Preferably, said conduit is positioned between said inhalation/exhalation mask or mouthpiece and said connector for a drug delivery device or other device for the delivery of an aerosol, powder or gas. Preferably, the modular incentive inhaler device of the present invention further includes a spacer positioned between said inhalation/exhalation mask and said connector. More preferably, the modular incentive inhaler device of the present invention further includes a spacer positioned between said inhalation/exhalation mask or mouthpiece and said conduit, or alternatively, between said conduit and said connector.

GENERAL Those skilled in the art will be aware that the invention described herein is subject to variations and modifications other than those specifically described. It is to be understood that the invention described herein includes all such variations and

modifications. The invention also includes all such steps, features, compositions and compounds referred to or indicated in this specification, individually or collectively, and any and all combinations of any two or more of said steps or features.

Throughout this specification, unless the context 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.

BACKGROUND TO THE INVENTION A significant problem faced by the pharmaceutical industry is the need foi effective means for the delivery of drugs to infants and children, in particular drugs in the form of aerosols, powders or gases which are administered by inhalation. A suitable means for the delivery of anaesthetics, and many medicaments for the treatment of respiratory ailments such as asthma, to a patient in need of treatment, is by inhalation of the drug into the airways. To achieve the delivery of gases, powders and aerosols to patients'airways, a large number of different drug delivery means have been developed including, for example, gas-borne inhalers such as asthma pumps or Metered Dose Inhalers (MDI), dry powder inhalers, breath-activated inhalers and nebulisers.

However, therapeutic regimes for the administration of aerosols, powders or gases to infants and children are often sub-optimal, because of the difficulty which this group faces in using devices for their inhalation. The efficient delivery of air-borne drugs from standard inhalation devices requires the patient to time manual activation of a drug delivery device with inhalation of the drug released therefrom, generally by achieving a slow-flow deep inspiration and adequate breath-holding, which infants and small children often find difficult to achieve without considerable training. As a consequence, many drugs delivered from standard inhalation devices are not administered efficiently to infants and small children.

There is a clear need to foster correct breathing patterns in infants and small children who use conventional inhalation devices. The lack of guidance or an incentive or encouragement in the proper use of conventional inhalation devices, for example the incentive to breathe with a pattern of normal tidal breathing, rather than with shallow hyperventilation, is clearly a disadvantage associated with the present technology.

Moreover, small children and infants typically find standard inhalation devices frightening and, as a consequence, refuse to use them. Faced with strong resistance from children, many care-givers responsible for administering medication to children report a reluctance to offer air-borne drugs for use with standard inhalation devices on a regular basis. In addition, care-givers also report that even when attempted, the delivery of aerosol/gas medication to children is often sub-optimal because the child cries and/or forcibly removes the mask from their face before the medication is taken properly. inhalation devices have been described which employ some form of audio or visual warning or notification of the passage of inhaled air, to ensure that the pharmaceutical drug ejected from the drug delivery means actually reaches the patient. For example, United States Patent No. 4,984,158; Australian Patent No. 620375; Australian Patent No. 618789 ; United States Patent No. 5,042,467; United States Patent No. 5,363, 842; United States Patent No. 5,431,154 ; United States Patent No. 5,522,380 ; United Kingdom Patent Application No. 2 299 512A ; United States Patent No. 5,758, 638; French Patent Application No. 2 763 507A ; and international Patent Publication No. WO 94/44974 all describe such inhalation devices.

However, inhaler devices which merely provide for an audible or visual signal to monitor a correct breathing pattern or drug delivery do not generally utilise a signal that is both capable of simple interpretation by an infant or small child, without reference to medical personnel to determine whether or not the signal generated is appropriate, and further, comprise a signal that is sufficiently pleasant to provide an inducement for

their correct use by infants and small children. Accordingly, such devices do not address the significant problem of overcoming the fear which children and small infants have of medical devices or encourage this user group to use inhalation devices.

A further problem encountered with conventional signalling inhalation devices is that the device becomes contaminated through use, with residual medicament that is contained in exhaled air. Additionally, when inhalation devices are used interchangeably with different drug delivery sources or Midis to administer different chemical compounds, significant cross-contamination with the different chemical compounds may occur. Accordingly, a further object of the present invention is to provide an inhalation device that does not become easily contaminated with exhaled air/medicament mixtures and is kept cleaner than conventional signalling inhalation devices.

SUMMARY OF THE INVENTION In work leading up to the present invention, the inventors sought to develop an inhalation device that would provide an incentive to a child or small infant user as well as overcome the drug contamination problems associated with conventional devices.

