AU2013200447B2 - Oxygenating device and method - Google Patents

Abstract

C:\NRPorIbI\DCC\DER\4892027_I.DOC-29/01/2013 An oxygenating device including: a body having: a first coupling spigot to which a collapsible bag is connected; an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; a second coupling spigot having a female leur socket for receipt in use of a male leur connector of an endotracheal tube or laryngeal mask; and a mask which can be applied, in use, about the nose and mouth of a patient and having an inlet/outlet socket mounted over said second coupling spigot.

Description

OXYGENATNG DEVICE AND METHOD This invention relates to an oxygenating device and method. 5 Post-operative treatment of patients usually includes a number of hours spent in a recovery room where the patients can be monitored whilst the effects of anaesthetic wear off. It is desirable to supply oxygen or oxygen enriched air to the patients in the recovery room to assist in returning to normal breathing and to offset the effects of the anaesthetic. In most recovery rooms, oxygen is available from bedside outlets which are capable of 10 delivering oxygen at a relatively low rate, say of the order of about 4 to 6 litres per minute. This is typically less than the oxygen requirements of a typical adult patient. Australian Patent No. 721704 discloses a disposable oxygenating device which stores oxygen from the low volume supply in a collapsible plastic bag and enables a relatively large volume of oxygen or oxygen rich air to be supplied to the patient from the bag during the patient's 15 inspiration cycle. When patients leave the operating theatre, it is customary to leave the laryngeal mask in the patient. The free end of the laryngeal mask is fitted with a male leur connector of standard size which can be connected to an anaesthetic machine in the operating theatre. 20 The known form of oxygenating device includes a female leur socket which can receive the male leur connector of the endotracheal tube or laryngeal mask which is still projecting from the mouth of the patient who has been moved from the operating theatre into the recovery room. The oxygen device increases the supply of oxygen to the patient in the post operative stage so as to assist in more quickly overcoming the effects of the 25 anaesthetic. There are, however, circumstances where oxygenation is required in circumstances where an endotracheal tube or laryngeal mask is not fitted to a patient or the endotracheal tube or laryngeal mask has been removed. 30 -2 Accordingly, it is an object of the invention to provide an oxygenating device which can be used in conjunction with an endotracheal tube or laryngeal mask or alternatively when neither of those devices is fitted to a patient. 5 According to the present invention there is provided an oxygenating assembly including: an oxygenating device and a mask, the oxygenating device including: a body having: (i) a first coupling spigot to which a collapsible bag is connected; 10 (ii) an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; (iii) a second coupling spigot which includes a hollow cylindrical body, the interior surface of which is a female Luer connector and the exterior surface of the hollow cylindrical body comprises a second connector; and 15 wherein the mask includes: (iv) a sidewall having a peripheral flange which, in an unfolded position, lies adjacent to the face of a patient and in a folded position is folded away from the face of a patient; and (v) an inlet/outlet which, in use, is coupled to said second connector directly or 20 by an adaptor sleeve whereby; (vi) in a first mode of use of the assembly, the sidewall of the mask is in its folded position and a male Luer connector of an endotracheal tube or laryngeal mask passes through the interior of the inlet/outlet of the mask and is connected to said female Luer connector; and 25 (vii) in a second mode of use of the assembly in which the endotracheal tube or laryngeal mask has been removed from the patient, the sidewall of the mask is in its unfolded position and the inlet/outlet is coupled to the second connector. 30 The invention also provides an oxygenating device including: a body having: -3 a first coupling spigot to which a collapsible bag is connected; an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; an oxygen supply tube formed longitudinally integral with a portion of an 5 interior wall of the body extending through the body and having an outlet orifice that extends beyond a face formed by the first coupling spigot; and a second coupling spigot including a hollow cylindrical body the interior surface of which comprises a first connector in the form of a female tapered socket for receipt of a male tapered connector of an endotracheal tube or laryngeal mask and the 10 exterior surface of the hollow cylindrical body comprises a second connector; an outlet spigot at least partially aligned with and disposed opposite the second coupling spigot, wherein the oxygen supply tube is disposed at an eccentric location in the body to minimise an obstruction presented to a direct flow between the outlet spigot and the second coupling spigot; and 15 a mask having an external face and an internal face which can be applied, in use, about a nose and a mouth of a face of a patient, the mask having an inlet/outlet socket which, in use, is coupled to said second connector directly or by an adaptor sleeve and wherein, in use, said male tapered connector passes into the inlet/outlet socket for connection with the first connector. 