to form a seal with the patient’s nose tip, and an upper lip engagement portion 1226 d to form a seal just above the patient’s upper lip.

The covering ?ap 1212 is d in close proximity with the nose tip engagement portion 1228 of the nares portion 1220. Thus, ifthe covering ?ap 1212 moves, the nose tip engagement portion 1228 may also move. Accordingly, the ling portion 1214 is included on the mouth portion 1202 at a position below the covering ?ap 1212. The decoupling portion 1214 serves to decouple forces applied to the mouth portion 1202 (such as could be created by forces applied by movement ofthe air hose 1232) from being transmitted to the nares portion 1220.

The mouth portion 1202 includes a lower aperture adapted to receive elbow 1230, e.g., gusset elbow, which is connected to air delivery tube 1232. The gusset elbow 1230 may include an anti-asphyxia valve and/or one or more vent holes for g exhaled gases. The tube may connect to the nose cushion or pillows when in the nose-only mode. 4] Figs. 48 and 49 illustrate a modular mask system 1260, which includes a mouth portion 1262 and a nares portion 1280. The mask system 1260 is adapted to be used in a mouth only mode, a nares only mode or a mouth and nares mode.

The mouth portion 1262 includes a lower lip engagement n 1264, an upper lip engagement n 1266 adapted to push nasal seal into engagement with the face, a decoupling. (concertina) portion 1270 and aperture 1272. An aperture (not shown) on the front or bottom of the mouth portion may be provided to connect a supply of air, such as air hose connected by an elbow or the like. The ?exible portion 1270 could be air actuated or could be a thinner wall section, e.g., less stiff, and forms a decoupling portion that decouples forces applied to the mouth portion 1262 from being applied to the nares portion 1280. When used in a mouth only mode, the aperture 1272 may be plugged to provide an airtight seal.

The pares portion 1280 includes a supporting portion 1282, a sealing portion i284 and headgear connectors 1290. The sealing n 1284 is adapted to seal with the patient’s upper lip and nose tip. When used in a nares only mode, the aperture 1274 can be ted to a source of air or plugged ifair is alternatively supplied. When used in a nares and mouth mode, a nares clip 1286 may be connected, preferably permanently connected or otherwise form into the ting portion 1282, and a mouth clip 1268 may be connected, preferably permanently connected or otherwise form into the cushion of the mouth n 1262. The nares clip 1286 and the mouth clip 1268 are adapted to sealingly connect, such as through notches or the like formed in the clips. so that the mouth portion 1262 may be connected to the pares n 128‘.) in a nares and mouth mode.

Fig. 54 illustrates a cross section view ofmodular mask system 1350, which includes a mouth portion 1352 and a nares portion 1360. The nares portion 1360 may be removable from the mask system 1350 and replaceable with a plug, so that the mask system 1350 may be used in a mouth only mode, or the nares portion 1360 may be used in a nares only mode.

The mouth portion includes a frame 1354 and a mouth seal 1355. A ?rst aperture 1351 is positioned in the ?ame 1354 that is adapted to e elbow 1374 for delivery via swivel 1376 from an air hose. A second aperture 1357 is formed in the frame 1354 that may be plugged when the mask system is to be used in a mouth only mode, and connected to the nares n 1360 when the mask system 1350 is used in a nares and mouth mode.

The ?ame 1354 may be a rigid material, e.g., polycarbonate or a semi-rigid material.

The mouth seal 1355 may be a ?exible material, e.g., silicone. The mouth seal 1355 includes a lower lip engagement n 1356 adapted to form a seal below a patient’s lower lip, and upper lip ment portion 1358 adapted to form a seal just above the patient’s upper lip (when used in a mouth only mode).

The nares portion 1360 includes supporting portion 1362 and sealing portion 1364.

The sealing n 1364 includes nose tip engagement portion 1368 adapted to form a seal with the patient’s nose tip, and upper lip engagement portion 1370 adapted to form a seal just above the patient’s upper lip. The supporting portion 1362 may also form a seal just above the patient’s 1352. upper lip. A ring 1359 may be used to connect the nares portion 1360 to the mouth portion Fig. 60 illustrates a r mask system 1430 that includes a mouth portion 1432 and a nares portion 1440. The mouth portion 1432 includes a cushion n 1434 adapted to form a seal around the patient’s mouth.

The nares portion 1440 includes a supporting portion 1446 and a sealing portion 1442.

The g portion is adapted to form a seal with the patient’s nares, and includes comers ofthe nose regions 1447 and upper lip engagement portion 1443.

Magnets 1436, 1448 may be placed on the mouth portion 1432 and the nares portion 1440 to ensure that the nares portion 1440 is oriented correctly relative to the mouth portion 1432. Either of the pairs ofmagnets 1436, 1448 could be replaced by a metal portion. The magnets 1448 in the nares portion 1440 may be placed in the comers of the nose regions 1447 to ensure suf?cient tension of the nares seal over the patient’s top lip and corners ofthe nose.

Fig. 61 illustrates a cross section view ofmodular mask system 1480, which includes a mouth portion 1482 and a nares n 1490. The nares portion 1490 may be removable from the mask system 1480 and eable with a plug, so that the mask system 1480 may be used in a mouth only mode, or the nares portion 1490 may be used in a nares only mode. atively, the system may be used in nares and mouth mode. In an example, separate foam components be used in mouth may be provided for mouth and nose seal ns so that the mask system may only or nares only modes.

] The mouth portion 1482 includes a frame 1484 and a vanity ?ap or ng ?ap 1486, a lower aperture 1485 for connection of swivel or cuff 1498 and air hose 1499, and an upper aperture 1487 for connection of nares portion 1490. The frame 1484 may be a rigid material, e.g., polycarbonate, or a semi-rigid material, e.g., semi-rigid nylon. A foam portion 1492 may have a clip 1493 for attaching to the frame 1484.

The nares portion 1490 may include a ?exible portion 1496, a foam portion 1492 connectable to the ?exible portion 1496 with one or more clips 1493 and a nozzle portion 1494.

The ng portion 1486 ofthe mouth portion 1482 may support the nares portion 1490.

Alternatively, a permanent connection may be used, e.g., foam portion directly onto ?exible portion.

Figs. 61, 62 and 63 illustrate a modular mask system 1500, which includes a. mouth portion 1502 and a nares n 1510. The nares n 1510 may be removable from the mask system 1500 and replaceable with a plug, so that the mask system 1500 may be used in a mouth only mode, or the nares portion 1510 may be used in a nares only mode. 8] The mouth n 1502 includes a frame 1504 and a vanity ?ap or covering ?ap 1509, a lower aperture 1505 for connection w 1507, and an upper aperture 1503 for connection ofnares portion 1510. The ?ame 1504 may be a rigid material, e.g., polycarbonate, semi-rigid or ?exible, e.g., nylon, silicone. A foam portion 1506 may have a clip 1508 for attaching to the frame 1504. [0004091 The nares portion 1510 may include a flexible portion 1512, e.g., silicone, and a foam portion 1516 connectable to the ?exible portion 1512 with one or more clips 1514. The covering portion 1509 of the mouth n 1502 may be spaced ?'om the nares portion 1510. The clips 1508, 1514 may have a surface facing the foam portion that is angled to bias or promote the foam to apply force in certain directions, e.g., toward the patient’s lip.

Fig. 64 rates a modular mask system 1520, which includes a mouth portion 1522 and a nares portion 1540. The nares portion 1540 may be removable ?om the mask system 1520 and replaceable with a plug, so that the mask system 1520 may be used in a mouth only mode, or the nares portion 1540 may be used in a nares only mode. Alternatively, the system may be used in a mouth and nose mode.