The inventors realised that the signal provided by such a device must be both pleasant and provide a positive feedback to the user, in order to provide the requisite inducement. In general, devices which provide a negative feedback rather than a positive feedback to a child user, such as those which provide a visual or audible signal only during incorrect use, will not provide the necessary inducement. For example, United States Patent No. 5,042,467 describes a medication inhaler that includes an internal air-operated auditory warning device that generates a pleasant musical tone to alert a user that he/she is inhaling too vigorously or rapidly.

In this regard, the present invention motivates a child to inhale willingly and effectively by the use of one or more breath-driven (i. e. inhalation/exhalation-driven) incentive

toys attached to a conventional inhalation apparatus. In use, the reward enjoyed by the infant or small child is directly proportional to the efficiency of inhalation and the amount of medication administered to the patient. The modular incentive inhaler device of the present invention also fosters a correct breathing technique in the child, because shallow breathing, such as hyperventilation, is insufficient to adequately activate the incentive toys. By these means, asthmatic, emphysemic and other sick children/infants are effectively treated, and encouraged to overcome their fear and mistrust of inhalers and gas/aerosol/powder delivery devices.

In work leading up to the present invention, the inventors also realised that the mere attachment of toys to a conventional inhaler device, whilst providing an incentive to the juvenile user, did not overcome the further problem of contamination with the medicament contained in inhaled or exhaled air. The inventors overcame contamination of the incentive toy (s) with residual medicaments by the provision of removable filters between the incentive toys and those components comprising a conventional inhaler device. Moreover, the inventors also provided a means of minimising contamination of incentive toys with exhaled air by the inclusion of a filter between the mask and the toy containing module.

Accordingly, one aspect of the present invention provides an incentive inhaler device comprising: (i) an inhalation device comprising a mask or mouthpiece and a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; and (ii) one or more external visible and/or audible inhalation/exhalation-driven incentive toys, wherein each of said toys is separated from one or more components of said inhalation device (i) by one or more valves, filters or baffles to ensure directional flow of inhaled/exhaled air which drives said toys and/or filters to minimise the contaminating effects of drugs and/or condensation.

Preferably, said valves, filters or baffles that ensure directional air flow and/or filtration are positioned within a conduit that provides for the attachment of said inhalation/exhalation-driven incentive toy (s).

In a preferred embodiment, the present invention provides an incentive inhaler device comprising: (i) an inhalation device comprising a conduit that is operably connected at one end to a mask or mouthpiece and at the other end to a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas, wherein said conduit comprises one or more internal valves, filters or baffles to ensure directional flow of inhaled/exhaled air and/or to ensure proper filtration of exhaled or inhaled air; and (ii) one or more external visible and/or audible inhalation/exhalation-driven incentive toys, wherein each of said toys is operably connected to said conduit.

Preferably, the modular incentive inhaler device of the present invention further includes a spacer positioned between said inhalation/exhalation mask and said connector. More preferably, the spacer is positioned between said conduit and said connector. In an alternative embodiment, the spacer is positioned between said inhalation/exhalation mask or mouthpiece and said conduit.

A second aspect of the invention provides an incentive inhaler device comprising: (i) a mask; (ii) a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; (iii) two inhalation/exhalation-driven incentive toys; and (iv) a conduit, wherein said conduit comprises three adaptor ends that are connected separately to said mask, connector and incentive toys and wherein said conduit comprises a one-way valve in sealable engagement with the interior wall thereof positioned in the adaptor end that is in engagement with said connector the adaptor to ensure directional flow of inhaled air from the linkable drug delivery device, and wherein each of said incentive toys is separated from said connector by said one-

way valve. This aspect of the invention also provides for the option of a filter in one of the other adaptor ends of the conduit which minimises the contamination of incentive toys with particles, microbes and/or condensation present in exhaled air.

A third aspect of the invention provides an incentive inhaler device for administering anaesthetic comprising: (i) a mask; (ii) a drug delivery tube that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; (iii) one or more exhalation-driven incentive toys; and (iv) a conduit, wherein said conduit comprises three adaptor ends that are connected separately to said mask, drug delivery tube and incentive toys and wherein said conduit comprises a first one-way valve in sealing engagement with the interior wall of the adaptor juxtaposed to the incentive toys to prevent the flow of inhaled air from the incentive toys to the mask.

This aspect of the invention also provides for the option of a filter in one of the other adaptor ends of the conduit which minimises the contamination of incentive toys with particles, microbes and/or condensation present in exhaled air.