20 The invention also provides a method of oxygenating patients, the method comprising: inserting a male tapered connector of an endotracheal tube or laryngeal mask applied to a patient into a female tapered socket of an oxygenating device as described 25 above, the device including a collapsible bag which is supplied with oxygen, the device also including a folded mask; removing the endotracheal tube or laryngeal mask from the patient and the oxygenating device; unfolding the mask; 30 fitting the internal face of the mask about a nose and a mouth of the patient; and continuing to supply oxygen to the collapsible bag so that oxygenation of the -4 patient continues. The invention also provides a method of oxygenating a patient, the method comprising: 5 inserting a male tapered connector of an endotracheal tube or laryngeal mask applied to a patient into a female tapered socket of an oxygenating device as defined above, the device including a collapsible bag which is supplied with oxygen; removing the endotracheal tube or laryngeal mask from the patient and the oxygenating device; 10 fitting a mask about a nose and a mouth of the patient; connecting the same oxygenating device to the mask; and continuing to supply oxygen to the collapsible bag so that oxygenation of the patient continues. 15 The invention also provides a kit for assembly into an oxygenating device, the kit including: a body having: a first coupling spigot to which a collapsible bag is connected; an oxygen inlet to which a supply of oxygen can be connected for inflating, 20 in use, the collapsible bag with oxygen; an oxygen supply tube formed longitudinally integral with a portion of an interior wall of the body extending through the body and having an outlet orifice that extends beyond a face formed by the first coupling spigot; and a second coupling spigot having a female tapered socket for receipt in use 25 of a male tapered connector of an endotracheal tube or laryngeal mask; an outlet spigot at least partially aligned with and disposed opposite the second coupling spigot, wherein the oxygen supply tube is disposed at an eccentric location in the body to minimize an obstruction presented to a direct flow between the outlet spigot and the second coupling spigot; and 30 a mask which can be applied, in use, about a nose and a mouth of a patient and -4A having an inlet/outlet socket which can, in use, be mounted over the second coupling spigot, whereby: in a first mode of assembly of the kit, the male tapered connector of an endotracheal tube or laryngeal mask is inserted into the second coupling spigot; and, 5 in a second mode of assembly of the kit, the inlet/outlet socket of the mask is mounted over said second coupling spigot. There are also circumstances where oxygenation of a patient is desirable where the procedure does not involve the use of an endotracheal tube or laryngeal mask. For 10 instance, if anaesthetic is administered to a patient intravenously or regionally, the device of the invention can be used simply by fitting the mask to the patient and supplying oxygen to the oxygen inlet. It is also preferred that the device of the invention is lightweight and disposable. 15 Preferably, components of the device are moulded from plastics material to which the collapsible bag can be connected by heat welding or ultrasonic welding. It is desirable to have a relatively low weight for the device because it is mounted on the projecting end of the laryngeal mask or endotracheal tube. In this respect it is preferred that the weight of the device of the invention is in the range from 25 to 40 grams and preferably about 30 20 grams. The invention will now be further described with reference to the accompanying drawings, ir which: Figure 1 is a schematic cross-sectional side view of a known form of oxygenating 25 device; Figure 2 is a cross-section along the line 2-2; Figure 3 is a schematic end view of the device shown in Figure 1; Figure 4 is a side view of the oxygenating device of the invention; Figure 5 is a fragmentary frontal view of the device of the invention; 30 Figure 6 is a schematic view which shows the mask in a non-operative position; and Figure 7 is a schematic view showing the mask folded into its operative position on -5 a patient. Figures 1 to 3 illustrate an oxygenating device 2 of known type such as devices of the type shown in Australian Patent No. 721704, the content of this specification being 5 incorporated herein by cross reference. Devices of this type are known as T-Bags, supplied by Ultimate Medical Pty. Ltd. of Burnley, Victoria, Australia, which have been widely used in Europe and Australia. Briefly, the device 2 includes a body 4 moulded from plastics material and having a 10 collapsible bag 6 of sheet plastics material connected thereto. The bag 6 is not resilient in the sense of being a resilient bladder-like body which is used in some types of resuscitation devices such as disclosed in US Patent No. 3,196,866. The body 4 is essentially hollow and includes a first spigot 8 to which a mouth 10 of the bag is connected by heat or ultrasonic welding. The body 4 includes a second coupling spigot 12, the interior socket of 15 which is tapered so as to form a standard female leur socket 14. The body 4 includes an outlet spigot 16 which defines an outlet port 18 from which expiration products from the patient can pass, as will be described below. The body 4 includes an oxygen supply tube which is integrally moulded with the body 4, the oxygen supply tube 20 extending generally through the body and having a projecting inlet spigot 22 to which a supply of 20 oxygen can be connected. The tube 20 has an outlet orifice 