A DUAL-PURPOSE DEVICE FOR DRUG DELIVERY AND SECRETION COLLECTION
AND METHODS FOR USING THE SAME
FIELD AND BACKGROUND OF THE INVENTION The present invention relates to a medical device. More particularly, the present invention relates to a device capable of both delivery of drugs and removal of fluids, for therapeutic or diagnostic purposes. Specifically, the present invention relates to the delivery of substances, such as drags and other medicaments, through a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.) and removal of fluid samples or secretions therefrom. Medical disorders of the upper airway are common. Asthma affects approximately 10% of the adult population. Asthmatic patients, together with those suffering from cystic fibrosis, bronchitis, smoking related disorders and infants with difficulty maintaining adequate oral ventilation are probably found in 20-50% of households. Patients with these disorders are generally treated with drugs delivered as an aerosol suspension, or with suction to remove samples or unwanted secretions, or with both aerosol drugs and suction.
Aerosol delivery of drugs to the upper airway is typically accomplished by either a stream of air created by a motorized pump, or by use of a pressurized propellant gas (e.g. aerosol canister).
Aerosol delivery devices, which include a motorized pump, are typically heavy, noisy and expensive. A typical device may cost a consumer between $70 and $200. In addition, use of devices of this type often requires measuring and mixing of components of the aerosol. This provides an opportunity for patient error and may lead to delivery of an incorrect dose of medication.
Devices, which rely upon a pressurized propellant gas, are typically configured to deliver a pre-measured dose of medication with each actuation. However, medication packaged in this way is relatively expensive. In addition, patients with poor co-ordination (e.g. young children, geriatric patients) often have difficulty using these devices. These patients typically employ a spacing chamber that allows them to draw in medication by inhaling after actuation of the device. Such a spacing chamber typically costs approximately $30. While devices of this type are often small enough to be easily portable (pocket size), the spacing chambers employed with these devices are generally too large to be conveniently portable (typically 6cm by 15 cm). Suction of unwanted secretions such as mucous from the upper airway (e.g. nose, pharynx) is often performed using devices with electric vacuum pumps. These devices are
typically found primarily in hospitals and medical facilities. They are heavy, noisy and expensive. Currently, the primary solution for home suction is a portable device, disclosed in British Pat. No. 2,245,833. This patent does not teach the use of a disposable mucous trap. A re-usable mucous trap is a potential source of infection and represents a serious limitation in practicing of the teachings of the patent.
There is thus a widely recognized need for, and it would be highly advantageous to have, a device for upper airway treatment devoid of the above limitation. Ideally, such a device would be a dual-purpose device capable of performing both aerosol delivery and suction treatments, specifically, delivery of substances, such as drugs and other medicaments, through a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.) and removal of samples or unwanted secretions therefrom.
SUMMARY OF THE INVENTION
The device and the methods of the present invention successfully addresses the shortcomings of the presently lαiown configurations by providing a dual-purpose medical device for drug delivery and secretion collection and methods for using same, which facilitates both drug delivery and hygienic removal of fluid samples or secretions from a bodily orifice.
According to the teachings of the present invention there is provided a first device, useful for the removal of fluids (such as blood, mucous, pus and other secretions for example, for therapeutic or diagnostic purposes) through a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.), comprising a cassette having a first opening, a second opening and an air-filled interior volume. The cassette is configured to allow the air to be evacuated by the application of suction at the first opening consequently producing suction at the second opening.
According to a feature of the first device of the present invention, there is provided a manually operable airflow generator, configured to create the suction at the first opening. At least part of the airflow generator is a reversibly deformable air-filled compressible container. The airflow generator is configured to create the suction at the first opening upon expansion of the container, after the container has been compressed. It is important to emphasize that when the term "reversibly deformed" is used herein, the meaning is that once the container has been compressed with a force and the force is released, the container has a property (such as elasticity) or there exists a mechanism (such as a spring) to cause the container to return to substantially the pre-compression shape and configuration.
According to a different feature of the first device of the present invention, the source of suction at the first opening is a mechanical air pump, including for example, a household vacuum cleaner.
According to a further feature of the first device of the present invention, there is a tube, connectable or attached to the second opening, where the tube is configured to be insertable into a bodily orifice and to remove fluids therefrom.