A fourth aspect of the invention provides a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas for use with an incentive inhaler device comprising : (i) an drug delivery receiving means comprising an aperture at one end to sealably-engage the drug delivery device such that minimum leakage and preferably, no leakage of the chemical compound or drug occurs between the connector and the drug delivery device linked thereto; and (ii) a threaded portion or snap-lock to releasably-and sealably-engage said connector to the mouthpiece or mask or other component to which said connector is connected or juxtaposed in the assembled incentive inhaler device.

A fifth aspect of the present invention provides a kit comprising two or more of the above connectors, wherein each of said connectors comprises a drug delivery receiving means having an aperture of different dimensions or shape and substantially

identical threaded portions or snap-locks such that they are capable of being releasably-and sealably-engaged with the same mouthpiece or mask or other component in the assembled incentive inhaler device.

A sixth aspect of the present invention provides a flexible adaptor end of the connector such that it renders the connector compatible with a variety of drug delivery devices.

A seventh aspect of the present invention provides a method of administering a inhalable medicament to an infant or child subject comprising activating, during the inhalation and/or exhalation phase of breathing of said subject, one or more external visible and/or audible inhalation/exhalation-driven incentive toys that are operably connected to an incentive inhalation device described herein according to any one or more of the embodiments described herein.

The above and other novel features of the present invention will be apparent from the following detailed description, and the accompanying examples and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a sectional view of one embodiment of the modular incentive inhaler device, wherein an inhalation-driven and an exhalation-driven incentive toy are positioned between the mask (6) and the linkable drug delivery device via a conduit.

Figure 2 is a sectional view of a further embodiment of the modular incentive inhaler device, wherein a single inhalation-driven incentive toy is positioned between the mask (6) and the linkable drug delivery device via a conduit.

Figure 3 is a sectional view of a further embodiment of the modular incentive inhaler device, wherein a single exhalation-driven incentive toy is positioned between the mask (6) and the linkable drug delivery device via a conduit.

Figure 4 is a sectional view of a further embodiment of the modular incentive inhaler device, wherein two inhalation-driven incentive toys are positioned between the mask (6) and the linkable drug delivery device via a conduit.

Figure 5 is a sectional view of a further embodiment of the modular incentive inhaler device, wherein two exhalation-driven incentive toys are positioned between the mask (6) and the linkable drug delivery device via a conduit.

Figure 6 is a sectional view of a further embodiment of the modular incentive inhaler device, wherein an inhalation-driven and an exhalation-driven incentive toy are positioned between the mask (6) and a drug delivery tube (60) via a conduit.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One aspect of the present invention provides an incentive inhaler device comprising: (i) an inhalation device comprising a mask or mouthpiece and a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; and (ii) one or more external visible and/or audible inhalation/exhalation-driven incentive toys, wherein each of said toys is separated from one or more components of said inhalation device (i) by one or more valves, filters or baffles to ensure directional flow of inhaled/exhaled air which drives said toys and/or to ensure filtration of exhaled air.

Preferably, said valves, filters or baffles that ensure directional air flow air are positioned within a conduit that provides for the attachment of said inhalation/exhalation-driven incentive toy (s).

More preferably, the valve employed in the present invention is a one-way valve. The one-way valves used in the present invention are preferably butterfly valves or, in the case of those devices wherein the valve further provides for venting of exhaled

air/medicament mixtures (see Examples 2 and 4 described herein), a flap-type valve can be used, such as that described in United States Patent No. 4,470,412 and/or Australian Patent No. 620375.

As used herein, the terms"inhaler device","inhalation device"or similar term shall be taken to refer to a device or apparatus that is suitable for use as an inhaler to administer a chemical compound or drug, or a medicament, pharmaceutical composition, adjuvant, vaccine, antifungal composition, antibacterial composition, antiviral composition or other composition of matter comprising said chemical compound or drug including anaesthetics, in the form of a gas, powder or aerosol to the respiratory system of a human or anima subject by oral inhalation.

The term"incentive inhaler device"refers to an inhaler device as defined herein that encourages a user or a group of users to employ said inhaler device in the self-delivery of one or more compounds or drugs or compositions of matter comprising same. The term"incentive inhaler device"extends further to those inhaler devices that both encourage a user or group of users and provide for improved efficiency of self-delivery of the compounds or drugs or compositions of matter comprising same. By"self- delivery"is meant that the user or group of users administers said compounds or drugs or compositions of matter to their own respiratory system by voluntary inhalation thereof.