24 which projects somewhat beyond the end face 26 of the first spigot 8 so that oxygen from the tube 20 is directed towards the interior of the bag 6. In use, a male leur connector (not shown) is connected to the leur socket 14 and an 25 oxygen supply line (not shown) is connected to the oxygen inlet spigot 22. Oxygen inflates the bag 6 so that when the patient breathes in, oxygen accumulated in the inflated bag 6 is sucked into the endotracheal tube or laryngeal mask so as to supply oxygen or oxygen rich air to the patient. During the expiration cycle of the patient, expiration products tend to pass directly from the socket 14 to the outlet port 18 which is located 30 opposite thereto so that relatively little of the expired gases will enter into the bag 6. In this way oxygen or oxygen enriched air is available to a patient even though the oxygen -6 supply line coupled to the oxygen inlet spigot is capable of only low flow rates. Devices of the type shown in Figures 1 to 3 are widely used in many recovery rooms because they are a cheap and effective way of supplying oxygen to post-operative 5 patients. The devices also have the advantage that the breathing of a patient can be quickly monitored by visual observation of the movement of the bag caused by inspiration and expiration of the patient. Movement of the bag gives an indication of the depth and rate of breathing of the recovering patient. Where a number of patients are in the recovery room, it is relatively easy for medical staff to observe patients having low breathing depth and/or 10 rate and so attention can be given to those patients. As described above, the known type of device is used in conjunction with an endotracheal tube or laryngeal mask applied to a patient. There are, however, circumstances in which a disposable oxygenating device is required where an endotracheal 15 tube or laryngeal mask has not been used or has been removed from a patient. Figures 4 to 7 illustrate an oxygenating device 30 constructed in accordance with the invention. The device 30 includes a mask 32 which is coupled to an oxygenating device 2 of the same type as described above. The mask 32 can be of known type, for 20 instance of the type supplied by INTERSURGICAL known as EUROSTYLE 1104 ADULT STYLE. This type of mask has ventilation holes in the sidewall and when used in the device of the invention, these holes need to be covered by an adhesive patch or by other means so that the mask is essentially impervious. This type of mask is moulded from transparent flexible plastic material such as polyvinylchlorine and typically has a wall 25 thickness of about 1mm. The mask 32 includes a sidewall 34, front face 36 and a rearward peripheral flange 38. The sidewall 34 includes an upper portion 40 which in use is located adjacent to the nose of a patient and a lower portion 42 which, in use, is located near the mouth of a patient. The peripheral flange 38 includes lateral tabs 44 and 46 having holes therein for fixing ends of an elastic strap 48. In use of the mask 32, the flange 38 engages 30 the face of the patient so that the mask generally envelops the nose and mouth of the patient. The mask 32 includes an integral spigot 50 which is normally coupled to a supply -7 fitting (not shown) for supply of oxygen or the like. In accordance with the invention, however, the second coupling spigot 12 of the device 2 is inserted in the spigot 50 of the mask. A sleeve 51 (as shown in Figure 1) may be provided in order to ensure a neat fit of the spigot 12 within the spigot 50 of the mask. Alternatively, the diameter of the spigot 50 5 could be moulded with an internal diameter such that the spigot 12 can be directly inserted in the spigot 50. The spigot 50 could be bonded to the spigot 12 or alternatively would be detachable therefrom. The sidewall 34 does not include any ventilation holes, as in the INTERSURGICAL mask referred to above. In this arrangement because the flange 38 engages the face of the patient, substantially the only gas available to the patient during his 10 or her inspiration cycle is via the bag 6. The mask 32 may, however, include a sampling port (not shown) for sampling gas from within the mask. The diameter of the sampling port is preferably in the range from 1.5mm to 2.5mm. It would be possible to cover the port by means of an adhesive patch (not shown). Alternatively, the port could be left open but the amount of gas admitted through such a small port would be relatively negligible 15 compared to the gas which is made available to the patient through the bag 6, during the inspiration cycle. The device of the invention can be supplied in a condition in which the oxygenating device 2 is connected to the spigot of the mask 32. This could be a permanent 20 connection or alternatively could be a detachable connection. If the oxygenating device 2 is detachably connected to the mask, then it is possible to initially connect the oxygenating device 2 to a laryngeal mask 54 (as shown in Figure 6) and, after removal of the laryngeal mask 54 from the patient, the face mask 32 can be 25 applied to the patient and the same T-bag can be connected to the spigot 50 of the mask 32. Figures 6 and 7 illustrate an alternative mode of use of the device of the invention in which the sidewall 34 of the mask is folded initially into a non-operative position, as diagrammatically illustrated in Figure 6. Where the mask is moulded especially for use in 30 the oxygenating device of the invention, it can be moulded with fold lines (not shown) in the sidewall 34 thereof so as to define the way in which folding takes place.