According to still further feature of the present invention, the cassette is configured to contain a fluid entering the cassette through the second opening. Once the fluid is contained in the cassette, the cassette is configured to prevent the fluid from escaping through the first opening.
There is also provided according to the teachings of the present invention a second device, useful for the delivery of drags (in the form of an aerosol, a liquid, a gas or a dry powder) through a bodily orifice, made up of a cassette having a first opening, a second opening and an interior volume, and configured to allow air to flow from the first opening, through the interior volume and out through the second opening. When the air flows through the cassette, the flow of air causes delivery of a drag confined within the internal volume. Two examples of drags deliverable by the second device of the present invention are antihistamines or an aqueous saline solution.
According to a feature of the first device of the present invention, there is provided a manually operable airflow generator, configured to create the flow of air at the first opening. At least part of the airflow generator is a reversibly deformable air-filled compressible container. The airflow generator is configured to create the flow of air at the first opening upon compression of the container. The container is configured to fill up with ambient air during the expansion subsequent to the compression.
According to a different feature of the second device of the present invention, the source of air flow at the first opening is a mechanical air pump.
According to a further feature of the second device of the present invention, there is a tube, connectable or attached to the second opening, where the tube is configured to be insertable into a bodily orifice and to deliver drugs into the bodily orifice.
According to a still further feature of the second device of the present invention, there is an aerosol jet, connectable or attached to the second opening, where the aerosol jet is configured to deliver the confined drug as a plurality of micro-droplets.
According to a further feature of the second device of the present invention, the dosage and the nature of the drag contained within the cassette is identifiable by marks on the external surface of the cassette. Such marks can include but are not limited to a specific coloration or pattern of coloration for visual identification of the dosage or nature of the drug or to some palpable structure such as ridges or incised pattern for tactile identification of the dosage or nature of the drag.
According to a still further feature of the second device of the present invention, a mask is provided, operatively connected to the second opening of the cassette. Such a mask is configured to sealingly fit over the bodily orifice, usually the mouth, nose or both simultaneously to increase the efficiency of drug delivery. When the drug exits the second opening it is dispersed inside the volume defined by the mask and the bodily orifice. It is preferable that the inside surface of the mask is made of or coated with a material that has the property to reject aerosol particles, for example by modifying the electrostatic properties of the mask.
According to a further feature of the second device of the present invention there is provided a multi-diameter orifice mechanism. Such a mechanism has substantially three openings. One opening, the inlet, is functionally connected to the source of airflow. The second opening is the drug-delivery outlet and is functionally connected to the first opening of the cassette. The third opening is the pressure-release outlet. The ratio of the diameters of the two outlets is determined so that of an amount of air flowing in through the first opening of the cassette, a certain proportion flows out through the pressure release outlet and the remainder flows out through the drag delivery outlet into the internal volume to carry the drug confined therein through the second opening of the cassette. In such a way the amount of drag transported to the bodily orifice as a result of each application of airflow ("puff) can be varied. This allows delivery of the drug dose with one or multiple puffs, as decided by the patient or other person.
According to a still further feature of the second device of the present invention with a multi-diameter orifice mechanism, the drug-delivery outlet has a fixed diameter whereas the pressure-release outlet has a variable user-defined diameter. This allows the number of "puffs" necessary for drug delivery to be decided upon use.
According to a further feature of the second device of the present invention, the cassette is also configured to be useful for the removal of fluids in analogy to the first device of the present invention, described hereinabove. In some cases it may be useful to add a mechanism
that allows the user to select either from two or from three modes: a drug delivery mode (actuation of the airflow generator delivers the drug through the second opening), fluid removal mode (actuation of the airflow generator removes fluid through the second opening) and combined mode (the airflow generator first delivers the drug and thereafter removes fluid, both through the second opening).
Ideally, the same device which produces the airflow to deliver the drug contained within the interior volume is also configured to produce the suction necessary to remove the fluids. For example, the expansion of the manually operated elastic air-filled compressible container can be configured to create the suction at the first opening upon expansion of the container.
According to a feature of both the first and the second device of the present invention, the cassette is placed within a reusable holder for use. The reusable holder can be optionally configured to hold for storage at least one cassette for increased convenience. When held for storage, any seals a cassette may have are not compromised and activation of the airflow according to the invention does not lead to the passage of air through a stored cassette.