The present invention is not to be limited by the material used to construct any one or more of the components thereof and persons skilled in the art will be aware of a range of materials suitable for use in constructing the subject incentive inhaler device, including rubber, metals, synthetic polymers, in particular a plastic such as polycarbonate, polyvinyl chloride, polyvinyl acetate or elastomer, amongst others.

Additionally, for those applications wherein the user is a child or infant, the unit is optionally designed to avoid sharp edges that may injure the child or infant in use.

The mask or mouthpiece is preferably comprised of rubber and/or plastic material and may be any functional shape or configuration known to those skilled in the art, including a tube, nasal tube, catheter, or mask, that is capable of providing delivery of a gas, powder or aerosol to the respiratory system of a human or animal subject.

Preferably, the incentive inhaler device of the present invention at least comprises a mask. Advantageously, the mask is moulded from rubber or plastic, preferably flexible plastic or rubber, and adapted to conform to the face of the user, for example the face of a human infant or small child, such that said mask fits over the nose and mouth of said user and is in sealing contact with said face. As exemplified herein, it is particularly preferred that the mask comprises a substantially frustoconical portion that is flanged at the open base to receive a flexible rubber or plastic gasket that in use is secured in pneumatically-sealed relation to the face of the user. Preferably, the mask is transparent or translucent to minimise potential fear associated with having an opaque object brought to a child's face.

The connector may comprise a plate or a hollowed cylindrical or other-shaped metal or plastic unit that includes a drug delivery device receiving means comprising an aperture at one end to sealably-engage the drug delivery device, such that minimum leakage and preferably, no leakage of the chemical compound or drug occurs between the connector and the drug delivery device linked thereto. Accordingly, the aperture of the drug delivery device receiving means is designed to precisely receive the dispensing end of the drug delivery device.

The term"sealably-engage"or similar term shall be taken to mean that two components are engaged, connected or juxtaposed in the assembled or partially- assembled incentive inhaler device of the present invention in a manner to prevent the escape of the drug or medicament at a level sufficient to prevent inhalation/exhalation- driven activation of one or more incentive toys of said device or to impair drug delivery

to the patient.

As used herein, the"dispensing end"of the drug delivery device refers to the portal or end of the drug delivery device from which the drug or medicament is ejected into the incentive inhaler device or, in the absence of the inventive device, the portal or end from which the drug or medicament is ejected from the drug delivery device into the environment of the patient's respiratory system.

As will be known to those skilled in the art, the shape of the dispensing end of a drug delivery device may vary considerably. Advantageously, the present invention provides for the insertion of a range of different connectors suitable for use with drug delivery devices having differently-shaped dispensing ends. According to this embodiment, releasable engagement of the drug delivery device to the drug delivery device receiving means permits re-use of the incentive inhaler device, by virtue of having drug delivery device receiving means that vary in shape and size and, as a consequence, accommodate different-shaped and/or different-sized drug delivery device dispensing ends.

Methods for releasably-engaging such components together are known in the art and include, for example, screwing, clipping, sliding, etc.

Alternatively, the receiving means may also be constructed in such a manner that enables it to transform in size and shape to fit a number of drug delivery devices. For example, the drug delivery device receiving means may be formed from a stretchable or flexible material which can distort to cover the drug delivery device dispensing end.

Alternatively, the receiving means may also be adapted to receive a plurality of drug delivery device dispensing ends. For example, a single connector may possess a plurality of different shaped or sized drug delivery device receiving means. Such a connector may be used to deliver more than one medicament to the inhaler device of

the present invention.

Preferably, the connector according to this embodiment comprises: (i) an aperture at one end to sealably-engage the drug delivery device such that minimal leakage of the chemical compound or drug occurs between the connector and the drug delivery device linked thereto; and (ii) a threaded portion or snap-lock to releasably-and sealably-engage said connector to the mouthpiece or mask or other component to which said connector is connected or juxtaposed in the assembled incentive inhaler device of the present invention as described herein.

Preferably, the connector comprises a male or female threaded portion that screws into an opposing female or male threaded portion, respectively, in the component to which said connector is juxtaposed in the assembled incentive inhaler device of the present invention.

The drug delivery device may be any device known to those skilled in the art for dispensing a medicament or chemical or a composition comprising same in gas, aerosol or powder form, including but not limited to an anti-inflammatory compound, a synthetic or natural steroid (eg a corticosteroid), a bronchodilator, a vasodilator, a homoeopathic medicine, an antihistamine, an antibiotic, a cough mixture, a tranquilliser, an anaesthetic, or an adrenergic receptor agonist or antagonist such as a beta-agonist or beta-blocker, a therapeutic gas such as oxygen, nitrogen dioxide, nitrous oxide or a gaseous mixture such as air or Entonox, amongst others, or a combination of one or more of said drugs. The present invention is not to be limited by the nature of the compound dispensed from the drug delivery device, the only requirement being that said drug is administrable to a patient in need of treatment by means of inhalation.