The mouth portion 1522 includes a frame 1523, a lower aperture 1527 for connection ofelbow 1560 (which may include vent holes 1562) and air hose 1566, and an upper aperture 1528 for connection ofnares portion 1540. The frame 1523 may be a rigid material, e.g., polycarbonate, or a more ?exible material, e.g., ne. A lower lip engagement portion 1524 is adapted to form a seal with the patient’s lower lip, and an upper lip engagement portion 1526 is adapted to form a seal with the patient’s upper lip.

The nares portion 1540 includes a supporting n 1542 and a sealing portion 1544.

The sealing portion 1544 includes an upper lip engagement portion 1548 adapted to seal just above the patient’s upper lip and a nose tip engagement n 1546 adapted to form a seal with the patient’s nose tip or region ate to the nose tip. In the upper lip region, the supporting portion 1542 may be in contact with the upper lip engagement portion 1526 of the mouth portion 1522. When used in a nares only mode, the aperture 1528 can be ted to a source of air or plugged if air is alternatively supplied.

When used in a nares and mouth mode, a connecting ring 1550 may be utilized. The connecting ring 1550 has a ?rst charmel 1552 and a second channel 1554. The ?rst channel 1552 is adapted to receive the mouth portion 1522 and the second channel 1554 is adapted to receive the nares portion 1540.

Fig. 65 illustrates a modular mask system 1580, which es a mouth portion 1582 and a nares portion 1590 that provide a soft to soft tion ofnose and mouth parts. The nares n 1590 may be removable ?om the mask system 1580 and replaceable with a plug, so that the mask system 1580 may be used in a month only mode, or the nares n 1590 may be used in a nares only mode.

The mouth portion 1582 includes a frame 1589, a lower apertm'e 1579 for connection of elbow 1581, an air hose 1587, and an upper aperture 1577 for connection of nares portion 1590. In an example, the elbow may include buttons adapted to permit quick release of the elbow. Vent holes 1585 may be formed in the elbow 1581, e.g., via a vented ring that interconnects the elbow and ?ame, or alternatively may be formed in the mouth n 1582. A lower lip engagement n 1584 is adapted to form a seal with the patient’s lower lip, and an upper lip engagement portion 1586 is adapted to form a seal with the patient’s upper lip.

The nares n 1590 includes a supporting portion 1592 and a sealing portion 1594.

The sealing portion 1594 includes an upper lip engagement portion 1598 adapted to form a seal with the patient’s upper lip and a nose tip engagement portion 1596 d to form a seal with the patient’s nose tip.

The nares portion 1590 may have indentations 1595 adapted to form an interference ?t with the mouth portion 1582. The nares portion 1590 may be resilient and be squeezed inward to accept the mouth portion in the indentations and then snap back into its original shape. The e " shape on the mouth portion provides a lead-in to guide the hares portion into position.

Also, a thin silicone wall may be provided to seal around the nares portion.

Fig. 66 illustrates a modular mask system 1600 including a mouth portion 1602, a nares n 1610, elbow and swivel 1612, upper headgear 1618 having a back strap 1619, and lower headgear 1620 having back loop 1622.

The upper headgear 1618 is adapted to connect to nares portion 1610 via connectors 1617, and the lower ar 1620 is adapted to connect to mouth portion 1602 via connectors 1615. The back strap 1619 ofupper headgear 1618 may be inserted through back loop 1622 of lower headgear 1620. Alternatively, another strap could be connected from back strap 1619 to back loop 1622.

Fig. 67 illustrates a modular mask system 1630 including a mouth portion 1632, a nares portion 1640, an elbow 1644 and an air hose 1646. The mouth portion 1632 may have an aperture 1634 adapted to receive a lug provided on the back of elbow 1644. In this way, the nares portion 1644 can operate independently of the mouth portion 1632, or can be connected to the mouth portion 1632. In this example, the mouth portion may be connected to the nares portion t disconnecting the elbow.

Example Cushion 1 Figs. 68-73 illustrate mask system 1650, having a mouth portion 1652 and a nares portion 1660. Fig. 74 illustrates the nares portion 1660 and Fig. 75 illustrates the mouth portion, fascia or support structure 1652. Figs. 76 through 89 illustrate the cushion 1654 ofthe mouth portion 1652. although both portions may be co-molded. Sealing ring 1665 (Fig. 73) may be used to t the mouth portion 1652 to the nares portion 1660. An 'e 1656 is adapted to connect supply ofair to deliver air to the mask system 1650. The mouth portion includes cushion fascia portion 1657 (which may be transparent or semi-opaque), decoupling portion 1659, which may be a d portion compared to the remainder ofthe front ofthe mouth portion, to decouple forces applied by movement of the air hose connected to aperture 1656 from the rest of the mask system 1650.

Vanity ?ap or covering ?ap 1658 covers/supports the patient’s nares reg'on.

Preferably, vanity ?ap covers all or portion of the nares seal portion 1660. Such an arrangement may be less ly obtrusive to the t and may aid in izing the nares seal n 1660.

Cushion 1654 connects to the n fascia portion 1657 and is adapted to form a seal around a mouth ofa patient. The connection ofthe cushion 1654 to the cushion fascia portion 1658 may be by an interference ?t e.g. tongue and groove.

Lower headgear connectors (not shown) may be placed on the front of the mouth portion 1652 in a manner such as illustrated in Fig. 24. The cushion 1654 and the cushion fascia portion 1657 may both have a hardness of40 Shore A, or similar. Alternatively, the cushion fascia portion 1657 may have a relatively higher hardness compared to cushion 1654. Cushion fascia portion 1657 may be ucted ofa semi-rigid polymer such as nylon, rbonate, polypropylene. Cushion fascia portion 1657 may have a ss of40-80 Shore A. Cushion 1654 may be constructed ofa conformable material for example silicone, foam, gel, TPE.

Cushion 1654 may be constructed of a material having a hardness of 5-40 Shore A, for example -25 Shore A.

Cushion 1654 may be constructed of a combination of materials, for example a ?rst n proximate the cushion fascia portion having a ?rst hardness and a second portion proximate a patient contacting portion having a second hardness. Preferably the ?rst hardness is greater than the second hardness, to provide structural support to the patient contacting portion.

For example, the ?rst portion may have a ss of25-60 Shore A, 35-50 Shore A. The second portion may have a ss of 5-25 Shore A, 5-15 Shore A. The ?rst portion may be thicker than the second portion, for example the ?rst portion may be 1-3mm, l-2mrn, and the second portion may be 0.1-2mm, 0.1-lmrn or about 0.8mm. The combination of a thin wall n and soft material at the second portion may permit the cushion to be more compliant and ?exible, thereby g to the patient’s face. The r ?rst portion provides structure to provide stabilization. Together, they allow a single wall cushion that substantially emulates a dual wall cushion.

Preferably, cushion 1654 may be ?exible and/or may have a lower hardness (e.g. 5-15 Shore A) in the chin region l693 so that when the cushion is placed on the user’s face, the cushion stretches over the patient’s chin. The stretching ofthe cushion in the chin region 1693 may cause the cushion to be in n over the t’s chin, which may form a robust seal with the t’s chin as well as ensuring that the cushion may ?t a wider range of chin geometries.

The cushion 1654 includes a cushion fascia connecting portion 1655 (Fig. 76) adapted to connect to the n fascia 1657, a ring connecting portion 1680, and a pocket 1684. In an alternative, the cushion fascia and cushion may be formed in one piece. The ring connecting portion 1680 includes an aperture 1682 adapted to receive connecting ring (to connect the mouth portion 1652 to the nares portion 1660). In an alternative, the ring connecting portion and connecting ring may be formed in one piece. In a further alternative, the cushion may be formed with a ?rst connecting ring and the nares portion may be formed with a second connecting ring, ?rst connecting ring being received by the second connecting ring (or vice versa). 0] The pocket 1684 is adapted and shaped to receive the gusset 1671 (Fig. 74) of the nares portion 1660, or other n of nares portion 1660 for example the ar connector portion of nares portion 1660. A different shaped pocket may be used if a different nares portion is used. The pocket 1684 is sunken in the cushion 1654 so as not to disturb the seal of the cushion 1654 when the nares portion 1660 is in the pocket 1684. That is, pocket 1684 may be disposed or offset under or below the uppermost surface of the mouth cushion 1654.