According to a further feature of both the first and second device of the present invention, the first opening is sealed with a removable first opening seal. The first opening seal can be manually removed or be automatically removed when the cassette is attached to the source of air flow.
According to a further feature of both the first and second device of the present invention, the second opening is sealed with a removable second opening seal. The second opening seal can be manually removed or can be removed as a result of pressure accumulating in the interior volume of the cassette as a result of the flow of air.
According to a further feature of both the first and second device of the present invention, there is a pressure activated valve operatively attached to the second opening, effectively sealing it, but allowing drag exit, fluid entrance, or both when the respective device is activated.
According to a still further feature of both the first and second device of the present invention, the cassette has a partition dividing the interior volume into at least two separate chambers and on the partition is an openable region, sealed with a removable partition seal and where at least one of the chambers contains at least one component of a drug. According to a feature of the invention, the partition seal is removed by the act of connecting the airflow source. According to a further feature of the present invention the partition seal is removed with
the use of a mechanism configured for that purpose. The seals can be perforated to ease removal of the partition seal.
It is clear that it is most advantageous to design the casettes of both the first and second device of the present invention to be disposable.
There is also provided according to the teachings of the present invention a first method for delivery of a drug (in the form of an aerosol, a liquid, a gas or a dry powder) through a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.) by: (a) providing a cassette having a first opening, a second opening and an interior volume. When air flows through the cassette from the first opening, through the interior volume and out through the second opening, a drag confined inside the interior volume of the cassette is delivered through the second opening, (b) connecting a source of airflow to the first opening and (c) causing air to flow into the internal volume via the first opening and outward from the internal volume via the second opening towards a bodily orifice of a patient so that drag contained within the internal volume of the cassette is accomplished.
According to a feature of the first method of the present invention the source of airflow includes a manually operable airflow generator configured to generate the required airflow from ambient air. Such an airflow generator can have a reversibly deformable compressible container and at least one air outlet. In order to operate such an airflow generator, the container is compressed, creating the required airflow.
According to a different feature of the first method of the present invention, the source of airflow includes a mechanical pump, such as is well known in the art.
According to a further feature of the first method of the present invention, the cassette has a partition dividing the interior volume into at least two separate chambers and on the partition is an openable region, sealed with a removable partition seal and where at least one of the chambers contains at least one component of a drug. According to a feature of the invention, the partition seal is removed by the act of connecting the airflow source.
According to a still further feature of the first method of the present invention, the cassette is placed within a reusable holder for use.
According to a still further feature of the first method of the present invention, an aerosol jet is attached to the second opening so that the drug exiting the cassette through the second opening is made into an aerosol. The aerosol jet is either removably attached or permanently fixed.
According to a still further feature of the first method of the present invention, a drug delivery tube is connected on one end to the second opening and the other end of the tube is inserted into whatever bodily orifice it is required to deliver the drag. It is clear that the tube is designed in accordance with the nature of the drag and the identity and size of the bodily orifice into which it is inserted. When present, the drag delivery tube is either removably attached or permanently fixed.
According to a still further feature of the first method of the present invention, either the first opening or the second opening or both are sealed with removable seals. It is clear that to perform all steps of the first method of the present invention it is necessary to remove the opening seals.
There is also provided according to the teachings of the present invention a second method for the removal of a fluid (such as blood, mucous, pus and other secretions for example, for therapeutic or diagnostic purposes) from a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.) by: (a) providing a cassette having a first opening, a second opening and an interior volume, the cassette configured to produce suction at the second opening when suction is applied to the first opening. The cassette is configured so that the suction at the second opening causes removal of fluid from the bodily orifice into the internal volume; (b) applying suction to the first opening; (c) removing fluids from the bodily orifice.
According to a feature of the second method of the present invention the source of suction at the first opening includes a manually operable airflow generator configured to generate the required suction. Such an airflow generator can have a reversibly deformable compressible container. In order to operate such an airflow generator, the container is compressed. When released, the container expands generating, the required suction.
According to a different feature of the second method of the present invention, the source of suction at the first opening includes a mechanical pump, for example, a household vacuum cleaner.
According to a still further feature of the second method of the present invention, the cassette is placed within a reusable holder for use.