-8 In the non-operative position, the peripheral flange 38 is folded forwardly so that it lies considerably forwardly of its position shown in Figure 4. The flange 38 may be roughly in a plane which includes the spigot 50. The resilience of the sidewall 34 is such that it is in a stable condition in its non-operative position. In this mode of use, a male leur 5 connector 52 of an endotracheal tube or laryngeal mask 54 can be inserted directly into the female leur socket 14 of the body 4. As the leur connector 52 is normally projecting some distance from the mouth of the patient, the folded mask 32 is clear of the face of the patient and all breathing of the patient takes place through the endotracheal tube or laryngeal mask 54. 10 When, however, the endotracheal tube or laryngeal mask 54 is removed from the patient, the sidewalls 34 of the mask can be unfolded to the operative position as shown in Figure 7 and breathing of the patient takes place through the mouth and/or nose, and oxygen or oxygen rich air is supplied to the interior of the mask 32 via the device 2. This 15 avoids the need for two oxygenating devices 2 to be used during oxygenation with the endotracheal tube or laryngeal mask present and oxygenation after removal of the endotracheal tube or laryngeal mask. Some times patients will remove a laryngeal mask themselves (without the permission of medical staff) and if this is done, again the same device 2 can be used, avoiding the need for use of a fresh oxygenating device 2. 20 The device of the invention is moulded from inexpensive lightweight materials and is therefore disposable. It does not have any valves and this makes its construction simpler and lightweight, the weight of the device typically being in the range from 25 to 40 grams and preferably about 30 grams. 25 The oxygenating device of the invention can be supplied in the form of a kit. Preferably, the kit includes an oxygenating device 2, mask 32 and a length of oxygen tubing (not shown). The oxygen tubing may be the standard form of tubing which is used for oxygen supply. Typically a length would be about 3 metres and having elastic sockets 30 either end thereof so that the tube can be fitted to various oxygen supplies at one end and at the other to the inlet spigot 22. Normally the tube is of PVC having a plasticiser therein -9 and typically having an outer diameter of say 6mm and an internal diameter of say 4mm. The internal bore of the tube is preferably internally ribbed so as to prevent inadvertent closing off of the tube in the event that it is kinked. The various components can be packed in a transparent plastic bag (not shown) and supplied to the surgical staff who can 5 then assemble the components of the kit in the appropriate manner. The reference to any prior art in this specification is not, and should not be taken as, an acknowledgment or any form of suggestion that that prior art forms part of the common general knowledge in Australia. 10 Many modifications will be apparent to those skilled in the art without departing from the spirit and scope of the invention. Throughout this specification and the claims which follow, unless the context 15 requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps. 20