Pocket 1684 may also be a sunken portion, groove, trench, hollow, pouch, alcove, indentation, dip, pit, valley or sinkage — i.e. a region ofthe cushion that is adapted to e a nares portion, the region having an alternate or abstract geometry when compared to the rest of the mouth n. The pocket may not be a hole, cut out or aperture. Preferably the pocket is air tight. Preferably the pocket is formed by a soft, mable material such as the mouth cushion, rather than the frame. Such an arrangement is preferable as a mable pocket may permit adjustment of the position ofthe nares portion, thereby ?tting more patients. Preferably, the pocket permits movement of the nares portion in the superior-inferior direction, to accommodate varying patient nose heights. Preferably the pocket may increase in stiffness when air pressure is applied in the mouth cushion for example Preferably the pocket may stabilize the nare portion in position in the medial-lateral direction. This may be achieved by the shape of the pocket, adapted to remit the Shh-v.9" cf the Peres Mpvrtien. such an arrangement ma" ensure that the nares portion ins sealing engagement with the patient’s nares in use when tube drag or other forces are d to the side ofthe mask.

The nasal seal portion may reside or rest in the pocket. The patient contacting portion ofthe nasal seal portion may be positioned outside, above or higher than the pocket. Such an arrangement may ensure that the t can see the nasal seal portion contacting their nose to ensure alignment and seal.

In one form the nasal seal portion may not be in air ?ow communication with the mouth portion via the pocket.

The pocket may have a lower stiffness than nding ns of the mouth cushion. The pocket may have a comparably thinner wall section than other regions of the mouth cushion. The pocket may be formed from a different material to the rest ofthe mouth cushion.

Preferably the pocket is continuous with or formed in one piece with the top lip contacting region ofthe mouth cushion and is thus in sealing engagement with the patient’s top The mouth cushion may comprise a top lip region adapted to ace with the patient’s top lip. The mouth cushion may further se a check region adapted to interface with the patient’s cheek and/or side of mouth. The mouth cushion de?nes a wall, the wall located between a patient contacting portion ofthe mouth cushion and a frame contacting portion ofthe mouth cushion. The wall may comprise different portions, for example a top lip wall portion, a chin wall portion and two cheek wall ns, each corresponding to the respective top lip, chin and cheek regions ofthe patient’s face. In one form, the cheek wall portion may be comparably stiffer than the top lip wall portion. In another form, the chin wall portion may be comparably stiffer than the top lip wall portion. Preferably the top lip portion may be less stiff than the cheek wall ns. In such an arrangement the cheek contacting portion may act in compression on the patient’s cheeks, such that the top lip and chin regions may be in tension.

Pocket 1684 in the present e may comprise a curved groove having lobes or regions 1661 as shown on Fig 78. Lobes 1661 may be shaped to correspond to gusset 1671 as shown on Fig 74. The lobes may be separated by a ridge or indentation 1663 d to indicate the alignment or positioning ofthe nasal portion 1660.

Pocket 1684 may have a m width wl of approximately 30-60mm. Preferably, pocket 1684 may have a maximum width wl ofapproximately 35-45mm. Preferably, pocket 1684 may have a maximum width W] of approximately 40-45mm.

Pocket 1684 may have a length d5, as shown on Fig 85, of about 15-40mm. ably, pocket 1684 may have a length d5 of about 20-30mm. This length may be the approximate length limit the fascia contacting side of the pocket to the outer most edge of lobe 1661.

Lobes 1661 ofpocket 1684 may be offset or angled with respect ofone another to position the nasal seal to be positioned at the angular region ofthe maxilla (patient’s top lip).

Lobes 1661 ofpocket 1684 may be angled with respect ofone another by angle (11 of approximately 90-180°. Lobes 1661 of pocket 1684 may be angled with respect of one another by angle 0.1 of approximately 90-150°. Lobes 1661 ofpocket 1684 may be angled with respect of one another by angle 0.1 of approximately 90—180°. Lobes 1661 ofpocket 1684 may be angled with t ofone another by angle (11 ofapproximately 90—150°. 1] The chin or lower seal region 1693 ofmouth cushion 1654 may be rounded or curved to conform to a patient’s chin. Radius of curvature r1 may preferably be 20-50mm. Radius of curvature 1'] may preferably be 30-40mm. Radius of curvature r1 may preferably be 35-45mm.

The nares portion may be secured to the cushion 1654 by connection to the connecting ring. The cushion may also have a thickened portion 1686 (Figs. 80 and 81) to support connection to cushion fascia portion 1657. Also, the thickened portion 1686 supports the sealing n in position and prevents collapse of the sealing portion, particularly if the sealing portion is constructed of a low hardness, low thickness material, i.e., it will lack structural rigidity.

The nares portion 1660 es a sealing portion 1662 adapted to form a seal with the nares of the patient, and ar connectors 1670 for connecting to ar. The sealing portion 1662 may be in the form of s, although other sealing portions may be used, such as pillows, prongs, etc. Exemplary sealing portions are disclosed in incorporated herein by reference in its entirety. 4] The cross ns illustrated in Figs. 82-84 are shaped to accommodate ?at faces and more pointy faces of patients due to the question mark like shape of the cross section. Fig 83 shows the cross section at the horizontal plane that may be positioned generally on the checks or the lateral extents of the patient’s mouth. In this region, the cross section ofthe cushion shows that the membrane is comparably longer than at the bony upper or lowerjaw regions (shown in Figs 82 and 84). This may be to reduce the force ofthe cushion on the patient’s cheeks compared to the bony upper or lowerjaw s, as the longer membrane may absorb more force than the shorter membrane. This may be e the patient’s cheeks are more sensitive than the bony regions ofthe face. The shape of the cushion is shaped to match a shape of a face, as illustrated in Fig. 79, age, a C-shape. As illustrated, the g membrane includes a varng thickness dong its length, e.g., from thick to thin. This g thickness may be so that a patient contacting portion is supported and positioned by the thicker region, and the t contacting region may be comfortable and conformable due to the thinner region. The patient contacting portion may be approximately 0.2-2mm. Preferably, patient contacting portion may be approximately 0.8- 1.2mm. Thicker region 1686 may be approximately 0.5-4mm. ably thicker region 1686 may be approximately 2-3mm.

In a further example, the load imparted by the cushion on the user’s face at the top lip region 1692 may be greater than the load imparted by the cushion on the user’s face at the chin region 1693. This may be achieved by having a comparably greater thickness at the top lip region 1692 compared to the thickness at the chin region 1693. Such an arrangement may assist in anchoring the cushion on the patient’s face, while ensuring that the force on the aw is low.

High forces on the lowerjaw may force the upper airway to se and thereby exacerbate obstructive sleep apnea, so it is desirable to have a lower force on the patient’s lowerjaw and hence chin region 1693.

The pocket 1684 is structured to accommodate the nares portion, and air inside the nares portion ensures a seal across the top lip. The nesting nares portion and cushion make the mask less obtrusive. Pocket 1684 may have a depth d1 of approximately 5-30mm. Preferably, pocket 1684 may have a depth d1 of approximately 5-20mm. Preferably, pocket 1684 may have a depth d1 ofapproximately 5-10mm. The depth et dl can be seen in Figs 80-81.