According to a still further feature of the second method of the present invention, a suction tube is connected on one end to the second opening and the other end of the tube is inserted into whatever bodily orifice sction is required. It is clear that the tube is designed in accordance with the identity and size of the bodily orifice into which it is inserted. When present, the suction tube is either removably attached or permanently fixed.
According to a still further feature of the second method of the present invention, the fluids removed are retained inside of the cassette and the cassette with the fluids therein is discarded.
According to a still further feature of the second method of the present invention, either the first opening or the second opening or both are sealed with removable seals. It is clear that to perform all steps of the first method of the present invention it is necessary to remove the opening seals.
The opening seal of the first opening can be configured to be manually removable or to be automatically removed when the cassette is attached to a source of air. The opening seal of the second opening can be configured to be manually removable or removable by the action of excess air pressure in the interior volume of the cassette when air is allowed to flow therein.
According to a still further feature of the second method of the present invention, there is an air-pressure actuated valve covering the second opening. In such a case, escape of the contents of the cassette is prevented by the valve. When the airflow is actuated, the valve is configured to open in the appropriate fashion to allow proper functioning of the device.
There is also provided according to the teachings of the present invention a method of easing breathing of a patient having nasal congestion by: (a) providing a cassette having a first opening, a second opening and an interior volume, wherein: i) the cassette is configured so that air flowing from the first opening, through the interior volume and out through said second opening causes delivery of a drag confined within the internal volume via the second opening; and wherein ii) the cassette is further configured to produce suction at the second opening when air is evacuated from the cassette through the first opening, so that the suction draws fluid into the internal volume via the second opening; (b) placing the second opening in proximity of a nasal cavity of the patient; (c) causing air to flow through the internal volume via the first opening and outward from the internal volume via the second opening towards a bodily orifice of a patient such that delivery of a drag is accomplished. If the drag is an aqueous saline solution, this renders any mucous that congests the nasal passages more fluid and easier to remove. Subsequently, air is evacuated through the first opening, causing suction at the second opening which is used to remove the fluid causing the nasal congestion.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention is herein described, by way of example only, with reference to the accompanying drawings. With specific reference now to the figures in detail, it is stressed
that the particulars shown are by way of example and for purposes of illustrative discussion of the preferred embodiments of the present invention only, and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the invention. In this regard, no attempt is made to show structural details of the invention in more detail than is necessary for a fundamental understanding of the invention, the description taken with the drawings making apparent to those skilled in the art how the several forms of the invention may be embodied in practice.
In the drawings: FIG. 1 is a side view of an airflow generator according to the present invention;
FIG. 2 is a side view of the airflow generator of figure 1 in a collapsed state; FIG. 3 is a transparent view of a disposable cassette according to the present invention; FIG. 4 shows insertion of a disposable cassette of the present invention in a re-usable holder according to the present invention; FIGS. 5a and 5b depict opening of an openable region according to the present invention;
FIGS. 6a and 6b depict opening of an openable region according to an alternate preferred embodiment of the present invention;
FIGS. 7a, 7b, and 7c show details of one preferred embodiment of an openable region and a mechanism for opening same according to the present invention;
FIG. 8 is schematic diagram of a device according to the present invention configured for aerosol delivery of a drug;
FIG. 9 is a cut away view of a suction tube according to the present invention; FIG. 10 is a side view of a device according to the present invention configured for suction of samples or unwanted secretions from a bodily orifice; and
FIG. 11 is a view in perspective of an embodiment of a device of the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is of a device and of methods for using the device. The present invention can be used to both deliver a drug as an aerosol, a liquid, a gas or a dry powder and to hygienically remove fluid samples and secretions from the body of the patient. Specifically, the invention is useful for the delivery of substances, such as drugs and other medicaments, through
a bodily orifice (mouth, nose, ear, eye, rectum, vagina, et al.) and removal of samples or unwanted secretions therefrom.
The principles and operation of a device and of methods for using the device according to the present invention may be better understood with reference to the drawings and accompanying descriptions.
Before explaining at least one embodiment of the invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments or of being practiced or carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein is for the purpose of description and should not be regarded as limiting.