Claims (27)

1. An oxygenating assembly including: an oxygenating device and a mask, the oxygenating device including: 5 a body having: (i) a first coupling spigot to which a collapsible bag is connected; (ii) an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; (iii) a second coupling spigot which includes a hollow cylindrical body, the 10 interior surface of which is a female Luer connector and the exterior surface of the hollow cylindrical body comprises a second connector; and wherein the mask includes: (iv) a sidewall having a peripheral flange which, in an unfolded position, lies adjacent to the face of a patient and in a folded position is folded away from 15 the face of a patient; and (v) an inlet/outlet which, in use, is coupled to said second connector directly or by an adaptor sleeve whereby; (vi) in a first mode of use of the assembly, the sidewall of the mask is in its folded position and a male Luer connector of an endotracheal tube or 20 laryngeal mask passes through the interior of the inlet/outlet of the mask and is connected to said female Luer connector; and (vii) in a second mode of use of the assembly in which the endotracheal tube or laryngeal mask has been removed from the patient, the sidewall of the mask is in its unfolded position and the inlet/outlet is coupled to the second 25 connector.

2. The assembly as claimed in claim 1 wherein the inlet/outlet is bonded or welded to the second connector or adaptor sleeve. 30

3. The assembly as claimed in claim 1 or 2 wherein the mask is transparent. -11

4. The assembly as claimed in any one of claims 1 to 3 wherein the mask is substantially imperforate.

5. The assembly as claimed in any one of claims 1 to 4 wherein the mask includes a 5 sampling port.

6. The assembly as claimed in claim 5 wherein the diameter of the sampling port is in the range 1.5mm to 2.5mm. 10

7. An oxygenating device including: a body having: a first coupling spigot to which a collapsible bag is connected; an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; 15 an oxygen supply tube formed longitudinally integral with a portion of an interior wall of the body extending through the body and having an outlet orifice that extends beyond a face formed by the first coupling spigot; and a second coupling spigot including a hollow cylindrical body the interior surface of vhich comprises a first connector in the form of a female tapered socket for 20 receipt of a male tapered connector of an endotracheal tube or laryngeal mask and the exterior surface of the hollow cylindrical body comprises a second connector; an outlet spigot at least partially aligned with and disposed opposite the second coupling spigot, wherein the oxygen supply tube is disposed at an eccentric location in the body to minimise an obstruction presented to a direct flow between the 25 outlet spigot and the second coupling spigot; and a mask having an external face and an internal face which can be applied, in use, about a nose and a mouth of a face of a patient, the mask having an inlet/outlet socket which, in use, is coupled to said second connector directly or by an adaptor sleeve and wherein, in use, said male tapered connector passes into the inlet/outlet socket for 30 connection with the first connector. - 12

8. The device as claimed in claim 7 wherein the mask includes a peripheral flange which in use engages or lies closely adjacent to the face of the patient so that substantially all of the gas available to the patient during an inspiration cycle is delivered from said bag. 5

9. The device as claimed in claim 7 or 8 wherein the mask is moulded from flexible plastics material and including at least one sidewall having a free edge which in use engages the face of a patient, the at least one sidewall being foldable into a non-operative position in which the free edge does not, in use, engage the face of the patient and oxygen or oxygen rich air is supplied to the patient through the endotracheal tube or laryngeal 10 mask.

10. The device as claimed in claim 9 wherein a hollow adaptor sleeve is located on said second coupling spigot and the adaptor sleeve is inserted in the inlet/outlet socket of the mask. 15

11. The device as claimed in claim 9 or 10 wherein the mask is bonded or welded to the second coupling spigot or adaptor sleeve.