As best shown on Fig 80, pocket 1684 may be adjacent or connect to a ?ap seal n at the top lip region 1692. A ridge or apex 1694 may be formed between the pocket 1684 and the top lip region 1692. Ridge 1694 may act to divide the pocket from the top lip , and may also provide a hinge or spring point for the top lip .

As best shown at Figs 80 to 81, pocket 1684 may be generally curved or rounded in a cup like shape as indicated at cl. 9] At chin region 1693, as best shown on Fig 80, the cushion may have a depth d2 i.e. the distance from the sealing region or patient contacting portion of the chin region to the connecting region 1655, ofapproximately 0.5-3mm. Depth d2 may be approximately l-2mm, Preferably depth d2 may be approximately 1.5-2mm. This depth may be desired so as to ensure different shaped chins may be accommodated by the mouth cushion 1654. Chin lip region 1693 as shown in Fig 85 demonstrates depth d4. Depth d4 may be substantially similar to depth (11.

Cushion 1654 may have a check region 1695, and at the cheek region 1695 the cushion may have a depth d2, shown on Figs. 82. 83 and 84. Depth d2 may be larger than d1, d4.

Such an arrangement may be preferable so that cushion 1654 may ?ex and deform at the checks to a greater extent than at the top lip, so as to anchor the cushion on the top lip and permit variations in the facial geometry of patients. For example, some patients may have vely ?at faces while others may have relatively pointy faces, so the cushion should be able to conform to each of these facial profiles. For example, depth d2 may be approximately 10-50mm. Preferably, depth d2 may be approximately 20-35mm. Preferably, depth d2 may be approximately 20-30mm.

The curvature ofthe top lip region 1692 ofthe cushion ensures tension across the patient’s top lip and therefore seal. The spring shape cross-section at the top lip lowers force displacement at the t’s top lip (sensitive region).

Figure 86 shows the mouth cushion 1654 as viewed from the patient contacting side.

The top lip region 1692 has a height d6, which may be less than height d7 of chin region 1693.

This may be because typically a person’s face has a smaller distance between the top lip and bottom ofthe nose when compared to the ce between bottom lip and the tip of the chin. For example, height d6 may be 5-15mm. Preferably, height d6 may be approximately 8-10mm.

Height d7 may be approximately 10-25 mm. Preferably, height d7 may be imately 12- 16mm.

Example Cushion 2 Figures 92A-E and 93A-I illustrate a variant of a mouth cushion 2100 which is similar to that shown in Figures 76-89, and share common features such as a pocket adapted to receive a nasal seal portion and a single side wall 2104 that is thicker at its base where it connects to the fascia and thinner at its distal end where it seals with the t. The side wall has a sickle or question mark type shape.

] Mouth cushion 2100 may have a top lip region 2692, chin region 2693 and cheek regions 2695. Mouth cushion may further include connecting region 2655 for interfacing the mouth cushion with a clip, frame or other portion ofthe mask assembly.

The top lip region 2692 and chin region 2693 ofthe seal portion are formed generally ?at such that the seal is stretched (by tension) on the patient’s face to enhance the seal. This is bene?cial since the headgear, even if tightened, would not be able to signi?cantly change the sealing forces in this area.

The pocket 2102 is thinner ed to the pocket 1684 in Figure 76. This allows the nasal seal to more ly add some component of sealing force — i.e. as the nasal seal is pressurized the nasal seal may become rand thereby impart force on the top lip seal portion.

The reduction in thickness may also reduce weight and/or material.

In addition, cushion 2100 does not have a ring oonneotirg portion 1680 as in Fi-s 86- 89 (for example). Thus, air ?ow to the nasal seal portion is not transmitted through the mouth cushion. d, a clip may be provided that is adapted to receive both the mouth cushion and the nasal n, and may provide the pathway to transmit air to the nasal cushion.

Pocket 2102 may not be a cup like shape, rather it may have an open back and curve upwards (see 02 shown on Figs 93D and 93E) to ridge 2694 to then adjoin top lip portion 2692.

Pocket 2102 may have a similar depth to pocket 1684, as indicated at depth e1 on Figs 93D and 93B. Depth e3 may also be similar to depth d3, depth e4 may be similar to depth e4 and length e5 may be similar to length (:5.

Depth e2 as indicated on Fig 93D shows the distance from the edge or connecting region to the patient contacting portion. Depth e2 may be about 10-30mm, preferably 15-25mm.

Radius ofcurvature r2 may be larger than the radius of ure rl from Example 1. Such a depth and radius of curvature r2 may be to ensure that the depth at the chin region 2693 is similar to that at cheek region 2695. This may ?atten out the cushion in the chin region, so that when the patient ons their chin against chin region 2693, the membrane stretches over their chin. This may ensure a more stable seal and a larger ?t range.

Width w2 as shown on Fig 93A may be larger than width wl. This may be to accommodate a longer nasal seal portion or to move the same nasal seal portion from Example 1 further down into mouth seal portion 2100 (i.e. position the nasal seal further from the top surface or deeper in the mouth cushion 2100). Width w2 may be about 50-70mm. Preferably, width w2 may be about 50-60mm.

Example Cushion 3 Referring to Figs. 104-131, a mask system 400 according to an embodiment of the present technology comprises a mouth cushion 4100, a cushion clip 4200 and a fascia 4300. The mouth cushion 4100 shares some common features with Example n 2, such as a pocket 4102 adapted to e a nasal seal portion, and a sealing portion 4106 con?gured to form a seal with the patient’s face. Other common es may be evident from the following description of the mask system 4000. The mouth cushion 4100 may be formed of, for example, silicone. The n clip 4200 may be formed of, for example, plastic. The fascia 4300 may be formed of, for example, thermoplastic.

The mouth cushion 4100 may be over-moulded to the cushion clip 4200. It should be iated that the mouth cushion 4100 may be detachably connected to the cushion clip 4200 in a manner described below. The mouth cushion 4100 comprises the pocket 4102, an upper connecting portion 4104 adapted to receive a nasal seal connecting n 4202 of the cushion clip 4200 and retain the mouth cushion 4100 to the fascia 4300. Referring to, for e, Fig. 117, the upper connecting portion 4104 is tilted or offset away ?-orn the sealing portion 4106 so as to allow the nasal seal portion (not shown) to orient toward the patient’s nasolabial angle.

Referring to, for example, Figs. 104, 112 and 113, a rear edge 4108 ofthe pocket 4102 and the upper connecting portion 4104 form an re 41 10 that receives the nasal seal connecting portion 4202 of the cushion clip 4200. The nasal seal connecting portion 4202 of the cushion clip 4200 ?ts within the aperture 4110 ofthe upper connecting portion 4104 and the rear edge 4108 ofthe pocket 4102.

Referring to, for example, Figs. 120-124, the mouth cushion 4100 includes a groove 4114 that is con?gured to receive the cushion clip 4200. The groove 4114 almost completely encloses the cushion clip 4200. A small gap is provided in the groove 4114 to allow tabs 4218 (Figs. 139-145) of the cushion clip 4200 to extend outwards and engage with and interlock with slots 4310 (Figs. 134, 135 and 138) of the fascia 4300. The mouth cushion 4100 ?irther comprises a lip seal 4112 to interface with a groove 4302 (Figs. 104, 109-11 1 and 138) of the fascia 4300 formed by a tab 4304. As shown, for example, in Figs. 110 and 111, the lip seal 4112 is shown as overlapping with the tab 4304 ofthe groove 4302 of the fascia 4300. r it should be appreciated that in the assembled state, the relatively ?exible lip seal 41 12 will deform and bend into the groove 4302 and be ed by the tab 4304 ofthe fascia 4300.