Preferably, the drug delivery device is a Metered-dose inhaler (MDI). Hand-held MDI

devices are a preferred form of treatment for common respiratory ailments, because the delivery of medication directly to its intended site of action in the respiratory system of the patient allows a reduction in the dosage administered.

Optionally, the present invention may also include a means for enclosing the drug delivery device. For example, where the drug delivery device is an asthma pump, the present invention optionally includes a sealing means that covers at least part of said drug delivery device. Alternatively, as exemplified in Figure 6 incorporated herein, a rubber sleeve may cover the drug delivery device, which sleeve may incorporate designs/colours and/or toys that are capable of distorting upon inhalation and/or exhalation, to reduce leakage of a medicarnent via the MDI cylinder housing and/or to improve the function of inhalation/driven incentive toys.

The incentive toy of the incentive inhaler device of the present invention may be any toy that is capable of being activated by inhalation and/or exhalation, the only requirements being that said toy provides a sufficient stimulus to a child or infant user to motivate said user to inhale willingly and effectively through the incentive inhaler device, particularly when said device is in operable engagement with a drug delivery device.

As used herein, a"toy"is any device capable of giving amusement to a user thereof and, in particular, a device that produces an audible and/or a visual signal, such as a siren, flashing light or colour, or movement, amongst others.

In the context of the present invention, the term"incentive toy"refers to a toy as defined herein that, by virtue of the quality of the audible and/or a visual signal produced therefrom, is capable of inducing a child or infant user to repeated use thereof.

Any type of inhalation and/or exhalation-driven incentive toy (s) may be used in the

present invention. For example, the toy may be a whistle or it may be contained in a modular or injection moulded unit which permits fluid activation. Such a unit might, for example, contain an air driven device including (but not limited to) pneumatic tops, wheels, jack-in-the-boxes, propellers, bubble-blowers, rotating figures, spinning discs, kaleidoscopes and toys incorporating objects floating on or driven by air.

In a particularly preferred embodiment of the present invention, the incentive toy is a coloured spinning disc, such as a spinning disc containing a colourful representation of a clown.

Alternatively or in addition, the particularly preferred embodiment of the present invention employs a whistle, more preferably a detachable whistle that permits the two- way passage of air however is activated unidirectionally, such that activation of the whistle by either inhalation or exhalation is effected by reversing the direction of attachment of said whistle to the incentive inhaler device. Whistles conforming to this specification are well-known in the art, such as the Sirenen produced by Heuler (Germany). Alternatively or in addition, bi-directional whistles which are activated both on inhalation and exhalation may be used.

Inhalation and/or exhalation-driven incentive toy (s) may be located anywhere in the incentive inhaler device of the present invention, the only requirements being that they are operationally separated therefrom by one or more one-way valves and/or filters and activated by exhalation or inhalation. The purpose of this arrangement is to ensure directional flow of air and medicament through or around the incentive toy during the exhalation or inhalation phase of breathing, as appropriate, and/or to ensure that any exhaled air/medicament mixture is kept away from the incentive toys to reduce contamination therewith. For example, the incentive toys may be placed in operable association with the mask or mouthpiece and/or the connector and/or the drug delivery device receiving means. The incentive toy (s) may also be placed in operable association with a spacer member if it is included in the arrangement.

When an inhalation-driven incentive toy is connected to the incentive inhaler device of the present invention, air containing the medicament is drawn through or past the inhalation-driven incentive toy thereby activating it whereupon it may be inhaled with medicament.

The device of the present invention according to the above embodiments can also include a valve between the conduit and the connector (which adjoins via an optional spacer to the drug delivery means), to ensure that exhaled air is not blown back through the connector and/or toy modules.

Alternatively or in addition, a replaceable filter can be placed in the conduit, between the mask and the incentive toys, to minimise the contamination from microbes, condensation and/or particles in exhaled air.

In an alternative embodiment, air containing the medicament may be inhaled through a parallel arrangement of conduits which are operationally connected to the incentive inhalation device to ensure drug delivery as said incentive inhalation device is activated. In such an example, the inhaled air travels past the inhalation-driven incentive toy however does not mix with or come in contact with the air containing the medicament until it enters the patient's airways. This embodiment of the present invention is also compatible with the provision of valves and/or filters to ensure that the exhaled air is not blown back through the connector/spacer module and/or that the device become contaminated.