12. The device as claimed in any one of claims 7 to 11 wherein the mask is transparent. 20

13. The device as claimed in any one of claims 7 to 12 wherein the mask is substantially imperforate.

14. The device as claimed in any one of claims 7 to 12 wherein the mask includes a 25 sampling port.

15. The device as claimed in claim 14 wherein a diameter of the sampling port is in the range 1.5mm to 2.5mm. 30

16. Use of the oxygenating assembly as defined in any one of claims 1 to 6 for oxygenation of a patient. -:acruirne ovf~rn- o jw t-"o I /vlj.CjMI)/t/ul4 - 13

17. A method of oxygenating patients, the method comprising: inserting a male tapered connector of an endotracheal tube or laryngeal mask applied to a patient into a female tapered socket of an oxygenating device as claimed in any one of claims 7 to 15, the device including a collapsible bag which is supplied with 5 oxygen, the device also including a folded mask; removing the endotracheal tube or laryngeal mask from the patient and the oxygenating device; unfolding the mask; fitting the internal face of the mask about a nose and a mouth of the patient; and 10 continuing to supply oxygen to the collapsible bag so that oxygenation of the patient continues.

18. A method as claimed in claim 17 further comprising: folding a free edge of the mask into a non-operative position in which the free edge 15 does not, in use, engage a face of the patient.

19. A method of oxygenating a patient, the method comprising: inserting a male tapered connector of an endotracheal tube or laryngeal mask applied to a patient into a female tapered socket of an oxygenating device as claimed in 20 any one of claims 7 to 15, the device including a collapsible bag which is supplied with oxygen; removing the endotracheal tube or laryngeal mask from the patient and the oxygenating device; fitting a mask about a nose and a mouth of the patient; 25 connecting the same oxygenating device to the mask; and continuing to supply oxygen to the collapsible bag so that oxygenation of the patient continues.

20. A kit for assembly into an oxygenating device, the kit including: 30 a body having: a first coupling spigot to which a collapsible bag is connected; I 79_I.doc-I 5/07/2014 - 14 an oxygen inlet to which a supply of oxygen can be connected for inflating, in use, the collapsible bag with oxygen; an oxygen supply tube formed longitudinally integral with a portion of an interior wall of the body extending through the body and having an outlet orifice that 5 extends beyond a face formed by the first coupling spigot; and a second coupling spigot having a female tapered socket for receipt in use of a male tapered connector of an endotracheal tube or laryngeal mask; an outlet spigot at least partially aligned with and disposed opposite the second coupling spigot, wherein the oxygen supply tube is disposed at an eccentric 10 location in the body to minimize an obstruction presented to a direct flow between the outlet spigot and the second coupling spigot; and a mask which can be applied, in use, about a nose and a mouth of a patient and having an inlet/outlet socket which can, in use, be mounted over the second coupling spigot, whereby: 15 in a first mode of assembly of the kit, the male tapered connector of an endotracheal tube or laryngeal mask is inserted into the second coupling spigot; and, in a second mode of assembly of the kit, the inlet/outlet socket of the mask is mounted over said second coupling spigot. 20

21. A kit as claimed in claim 20 further comprising a length of tube, one end of which can be coupled to said supply of oxygen and the other end of which can be coupled to said oxygen inlet.

22. A kit as claimed in claim 21 wherein the length of tube is about 3 meters long. 25

23. A kit as claimed in claim 22 wherein the length of tube has elastic sockets on each end thereof.

24. A kit as claimed in claim 23 wherein the body, the mask and the length of tube are 30 packed within a bag. H:\der\InMenvoven\NRPoribl\DCC\DER\5856179_ l.doc-15107/2014 - 15

25. A kit as claimed in claim 24 wherein the bag is a transparent plastic bag.

26. A kit as claimed in claim 21 wherein the length of tube has elastic sockets in each end thereof and the body, the mask and the length of tube are packed within a bag. 5

27. An oxygenating assembly; a method of oxygenating patients; or a kit for assembly into an oxygenating device substantially as hereinbefore described with reference to the accompanying drawings.