Referring to Figs. 125-131, the cushion clip 4200 comprises a ?tting 4204 to receive a ring of the nasal seal n (not shown). The ?tting 4204 includes reliefs 4206 to permit ?exing ofthe ?tting 4204 and tabs 4208 to retain the ring of the nasal seal portion. The cushion clip 4200 further comprises supporting regions or portions 4210 on lower corners ofthe clip 4200 to increase stability and. force on the cushion 4100 in the patient’s cheek regions to provide a more stable seal on the soft areas of the patient’s face. Supporting regions 4210 on lower corners ofthe clip 4200 may be thicker or stiffer than adjacent portions of the cushion clip 4200.

A fascia contacting lip 4212 is provided to engage the groove 4302 of the fascia 4300. A cushion contacting lip 4214 is ed to engage the groove 4114 ofthe mouth cushion 4100. ing to Figs. 132-145, the fascia 4300 ses lower headgear connectors 4306 for connecting to the ar and an elbow connector 4308 for connecting to an elbow adapted to be connected to a gas delivery tube or conduit. The rear surface of the fascia 4300 es the groove 4302 (Fig. 138) adapted to engage e lip seal 4112 of the mouth cushion 4100. The rear e also includes slots 4310 that are con?gured to receive and interlock with tabs 4218 ofthe cushion clip 4200. As shown in Figs. 138 and 145, the tabs 4218 are rounded to smoothly guide the tabs 4218 into the slots 4310 of the fascia 4300. Tabs 4218 may also be rounded so that the upper tab adjacent ?tting 4204 may be connected ?rst and in a ?rst on, then the cushion clip can be rotated to position upper tab in a second on, this second position permitting lower labs adjacent lower headgear connectors 4310 (in use) to engage with fascia 4300. 1.8 Cushion-to-fascia interface Figures 94-102 illustrate an example of a cushion to fascia interface. Figures 94 and 95 illustrate the mask assembly in its led condition, including pillows 3000, mouth cushion subassembly 3002 and elbow 3004. Figure 96 illustrates an exploded view f.

Figure 97 is an exploded view of subassembly 3002, including cushion 3006 and fascia 3008. Cushion 3006 includes a clip 3010 that may be overrnolded on to the n.

Cushion 3006 may be bly connected to clip 3100.

Clip 3010 may have a ?tting 3012 for attachment to the pillows 3000. Fitting 3012 may comprise reliefs 3013 to permit ?tting 3012 to ?ex inwards and thereby accept a nasal seal portion. Fitting 3012 may also comprise tabs 3014 adapted to lock or maintain the position ofthe nasal seal portion once it is connected. Fitting 3012 may be angled in such a way so as to present the nasal seal portion directly towards the patient’s nares. For example, Figs 94 and 95 shows the nasal seal portion 3000 oriented to approximate the patient’s nasolabial angle.

Clip may be more rigid than cushion, and may be made of Hytrel, polypropylene, nylon, injection molded plastic, etc.

Fig. 98A shows the patient side of the fascia 3008. Fascia 3008 may include recess 3008.1 at the top of the fascia and recesses 3008.2 at the lower side comers of the fascia. Fascia 3008 may ?rrthcr include lugs or ridges 3008.3 adapted to align and/or position the mouth seal portion and/or clip. The Outer side or tient contacting side of fascia 3008 may be curved or stepped such that the middle portion is raised ed to the side portions. This may aid a patient in picking up the fascia as they can grip on to the curved s. These curved s may further include gripping portions (not shown) such as dimples or lded buttons to aid the patient in gripping the fascia.

Fig. 97 is a further exploded View showing that the fascia 3008 and set clip 3010 may be clipped together at a number of locations, e.g., two or more, and in this case three locations.

As shown in Figs. 98A, 983 and 99, fascia 3008 may have a recess 3008.1 to receive a tion 3010.1 of clip 3010. Figs. 100-102 show a sequence of an exemplary ?tting assembly between the subassembly 3002. Fig. 100 shows initial engagement between the projection 3010.1 and recess 3008.] at the top ofthe mask, after which the mask is pivoted in Figure 101 . Once the lower end of clip readies to the lower part of fascia 3008, the clip snaps home for complete assembly. 6] The clip may include an integrated (silicone) lip seal to prevent leak between the clip and the fascia 3008. This would make the assembly more robust and less ent on tolerances to prevent leak. The lip seal may be located in close proximity to the tions 3010.1 or 3010.2. Fig. 103 shows an e of a lip seal 3011 that may be used in such assembly. 1.9 Integrated Mask System Figs. 14 and 15 illustrate another mask system 101, which is an integrated mask system. The mask system 101 es a nares portion 120, a mouth portion 140 and a ?exible tube 105 connected to the mouth portion 140 via an elbow 102.

The nares portion 120 may utilize a nares sealing portion 122, which may be in the form ofnasal pillows, prongs, a membrane seal such as a nasal cradle, and/or a nasal chamber.

The nares sealing portion 122 may be in the form ofthe nares sealing portion 222 illustrated in Figs. 19 and 20. The nares portion 120 may further include decoupling portion 125 and ar connectors 121 adapted to connect to headgear 160.

The mouth portion 140 may include a structural portion 147, a mouth sealing portion 142, decoupling portion 145, headgear connectors 141, and vent 103, which may include one or more vent holes or slots for venting gas exhaled by the patient. A nares n connector 143 adapted to connect to the nares portion 120 may be utilized when the nares portion 120 and the mouth portion 140 are not formed as a unitary element. The mask system 101 could alternatively be formed as a modular mask system, where the nares portion 120 and the mouth portion 140 are separable and may be used individually, and the nares portion 120 is connectable to the ?exible tube 105 via elbow 102. 1] Figs. 16-18 illustrate another mask system 201, which includes a nares portion 220 and a mouth portion 240. Themes portion 220 may include a nares sealing portion 222, an ori?ce 226 for receiving pressurized, breathable gas. The mask system 201 is illustrated with a nares sealing portion 222 such as rated in Figs. 19 and 20, although other nares sealing portions could be utilized, such as pillows, prongs, a nasal chamber, etc.

The mouth portion 240 es a mouth seal portion 242 which may be in the form ofa cushion for sealing with the mouth of the patient, a frame 247, a mouth ori?ce 246 for receiving the pressurized, breathable air, a decoupling portion 245, and a nares connecting portion 243 for connecting with the nares portion. Fig. 16 is illustrated with the frame 247, the decoupling portion 245 and the connecting portion 243 remcvw. Almcugh not rated, the mouth portion 240 may e connection to a e tube for delivery ofthe pressurized, breathable gas, such as the swivel connector, elbow and ?exible tube illustrated in other embodiments.

The mask system 201 could alternatively be formed as a modular mask system, where the tunes portion 220 and the mouth portion 240 are separable and may be used individually, and the nares portion 220 is connectable to the ?exible tube 105 via elbow 202.

Fig. 23 illustrates a mask system 370, which may include a nares portion 372, a mouth portion 380, and ar 360. In this ment. the mask system 370 may have the wares portion 372 and the mouth n 380 integrated. The lower headgear strap 379 passes under the patient’s ears and provides a normal ar vector force or sealing force on the patient’s face. The headgear strap 360 provides a supporting force to aide positioning and stabilization of the mouth n 380 on the patient’s face. The headgear strap 360 does not connect near the mouth ofthe patient to aid in keeping obtrusiveness ofthe mask to a minimum.

The nares portion 372 may include nares sealing portion 374 and mouth sealing portion 375. Decoupling ns may be included.

Fig. 27 illustrates a tic cross~section view ofan integrated mask system 201 where the nares portion 220 and the mouth portion 240 are formed as a unitary element. The decoupling n 245 is formed in the mouth portion 240, and may decouple forces applied to the mask system (such as ?om a ?exible supply tube) from the mouth portion 240. The nares sealing portion 222 is a nares sealing portion such as illustrated in Figs. 19 and 20. The nose tip engagement portion 254 seals with the patients nose tip and the upper lip engagement portion seals with the patient’s upper lip. This schematic cross-sectional view omits the connection to the ?exible tube.