In a further alternative embodiment of the present invention, inhalation-driven incentive toys can be electrically-activated, such that the level of activation of the toy is proportionally linked to the amount of air containing the medicament that is inhaled by the patient.

Wherein an exhalation-driven incentive toy is employed, exhaled air is preferably

channelled through or past the exhalation-driven incentive toy thereby activating it before being vented from the device. It will be appreciated that some embodiments described above for activation of an inhalation-driven toy may likewise be employed with an exhalation-driven toy.

When the toy is driven by both the inhalation and exhalation of air, air is preferably drawn into the device through or past an inhalation-driven incentive toy and enters the inhalation device in conjunction with medicament dispensed from the drug delivery device that is in engagement with the incentive inhalation device of the present invention. Upon exhalation, fluid in the form of expired air is exhaled through or past the exhalation-driven incentive toy before being vented from the device.

In one embodiment of the present invention, the incentive inhaler device includes a single inhalation-driven incentive toy. According to this embodiment, said incentive inhaler device can include one or more means to exhale air through the mask or mouthpiece or alternatively, it may need to be removed from the patient's face prior to exhaling.

Preferably, exhaled air containing medicament can be exhaled through the device by either blowing it into the mask or mouthpiece, where it is subsequently vented from the incentive inhaler device via the drug delivery device (depending on the type of drug delivery device used), or via the incentive toy unit or, if the drug delivery device is a sealed unit through which exhaled fluid may not pass, the exhaled air containing medicament may be vented from said device via one or more apertures formed therein. Accordingly, the present invention clearly contemplates an incentive inhaler device having separate exhaust tubes for venting exhaled air containing the medicament.

In a particularly preferred embodiment of the present invention, the exhaled air containing the medicament is exhaled through the device by either blowing it into the

mask or mouthpiece, where it is subsequently vented from the incentive inhaler device via the incentive toy unit, wherein said toy unit is also activated by the exhaled air. In such cases, a filter can be placed between the mask and the incentive toy module to minimise contamination.

In a further alternative embodiment of the present invention, the incentive inhaler device can include a single exhalation-driven incentive toy. Where the spacer device only includes such a toy, a means through which fluid can be inhaled may or may not be provided. Desirably the device contains a means for inhalation. This may be achieved, for example, through the exhalation-driven incentive toy unit or through an alternative route provided in the spacer device. For example, fluid in the form of air may be drawn through the drug delivery service (depending on the type of drug delivery device used) into the spacer member or if delivery device is sealed, fluid may be drawn through one or more apertures provided in the spacer member. In another embodiment the device may contain separate inhalation conduits.

In use, medicament is released into the incentive inhaler device via the connector and is contained therein and/or is released into the mask or mouthpiece. In the case of medicaments comprising powders, those skilled in the art will be aware that is possible for such medicaments to be released directly into the mask or mouthpiece for inhalation by the patient. The patient inhales the medicament by drawing air containing said medicament through the mask or mouthpiece via the connector or an inhalation aperture. Upon exhaling, the patient blows expired air into the incentive inhaler device which directly or indirectly leads to the activation of the exhalation-driven incentive toy therein causing activity in said toy (eg. in the form of a sound in the case of a whistle or in the form of movement in most other pneumatic activated toys). In such cases, a filter can be placed between the mask and the incentive toy module, to minimise contamination.

The present invention is not be limited to the use of a single inhalation-and/or

exhalation-driven incentive toy and the present invention clearly contemplates a plurality of inhalation-and/or exhalation-driven incentive toys in association with the incentive inhaler device, as exemplified herein. Wherein the incentive inhaler device does contain a plurality of different inhalation-and/or exhalation-driven incentive toys, these may be arranged such as to be activated simultaneously upon inhalation and/or exhalation or alternatively, they may act independently of each other such that one or more toys is activated by inhalation and the other toy (s) is (are) activated by exhalation.

Preferably, wherein multiple incentive toys are employed, said toys are arranged in such a manner as to indicate the breathing pattern of the patient using the incentive inhaler device. For example, the inhalation and/or exhalation-driven incentive toys may be whistles, one of which activates when medicament is being inhaled and then another upon exhalation. Alternatively, a different toy unit may be employed during the inhalation phase of breathing to that which is employed during the exhalation phase.

In the particularly preferred embodiment of the present invention, the incentive toys comprise both whistles and spinning discs arranged such that the whistle is activated by either inhalation or exhalation, depending upon its orientation and the spinning disc is activated by exhalation. Accordingly, this embodiment of the present invention provides for both toys to be activated by inhalation or alternatively, for the whistle to be activated by the inhalation and the spinning disc to be activated by exhalation.