For purposes of this specification and the accompanying claims, the term "drug" refers to any material that is delivered for prophylactic or therapeutic purposes. The term drug therefore specifically includes, but is not limited to, water, saline solutions, vasoconstrictors, antihistamines, steroid compounds, decongestants, aroma-therapy agents, plant extracts, oils, anti-inflammatory compounds and antibiotics as well as any combination thereof. A drug may take many physical forms, including but not limited to, a liquid, a powder, a gel, an emulsion, a gas, and a solid. It will be appreciated that those solids that have a high vapor pressure at room temperature, i.e. those which tend to sublimate, are more suited for use as a drug in the context of the present invention than those solids with a low vapor pressure at room temperature.
For purposes of this specification and the accompanying claims, the term "patient" refers to any person or animal using the device of, or practicing a method of, the present invention.
Referring now to the drawings, a narrative description of the component parts of a device 20, and their workings, will be presented. As an example, device 20 described is specifically configured for the treatment of upper airways, typically accessible through the mouth or nose of the patient. For treatments that require access through other bodily orifices, a suitable modified device, operating in a substantially similar way is provided. The necessary modifications are clear to one skilled in the art.
Device 20 for upper airway treatment (figure 8) includes a disposable cassette 30 (figure 3) having a first opening 32 or 67, a second opening 34 or 67 and an interior volume 36. In some cases, one first and second opening may be used for delivery of a drug (e.g. 32 and 34) as an aerosol, a liquid, a gas or a dry powder and a second first and second opening may be used for suction of samples or unwanted secretions from a bodily orifice (e.g. pair of 67). Cassette 30
typically is supplied as a sealed unit containing a pre-measured dose of a drug. In order to reduce risk of infection during use, cassette 30 is often supplied in a sterile wrapper that serves also to seal openings 32, 34, and 67 prior to use. This insures that the pre-measured dose of drug remains in cassette 30. Alternatively or additionally, each of openings 32, 34, and 67 may be sealed with an openable region and perforations as described hereinbelow for partitions 40 and 41. Alternatively or additionally, mechanism 64 (see Figure 4) for opening may seal one or more of holes 32, 34, and 67. Alternatively or additionally, mechanism 64 for opening may be employed to break a seal on one or more of holes 32, 34, and 67. Alternatively or additionally, valves 88 or 90 may be employed to break a seal on one or more of holes 32, 34, and 67 as cassette 30 is connected to airflow generator 80.
Cassette 30 is connectable to an airflow generator 80 (figures 1, 2, 8 and 10) by means of first opening 32 or 67. Airflow generator 80 is manually operable and relies upon ambient air to create a flow of air. Compression of a compressible elastic container 82 causes the flow 54 of air to be in a first direction, outwards via outlet valve 88. When cassette 30 is attached to airflow generator 80 during compression, this causes airflow 54 through interior volume 36 of cassette 30 via first opening (e.g. 32, as pictured in figure 3) allowing delivery of a drag through second opening 34 as an aerosol, as a liquid, a gas or as a dry powder.
Subsequent expansion of compressible elastic container 82 causes the flow 56 of air to be in a second direction, inwards via intake valve 90. If cassette 30 is connected to valve 90 during this expansion, airflow will be in a second direction 56, facilitating suction of samples or secretions from a bodily orifice. Although pictured as separate valves, valves 88 and 90 may be a single variable direction valve according to some embodiments of the invention. According to some preferred embodiments, valve 90 takes in air only when external pressure is applied, for example by a finger or by spring holders 83. According to preferred embodiments of the present invention, airflow generator 80 may include a flattened cassette-accommodating portion 79. According to additional preferred embodiments of the present invention, airflow generator 80 may be equipped with one or more springs 85. These may be either externally mounted on mounting arms 81 containing spring holders 83 or inside elastic container 82. Compressible elastic container 82 may be divided into an elastic portion 84 and an inelastic portion 86. Elastic portion 84 may be strengthened by rigid rings 92.