Fig. 28 illustrates a schematic cross-sectional view ofan integrated mask system 101, where the nares portion 120 and the mouth portion 140 are formed as a unitary element. This schematic cross-sectional view omits the tion to the ?exible tube 105. In this embodiment, the mouth g portion 142 extends from the mouth portion 140 where the mouth sealing portion 142 seals with the area between the patient’s lower lip and the patient’s chin, and extends from the nares portion 120 where the mouth sealing portion 142 seals with the patient’s upper lip area. A decoupling portion may be formed in the mouth portion 140, and may decouple forces applied to the mask system (such as from a ?exible supply tube) from the mouth portion 140. 8] Fig. 31 illustrates a schematic cross-sectional view of an integrated mask system 370, where the nares portion 372 and the mouth portion 380 are formed as a unitary element. The nares n 372 includes a nares sealing n 374 that forms a seal with the patient’s nares, and a mouth sealing portion 375 that forms a seal with the t’s mouth. A gusset 376 may be provided to connect the mouth portion 380 to ?exible tube 305. The gusset 376 may function to le movement of ?exible tube 305 from disrupting the seal of the mouth portion 380 and/or the nares n 372.

Figs. 50-52 illustrate an integrated mask system 1300. The mask system 1300 includes mouth portion 1302 and nares portion 1310. The mouth seal ofthe mouth portion 1302 is oriented generally horizontally, while the nares n 1310 is oriented generally vertically to anatomically match the mouth and nares ofthe patient. A gas washout vent may also be included.

The mouth portion 1302 includes a lower lip ment portion 1304 that is adapted to form a seal with a patient’s lower lip, an upper lip engagement portion 1306 adapted to form a seal with the patient’s upper lip, and an aperture adapted to receive pressurized air ?om air supply hose 1318. An elbow and/or swivel may be used in conjunction with the air supply hose 1 3 l 8.

The nares portion 1310 includes a nares ment portion 1314 adapted to form a seal with the patient’s upper lip, a nose tip engagement portion 1312 d to form a seal with the patient’s nose tip, and a tina or decoupling portion 1316 (e.g., see Fig. 50). The concertina portion 1316 decouples forces applied to the mouth portion 1302 from being applied to the nares portion 1310. The concertina portion may also ?ll with air, and utilize air pressure to increase the force and thereby provide a more robust seal.

Fig. 53 illustrates an integrated mask system 1320. The mask system 1320 includes a mouth portion 1322 and a nares n 1330.

The mouth n 1322 includes a lower lip engagement portion 1324 adapted to form a seal with the patient’s lower lip, and a frame 1326. The frame 1326 may be a rigid material, e.g., rbonate. The lower lip engagement portion 1324 may be co-molded with the frame 1326.

The nares portion 1330 may include a supporting portion 1332, a sealing portion 1334 and a clip portion 1338 adapted to engage the g portion 1334 with the supporting portion 1332. The supporting portion 1332 may be a semi-rigid material, e.g., nylon. The clip portion 1338 may be a semi-rigid material, e.g., nylon or polypropylene.

The sealing portion 1334 es an upper lip engagement portion 1337 adapted to form a seal with the patient’s upper lip, and a nose tip engagement portion i336 adapted to form a seal with the patient’s nose tip. The sealing portion 1334 may be a ?exible material, e.g., ne. The sealing portion 1334 may be co-molded as one piece with the ?ame 1326.

An air supply hose 1344 may be connected to the mouth portion 1322 by a swivel 1342. The swivel 1342 may be a rigid material, e.g., polycarbonate. 7] Fig. 57 illustrates a modular mask system 1400 and Figs. 58 and 59 rate a d integrated mask system (which could be modular). The mask system 1400 includes mouth portion 1402 and nares portion 1410. An elbow 1407 connects an air supply hose 1409 to the mnu?n "Af?nq 14"" fn AARIIM air in "IA maul! angina-n l?nn "nodnmr I don nnnnnofo in {La mIask lnvI-_l rvluvl Iva- nu "‘11;va an .v u-v 5AM v} vtvlll ewvvo Almem |1~v VVluavvw tv "1v u system 1400 to secure the mask system 1400 to the patient’s head.

The mouth portion 1402 includes a front portion 1404 and a lower foam n 1405.

The lower foam portion 1405 is positioned to form a seal between the patient’s lower lip/chin and the mouth portion 1402. The front n [404 may be a clear portion allowing visibility of the patient’s mouth region. The front portion 1404 may be silicone, for example.

The nares portion 1410 may include a supporting portion 1412 and a sealing n 1414. The sealing portion 1414 may include a nose tip engagement portion 1416 adapted to form a seal with the patient’s nose tip, and an upper lip engagement portion 1418 adapted to form a seal with the patient’s upper lip. The supporting portion 1412 may also form a seal with the patient’s upper lip. An upper foam portion 1406 may be disposed between the nares portion 1410 and the patient’s upper lip to provide additional comfort. An outer foam portion 1408 may be disposed between the front n 1404 and the names portion 1410. The upper foam portion 1406 and the outer foam portion 1408 may be one foam piece, such as a ring shaped piece of foam, with a hole formed in the foam for insertion of the nares portion 1410. 1.10 Kits Various components ofthe disclosed mask systems may be utilized in one or more kits that may be provided. For example, Fig. 33 illustrates a nares only kit 805 that may be provided according to ments ofthe t technology. The nares only kit 805 may include a nares n 820 d to seal with and provide respiratory therapy to a patient’s nares, and names portion headgear 812. The nares only kit may optionally include an elbow or other connector 802 that may connect the nares portion 820 to a supply surized air, although such an elbow or other connector 802 may be provided as part ofthe nares portion 820.

The nares portion 820 may include plug 35 in the embodiment of Figs. 1-1 to 4. However the nares only kit 805 may be provided with a commercially available mask, e.g., the Swi? FX mask.

Plug 35 may be removed if utilized with the mouth portion 840.

The nares only kit 805 is adapted to provide a patient with respiratory y to a t’s nares. This form of respiratory therapy, provided to the nares only, is preferred because it is less ive to wear, and more comfortable for a patient, and many patients only need nares therapy. However, some patients may need mouth therapy, either mouth only therapy or mouth and nares therapy. For example, some patients who may be mouth breathers need a mouth portion to provide a mouth seal so that effective therapy may be applied to the nares. Other patients may need mouth only therapy or mouth and nares therapy.

Accordingly, mouth kit 810 may be ed to a patient that needs mouth only therapy, or needs mouth and nares therapy but already has a nares only device or nares only kit 805. The mouth kit 810 may include a mouth portion 840 that is adapted to seal with and provide respiratory therapy to a patient’s mouth, and mouth portion headgear 850. The mouth portion 840 may be adapted to provide respiratory therapy only to a patient’s mouth. The mouth kit 810 may optionally include an elbow or other connector 802 that may connect the mouth portion 840 to a supply ofpressurized air, if such a connector is not incorporated in the mouth portion 840.

The mouth n 840 may optionally be adapted to connect pneumatically to nares portion 820 or another nares only CPAP device. For example, the mouth portion 840 may include the aperture 46 illustrated in Fig. 1-5 adapted to connect to a nares portion, in which case plug 35 may also be provided in the mouth kit 810 for plugging aperture 46. The mouth portion 840 may also optionally include the valve 55 for selectively closing the re 46. Further, the mouth kit 810 may be optionally ed with plug 803, which may be used to plug an aperture in the front ofthe mouth portion 840, and may ally be provided with double elbow 855, that may be used to connect both the mouth n 840 and the nares portion 820 to a supply of pressurized air. The mouth portion 840 may function as a docking station, where the mouth portion 840 is adapted to dock with the nares portion 820.