Preferably the spacer device has both an inhalation-driven incentive toy and an exhalation-driven incentive toy connected to the spacer member via a single conduit through which inhaled and exhaled gases may flow.

The directional control of airflow through the incentive inhaler device is achieved by using a one-way valve. Wherein the one-way valve is used in conjunction with an inhalation-driven incentive toy, it is preferred that said one-way valve allows entry of inhaled air containing the medicament from the drug delivery means and past or

through the incentive toy, whilst retarding the free flow of air in the other direction (i. e. back into the drug delivery means). Wherein the one-way valve is used in conjunction with an exhalation-driven incentive toy, it is preferred that said one-way valve allows the venting of exhaled air containing the medicament from the incentive drug delivery means past or through the incentive toy unit, whilst retarding the free flow of air in the other direction. Preferably, more than a single one-way valve is employed. Preferably one or more baffles or filters is also included between the mask and the incentive toy module, to minimise contamination.

The one way valve (s) is (are) preferably contained within a conduit located between the mask or mouthpiece and the connector. Accordingly a further aspect of the present invention provides an incentive inhaler device comprising: (i) an inhalation device comprising a conduit that is operably connected at one end to a mask or mouthpiece and at the other end to a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas, wherein said conduit comprises one or more internal valves, filters or baffles to ensure directional flow of inhaled/exhaled air and/or filtration of exhaled air; and (ii) one or more external visible and/or audible inhalation/exhalation-driven incentive toys, wherein each of said toys is operably connected to said conduit.

The conduit must be in sealable engagement with both the mouthpiece and the connector, to prevent the leakage of air from the incentive inhaler device. Preferably, the conduit is made of rigid plastic or rubber material and of cylindrical or conical shape.

In a particularly preferred embodiment, the conduit comprises at least three adaptor ends for connection of the mask or mouthpiece, the connector and one or more incentive toy units. According to this embodiment, the one-way valve is positioned within said conduit in sealable engagement with the interior wall thereof at or within any

one or more of said adaptor ends. For example, a one-way valve can be placed within said conduit in sealable engagement therewith and at or within the adaptor end that connects to the connector, such that medicament or air/medicament mixture can be drawn into the mask or mouthpiece from the drug delivery means but not in the opposite direction. Alternatively or in addition, the one-way valve can be placed within said conduit in sealable engagement therewith and at or within the adaptor end that connects to the mask or mouthpiece, such that medicament or air/medicament mixture can be drawn into the mask or mouthpiece from the conduit but not in the opposite direction, in which case the exhalation phase must accompany removal of the mask or mouthpiece from the patient's face or airway. Alternatively or in addition, the one- way valve can be placed within said conduit in sealable engagement therewith and at or within the adaptor end that connects to the incentive toy unit, such that, in the case of an inhalation-driven incentive toy unit, air can be drawn over said incentive toy unit and into the mask or mouthpiece via the conduit but not in the opposite direction and, in the case of an exhalation-driven incentive toy unit, exhaled air can pass through or over said toy unit from the mask or mouthpiece but not in the opposite direction.

Wherein the one-way valve is positioned within the conduit in the adaptor end that is in engagement with the incentive toy, said valve can further serve to prevent the patient from re-breathing the exhausted air/medicament mixture. Without limiting the present invention, this embodiment is particularly useful in applications of the present invention to the delivery of anaesthetics.

The present invention clearly provides for the attachment of one or more incentive toy units to the same or different adaptor ends of the conduit. Preferably, wherein multiple toy units are in operable engagement with the same adaptor end of the conduit, these are in linear engagement with each other. In a particularly preferred embodiment of the present invention, two incentive toys are linked in linear engagement with each other such that one toy unit is activated by inhalation and one or both toy units are activated by exhalation.

The present invention also provides for the attachment of a filter between the mask and the incentive toy module, to minimise contamination As will be apparent to those skilled in the art, wherein the toy unit is activated by both inhalation and exhalation or alternatively, wherein multiple toy units are linked via the same conduit adaptor end in linear engagement such that they are collectively or individually activated by both breathing phases, it is inappropriate to include a one-way valve at or within the adaptor end of the conduit that connects to the incentive toy unit.