When airflow generator 80 is connected to disposable cassette 30, it is capable of generating a flow of air through disposable cassette 30 in at least two directions. This means that delivery of a drag residing in internal volume 36 of cassette 30 as an aerosol, a liquid, a gas
or a dry powder may be accomplished if the flow of air is in a first direction into internal volume 36 of cassette 30 via a first opening (e.g. 32) and outward from the internal volume via a second opening (e.g. 34) towards a bodily orifice of a patient. Further, suction of fluid samples or secretions may be accomplished if the flow of air is in a second direction into internal volume 36 of cassette 30 via a first opening (for example 32, 34 or 67) and outward from internal volume 36 via a second opening (for example 32, 34 or 67) towards the airflow generator. Openings (for example 32, 34 or 67) may be covered, for example by a finger, during use of device 20 for suction.
In a not-illustrated embodiment of the present invention, the airflow is generated remote from cassette 30, by any one of the methods known to one skilled in the art and directed into the first opening 32 or 67 of cassette 30. The operation of such an embodiment is, in analogy to an embodiment equipped with airflow generator 80, clear to one skilled in the art and is therefore not discussed further in detail. It is clear to one skilled in the art that such an embodiment may require that means for regulation of the rate and direction of the airflow be part of the embodiment.
According to some preferred embodiments, device 20 further includes a re-usable holder 58 (figures 4, 5a, 5b, 6a and 6b) for cassette 30. Holder 58 may be supplied either as a separate unit, or constructed as an integral portion of airflow generator 80, or supplied with cassette 30 inside. Flolder 58 has fixed sides 53 and may have an openable top 57, at least one openable side 59, or both. Openable top 57 and side 59 may be equipped with, for example, hinges 61 in order to facilitate opening of holder 58. Re-usable holder 58 may be equipped with a mechanism for opening the openable region.
According to some preferred embodiments, cassette 30 may further include at least one partition (two are pictured 40 and 42) dividing interior volume 36 into at least two chambers (three are pictured 44, 46 and 48). Each partition (40 and 42) includes therein an openable region 52 (figures 7a and 7b). Perforations 50 may surround at least a portion of each openable region 52 in partition (40 and 42) such that opening thereof is facilitated by perforations 50. In some cases, a mechanism for opening 64 openable region 40 and 42 is further provided. In other cases, increased air pressure in cassette 30 may be used to open openable region 52. Mechanism for opening 64 may include, for example, (Figure 7c) a moveable plate 66 capable of translational motion along rails 68 within interior 36 of cassette 30 (figure 7c). As shown in figures 5a and 5b, translational motion of moveable plate 66, for example by pressing on a widened end 63 of a piston protruding from holder 58, causes openable region 52 to be
opened by breaking perforations 50. This creates channels of fluid communication between chambers 44, 46, and 48 of interior 36 of cassette 30. This fluid communication may facilitate, for example, mixing of components of a drag to be delivered as an aerosol, as a liquid, or as a gas as air flows through interior 36. Alternatively, or additionally, mechanism for opening 64 (dashed oval) may include
(figures 4, 6a and 6b), for example, pistons 72 having widened ends 63 and being moveable against spring tension of springs 70. Pistons 72 move within holes 67 ends thereof 71 are capable of contacting openable regions 52 and opening them by breaking perforations 50.
Device 20 may further include additional features, including but not limited to, an aerosol jet 60 (figure 8) connectable to second opening 34 of cassette 30. Aerosol jet 60 is capable of delivering the drug as a plurality of micro-droplets. Aerosol jet 60 may discharge into a spacer, such as an aerosol cloud enhancer and face mask (e.g. one produced by DHD Health Care Corporation, Canastota, NY, USA or DEY, Napa, CA, USA), or to any tube used for endoscopy (e.g. bronchoscope, gastroscope). Device 20 may further include additional features, including but not limited to, a suction tube 62 (figures 9 and 10) connectable to an opening (for example 32, 34 or 67) of cassette 30 via widened end 104 and insertable into a bodily orifice of a patient (mouth, nose, ear, eye, rectum, vagina, et al.) for removal of samples or secretions therefrom via end 108.
The present invention is further embodied by a method for delivery of a drag as an aerosol, as a liquid, a gas or as a dry powder. The method includes at least two steps. The first step includes connecting a source of airflow, such as airflow generator 80, to disposable cassette 30 via first opening 32 of cassette 30. Cassette 30 includes first opening 32, second opening 34 and interior volume 36. The second step includes causing air to flow into internal volume 36 of cassette 30 via first opening 32 and outward from internal volume 36 via second opening 34 towards a bodily orifice of a patient. In this way, delivery of a drag residing in internal volume 36 of cassette 30 as an aerosol, as a liquid, a gas or as a dry powder is accomplished. Airflow generator 80 is manually operable and relies upon ambient air to create a flow of air. Airflow generator 80 can be, for example, a compressible elastic container 82 (as described hereinabove) such that the step of causing air to flow into internal volume 36 of cassette 30 is effected by compression of elastic container 82. According to some preferred embodiments, the method includes the additional step of placing cassette 30 within a re-usable holder 58.