The mouth kit 8-10 may also be optionally provided with mates and mouth portion headgear 860, which includes a connection region in the back portion, such as connection region 67 illustrated in Fig. 7. The nares and mouth portion headgear 860 may be used instead of the nares portion headgear 812 and the mouth portion headgear 850. Further, the mouth kit 810 may also be optionally provided with ted nares and mouth portion headgear 870, which includes a tor 856 for connecting the Dares only headgear and the mouth only ar at a back portion.

The nares only kit 805 may be utilized as a retro?t kit to a patient having a mouth portion kit 810 or other mouth portion, who wants to convert his mouth only device into a mouth and nares device. In this case. the names --.ly ki- ...ay opjvnally be provided witu t... dongle elbow connector 855, with the plug 803, with the nares and mouth portion headgear 860, or with the connected nares and mouth portion headgear 870. Likewise, the mouth kit 810 may be provided as a retro?t kit to a patient having a nares only kit 805 or other nares portion, who wants to convert his nares only device into a nares and mouth device.

The patient may utilize the nares only kit 805 and/or the mouth kit 810 to convert the nares only CPAP device 805 into a nares and mouth CPAP device in l ways. The patient may remove the elbow or other connector from the nares portion 820, and t the double elbow connector 855 to both the nares portion 820 and to the mouth portion 840. so that air is delivered h the double elbow connector 855 to both the nares portion 820 and the mouth n 840. The patient may e the original nares portion headgear 812 on the nares portion along with mouth portion headgear 850 on the mouth portion 840. The connector 856 may optionally be utilized to connect the nares portion headgear 812 to the mouth portion ar 850. Alternatively, nares and mouth portion headgear 860 could be provided to connect to the nares n 820 to the mouth portion 840. The nares and mouth portion headgear 860 may be connected in a back portion stich as through using a connected region 67 or a uni?ed strap as illustrated in Fig. 7. If the nares portion 820 is provided with the structure adapted to connect to a mouth portion, such as the connector 30 illustrated in Fig. 1-5, then the mouth portion 840 provided in the mouth kit 810 may include ure to connect the nares portion 820 to the mouth portion 840, such as opening 46 rated in Fig. 5~l . The valve 55 and knob 54 may also be provided.

In embodiments including the structure allowing pneumatic connection between the nares n 820 and the mouth n 840, such as the connector 30 and opening 46, the patient may connect the connector 30 to the opening 46, and utilize the elbow or other connector 802 on the narec portion 820 to deliver the air to the patient’s nares and to deliver the air to the patient’s mouth through the connector 30 and opening 46 to the mouth n 840. In this embodiment, the plug 803 is connected to the opening on the front of the mouth portion 840.

Structure for plugging the connection between the nares portion 820 and the mouth portion 840 could be used, such as a plug 35 or the valve 55, and the mouth portion 840 could then be used as a mouth seal. atively, in embodiments including the structure allowing pneumatic connection between the nares portion 820 and the mouth portion 840, such as the connector 30 and g 46, the patient may connect the connector 30 to the opening 46, and utilize the plug 803 to plug the opening in the nares portion 820. The elbow or other connector 802 may then be connected to the opening in the front ofthe mouth portion 840 to deliver the pressurized air to the mouth portion 840, and through the tor 30 and opening 46 to the nares portion 820. Structure for plugging the connection between the nares n 820 and the mouth portion 840 could be used, such as a plug 35 or the valve 55, and the nares portion 820 could then be used as a nares seal.

The nares and mouth kit 801 may include the components of the nares only kit 805 and the mouth kit 810. The nares and mouth kit 801 may allow a patient ively switch n using the nares portion 820 alone, to using the mouth portion 840 alone, or to use the nares portion 820 and the mouth portion 840 together. This allows the patient to periodically change how the devices feel on the patients face. For example, if the patient’s nares area becomes irritated (e.g., by airjetting and/or concentrated sealing forces), the patient may switch to using the nares n 820 and the mouth portion 840, or the mouth portion 840 alone. The patient may switch on a periodic basis, e.g., nightly, weekly, monthly, etc.

Fig. 37 illustrates a prior art nares only CPAP device 901 that provides CPAP therapy to a patients nares. The CPAP device 901 may e a nares portion 910 forming a seal with the patient’s nares, an elbow connector 912 connecting the nares portion 910 to a tube 915 supplying pressurized gas to the nares portion 910, where the tube s along the patient’s nose, between the patient’s eyes and over the patients head, where it is connected to a supply of the pressurized gas. The elbow connector may include a vent 914 for venting gas exhaled by the patient, with the vent having a ble insert. The nares portion 910 may include a nares sealing portion such as nasal pillows, nasal prongs, a nasal membrane, or a nasal chamber.

Headgear 918 may secure the nares portion 910 to the patient’s head.

Figure 38 illustrates a side view ofhow the prior art nasal only device 901 may be converted to a nates and mouth mask system 940 according to an embodiment ofthe present technology. The nares portion 910 and the elbow 912 may be removed and the mask system 940 including may be connected to the tube 915, such as by a connector 924. The prior art nasal only device may be a "Breeze® ear®" device, for example.

The mask system 940 may include a mouth portion 942 for forming a seal with the patient’s mouth and a nares portion 952 for forming a seal with the patient’s nares. The mouth portion 942 may include headgear connectors 946 for connecting to headgear 954, and the nares n 952 may include headgear connectors 944 for connecting to headgear 950. The mask system 940 may be a modular mask system or an integrated mask system, and is capable of delivering pressurized air to the t’s nares and/or mouth.

The mask system 940 may alternatively utilize the wares portion 910, and add a mouth portion, where the mask system 940 is a mouth portion. In this ment, the vent 914 of the ' 01 0 :0 I16" pne- nnnnnn0:n\n On 0kg .14}. M"in... 0AA "Jun"; 51... Lu"... :. «LA "1...; or : vxwvv 11a IDw aux wrumuvu w "AU TAI lUuI-ll wluUl1 7W, wumc "1U MI t l ulc Vvlll 71 removed, and the mouth n 940 is adapted to connect to the vent pneumatically. In this embodiment, air may ?ow out ofthe vent 914 to the mouth portion 940, and any original headgear, such as headgear 918 may be retained.

Figure 39 illustrates a tic side view ofanother modi?cation ofthe nares only device 901 . In this embodiment, the nasal pillows 960 are removed from the openings 920 in the nares only device 901, and a mask system 962 is ted to the nares only device 901 in place ofthe nasal pillows 960. The mask system 962 has a pair of connectors 964 adapted to connect to the openings.

The mask system 962 includes a mouth portion 968 and a nares portion 969. The mouth n 968 forms a seal with a patient’s mouth at mouth seal 974 and receives the pressurized air h the connectors 964. The mouth portion 968 is connected to the nares portion 969 with a connector 976. The nares portion 969 may include nares engagement n 970 adapted to form a seal with the patient’s nares and support portion 972. The nares portion 969 may alternatively be another type of nares portion, such as nasal pillows or prongs, or a nasal chamber.

The mask systems 940 and 962 may be used to convert a nares only device for delivering respiratory therapy to a patient into a device for delivering nasal and/or mouth respiratory therapy to a patient.

Fig. 40 illustrates a prior art nares only CPAP device 980 that es CPAP therapy to a patient’s nares. The CPAP device 980 may include a nares portion 982 that includes a cushion 988 forming a seal with the patient’s nares, a connector 990 for connecting to a source of pressurized gas, headgear connectors 985 for connecting to headgear and a forehead portion 984.

The forehead portion 984 includes a forehead support pad 986 and dial 994 for adjusting a position ofthe forehead t pad 986. The cushion 988 may be removed by pulling it in the direction of the arrows.

Figure 41 illustrates a side view ofhow the prior art nasal only device 980 may be ted to a nares and mouth mask system 993 according to an ment of the present technology. The cushion 988 may be removed and the nares and mouth mask system 993 may be connected to the nasal only device in place of the cushion 988.

The nares and mouth mask system 993 may be adapted to connect to the ?ame ofthe nasal only device 980 in place of the cushion by being formed with an interface 987 in the same shape as the cushion 988. The nares and mouth mask system 993 includes a cushion 998 adapted to seal with a face ofthe patient, and may include a nose engagement n 994 and a lower lip engagement portion 995. A headgear connector 996 may connect to headgear 997. The nares and mouth mask system 993 may thus be utilized to convert the nares only device 980 into a nares and mouth mask system 993. The front portion 999 of the mask system 993 may be formed with a rigidizer to provide additional rigidity.

] The nares and mouth mask system 993 may include an AAV (anti-asphyxia valve), which may have and opening 1002 and a ?ap 1004. When pressure is applied to the mask system 993 such as delivered from an air delivery tube, the ?ap 1004 is in the closed position.

When no pressure is applied, the ?ap 1004 moves to the open position 1006, allowing a user to breath through the opening 1002. While not shown, the embodiment of Fig. 39 may also include such an AAV. 2] The mask systems bed herein may be used to provide a method of ing respiratory therapy to one of a patient’s nares only, a patient’s mouth only, or to both a patient’s nares and mouth, and periodically changing the respiratory y to another of the patient’s nares only, the patient’s mouth only, or to both the patient’s nares and mouth. For e, the respiratory therapy may be initially provided to the patient’s nares only, and then periodically changed from being applied to the patient’s nares only to being applied to the patient’s nares and mouth.

The mask systems described may also be utilized to provide a method ofrespiratory therapy ent, where a ?rst mask with a ?rst int is applied to a patient for a period of time, then the ?rst mask is removed, and a second mask with a second footprint di?'erent ?om the ?rst footprint is applied to the patient for a second period of time. For example, the ?rst footprint may be one ofa nares only mask, a nares and mouth mask, and a mouth only mask, while the second footprint is another one ofthe nares only mask, the nares and mouth mask, and the month only mask.

While the invention has been described in connection with what are presently considered to be the most practical and preferred embodiments, it is to be understood that the ion is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modi?cations and equivalent arrangements included within the spirit and scope of the inVention. Also, the various embodiments bed above may be implemented in conjunction with other embodiments, e.g., aspects ofone embodiment may be combined with s of another embodiment to realize yet other embodiments. Further, each independent feature or component of any given assembly may tute an additional embodiment. In addition, while the invention has particular application to patients who suffer from OSA, it is to be appreiwted that patients who su?‘er from other illue's'?s (e.g., congestive h‘a? e, diabetes, morbid obesity, , bariatric surgery, etc.) can derive bene?t from the above ngs. Moreover, the above teachings have applicability with patients and non-patients alike in non-medical applications.

JAWs Ref: 505562DIV8 ResMed Ref: P744NZ9

Claims (19)

WHAT WE CLAIM IS:

1. A mask system for delivery of respiratory therapy to a patient, sing: a mouth portion sing: a mouth cushion d to form a seal with the patient’s mouth, the mouth cushion comprising a ed portion with a first outlet opening in a or region of the mouth cushion; and a fascia that is more rigid than the mouth cushion and forms a mouth plenum chamber together with the mouth cushion, the fascia comprising a headgear connector and an inlet opening, the mouth plenum chamber being configured to receive pressurized, breathable gas through the inlet opening; a nares portion that is configured to nest within the recessed portion of the mouth cushion and comprises: a nares sealing n adapted to form a seal with the patient’s nares; and a plenum base that forms at least part of a nares plenum chamber and includes a nares portion opening, the nares plenum chamber being configured to e at least a portion of the pressurized, breathable gas from the mouth plenum chamber through the nares portion opening; and a cushion clip configured to secure the nares portion to the mouth portion, the cushion clip comprising: a wall that is more rigid than the mouth cushion and the nares portion and forms at least part of a gas flow e that pneumatically connects the nares plenum chamber to the mouth plenum chamber when the cushion clip is secured to the mouth portion and the nares n; a retaining portion positioned on an outer surface of the wall, the retaining portion being inserted h the nares portion opening to engage an interior surface of the plenum base; and a flange configured to secure the cushion clip to the mouth cushion, wherein the recessed portion of the mouth cushion and first outlet opening are oriented so that the pressurized, breathable gas flowing through the cushion clip flows in a superior-posterior direction. JAWs Ref: 505562DIV8 ResMed Ref: P744NZ9

2. The mask system according to claim 1, further comprising an inlet conduit that is connectable to the fascia to deliver the pressurized, breathable gas to the mouth plenum

3. The mask system according to claim 2, further comprising a swivel ring in the inlet opening in the fascia adapted to t to the inlet conduit.

4. The mask system according to any one of claims 1 to 3, wherein the nares portion and the mouth portion are formed separately from one another and then connected to one another.

5. The mask system ing to any one of claims 1 to 4, wherein the nares portion and the mouth n are selectively connectable and disconnectable from one another.

6. The mask system according to any one of claims 1 to 5, wherein the mouth cushion is made of silicone.

7. The mask system according to any one of claims 1 to 6, further comprising headgear ured to be connected to the headgear connector on the fascia and support the mouth portion, and wherein the headgear includes lower side straps configured to be routed under the patient’s ears.

8. The mask system according to claim 7, wherein the headgear includes a crown strap portion adapted to be oned in use over the crown of the patient’s head.

9. The mask system according to claim 8, wherein the headgear further includes a rear strap portion configured to be positioned above the patient’s ears and adapted to angle downward along the sides of the patient’s head in use to e the occiput of the patient’s head.

10. The mask system ing to claim 9, wherein the rear strap portion is configured to be connected to the lower side strap below the occiput of the patient’s head. JAWs Ref: 505562DIV8 ResMed Ref: P744NZ9

11. The mask system according to any one of claims 1 to 10, wherein the nares g n comprises one of pillows, prongs, a membrane seal, or a nasal chamber.

12. The mask system according to claim 11, wherein a wall of the plenum base of the nares g portion is structured to extend or curve outwardly from a rim of the nares portion g.

13. The mask system according to claim 12, further comprising a plurality of rigid elements disposed on a lower side of the nares sealing portion, and a dial connected to the rigid elements, the dial being configured so that g the dial causes the rigid ts to move upwards or downwards to adjust a pinching force of the nares sealing n.

14. The mask system ing to any one of claims 1 to 13, wherein the mouth portion further comprises a second outlet opening below the first outlet opening, and wherein the mouth cushion is ured so that the pressurized, breathable gas is delivered to the patient’s mouth through the second outlet opening.

15. The mask system according to any one of claims 1 to 14, wherein the first outlet opening in the mouth cushion is below an uppermost portion of the mouth cushion.

16. The mask system according to claim 15, wherein the ed portion of the mouth cushion is configured so that a portion of the nares portion remains above the uppermost portion of the mouth cushion.

17. The mask system according to any one of claims 1 to 16, wherein the recessed portion of the mouth cushion and the cushion clip are configured to allow the nares portion to move independently of the mouth portion when the nares portion is connected to the mouth portion.

18. The mask system according to any one of claims 1 to 17, wherein the wall forming the gas flow passage of the cushion clip is tubular.

19. The mask system according to any one of claims 1 to 18, wherein the nares portion is configured to receive the pressurized, breathable gas only through the nares portion opening.