According to some preferred embodiments, the method includes an additional step of providing additional items associated with cassette 30. These items may include, but are not
limited to, at least one partition (40 or 42) dividing interior volume 36 into at least two chambers (44, 46, and 48) and an openable region 52 in each of partitions (40 or 42). At least one of the chambers (44, 46, and 48) contains at least one component of the drag. Alternatively, the drag may have several components, each component being stored separately in chambers 44, 46, and 48 and mixed after opening of openable regions 52 in partitions 40 and 42. In some cases, perforations 50 surrounding a portion of openable region 52 in each partition (40 or 42) such that opening thereof is facilitated by perforations 50. In some cases the method further includes an additional step which includes opening openable region 52 by means of mechanism for opening 64 openable region 52 as described hereinabove. According to some preferred embodiments, the method includes the additional step of aerosolizing the drug to form a plurality of micro-droplets. This step may be accomplished, for example, by means of an aerosol jet 60 connected to second opening 34 of cassette 30. Aerosol jet 60 may be one of many commercially available devices, for example a Microsprayer™ (PennCentury, Inc., Philadelphia, PA, USA). The present invention is further embodied by a method for removal of fluid samples or secretions from a bodily orifice through suction. The method includes two steps. The first step includes connecting a source of airflow, such as airflow generator 80, to disposable cassette 30 via a first opening (for example 32, 34 or 67) of cassette 30. The second step includes causing air to flow into internal volume 36 of cassette 30 via a second opening (for example 32, 34 or 67) and outward from internal volume 36 via first opening (for example 32, 34 or 67) towards the source of the airflow or airflow generator 80. In this way, the suction of samples or unwanted secretions from a bodily orifice is accomplished and the samples or unwanted secretions accumulate in cassette 30. According to preferred embodiments of the present invention, airflow generator 80 is manually operable and relies upon ambient air to create a flow of air.
According to preferred embodiments of the invention, the method includes an additional step which includes drawing samples or unwanted secretions through a suction tube 62 (described hereinabove) connected to a second opening (for example 32, 34 or 67) of cassette 30 and inserted into a bodily orifice of a patient. Dimensions of cassette 30 are preferably within the following ranges although other sizes are within the scope of the invention: Height: 0.5 to 3 cm, more preferably 0.7 to 2 cm, most preferably approximately 1 cm.
Width:
0.5 to 3 cm, more preferably 0.7 to 2 cm, most preferably approximately 1 cm. Length:
0.5 to 7 cm, more preferably 1 to 5 cm, most preferably approximately 3 cm. The volume of air delivered by a single compression of elastic container 82 of airflow generator 80 is preferably in the range of 0.5 to 100 ml, more preferably 1 to 20 ml, still more preferably 2 to 4 ml, most preferably approximately 2.5 ml although other volumes are within the scope of the invention. It will be appreciated that similar volumes will be vacuumed into cassette 30 during practice of the disclosed method for suction of fluid samples or secretions from a bodily orifice.
In an additional embodiment of the present invention device 84, many of the important features of the invention can be seen. Device 84 is made up of a re-usable holder 86 with an integrated airflow generator 88. Cassette 90 is suspended over cutout 92 in holder 86. Once casette 90 is placed within cutout 92, mask 94 can be attached to second opening 96 of cassette 90 through nipple 98. Spare cassette 100 is held inside a specially designed port 102 of holder 86.
Although the invention has been described in conjunction with specific embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, it is intended to embrace all such alternatives, modifications and variations that fall within the spirit and broad scope of the appended claims.
All publications, patents and patent applications mentioned in this specification are herein incorporated in their entirety by reference into the specification, to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated herein by reference. In addition, citation or identification of any reference in this application shall not be construed as an admission that such reference is available as prior art to the present invention.