In a particularly preferred embodiment of the present invention, there is provided an incentive inhaler device comprising: (i) a mask; (ii) a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; (iii) two inhalation/exhalation-driven incentive toys comprising an inhalation/exhalation-driven whistle and an exhalation-driven spinning disc; and (iv) a conduit, wherein said conduit comprises three adaptor ends that are connected separately to said mask, connector and incentive toys and wherein said conduit comprises a one-way valve in sealable engagement with the interior wall thereof positioned in the adaptor end that is in engagement with said connector the adaptor to ensure directional flow of inhaled air from the linkable drug delivery device, wherein each of said incentive toys is separated from said connector by said one-way valve.

Preferably, the conduit further comprises one or more venturi units in sealable engagement with the interior wall thereof and at or within any one or more of said adaptor ends, so as to facilitate the flow of air and/or air/medicament mixture in the same direction as any one-way valve that is positioned within the same adaptor end. Alternatively, if no one-way valve is present within the same adaptor end, the venturi

unit is generally positioned to provide for increased air velocity into or from the mask or mouthpiece or over one or more of the incentive toy units.

Those skilled in the art will be aware that a"venturi"is a hollow device through which air can pass bi-directionally, which device generally comprises a frustoconical portion tapered so as to increase the velocity of local air flow there through in the same direction as the taper.

In a particularly preferred embodiment of the present invention, a venturi is positioned in sealable engagement with the interior wall of the conduit adaptor end connecting the incentive toy (s) such as to facilitate the flow of exhaled air over said incentive toy (s).

According to this embodiment, the venturi is preferably positioned in front of the incentive toy with the tapered end of the venturi device directed thereon.

Alternatively, in the case of inhalation-driven incentive toys, the venturi can be placed within the incoming air portal and in sealable engagement with the interior wall of said portal, and preferably positioned in front of the incentive toy with the tapered end of the venturi device directed thereon.

In a particularly preferred embodiment of the present invention, there is provided an incentive inhaler device comprising: (i) a mask; (ii) a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; (iii) two inhalation/exhalation-driven incentive toys comprising an inhalation/exhalation-driven whistle and an exhalation-driven spinning disc; and (iv) a conduit, wherein said conduit comprises three adaptor ends that are connected separately to said mask, connector and incentive toys and wherein said conduit comprises: (a) a one-way valve in sealable engagement with the interior wall

thereof positioned in the adaptor end that is in engagement with said connector the adaptor to ensure directional flow of inhaled air from the linkable drug delivery device; and (b) a venturi in sealable engagement with the interior wall thereof positioned in the adaptor end that is in engagement with said incentive toys and positioned so as to increase the velocity of exhaled air/medicament over said incentive toys, wherein each of said incentive toys is separated from said connector by said one-way valve.

In a preferred embodiment, the incentive inhaler device of the present invention further includes a spacer positioned between the mask or mouthpiece and the connector.

Those skilled in the art will be aware that the word"spacer"refers to a chamber into which a medicament or drug or other composition may be released, such as by ejection from an MDI, wherein said spacer retains the medicament or drug or other composition until the patient is ready to breathe inhale it. Spacer devices allow for the deceleration of gas-borne particles that can be expelled from some MDI devices at high velocity. In the absence of a spacer device, the excessive velocity of the spray allows the particles to coat the throat of the patient and mouth, causing wastage of drug and undesirable side effects. Additionally, spacers do not require such precise coordination of inspiration with the actuation of the drug delivery device or MDI, since they can store the drug dose for inhalation in subsequent breaths.

Spacers are provided in various shapes and sizes and the present invention is not to be limited by the shape or size of the spacer unit, or the material used to construct the spacer unit. An exemplary spacer unit is described in Australian Patent No. 623991.

The spacer unit can include, at one end, an adaptor for sealably-receiving the

connector comprising the drug delivery device receiving means. Preferably, the adaptor will comprise a threaded portion or snap-lock to releasably-and sealably- engage said connector to the spacer. More preferably, the spacer adaptor comprises a male or female threaded portion that screws into an opposing female or male threaded portion respectively, in the connector. In use, the connector comprising the drug delivery device receiving means may be interchanged, depending upon the size and shape of the dispensing end of the drug delivery means, to ensure that an airtight engagement is formed between the drug delivery device, the connector and the spacer.

Alternatively, the spacer and connector may be constructed as an integral unit, preferably, moulded from metal, plastic or rubber material, such as by plastic injection moulding. According to this embodiment, it is necessary for the spacer/connector combination to be changed depending upon the size and shape of the dispensing end of the drug delivery means that is used to deliver the medicament or drug to the spacer.

The spacer unit can also include at least a means to directionally control airflow away from the drug delivery device receiving means on the connector in the assembled device. Preferably a one-way valve is used which is capable of at least retarding passage of air back into the drug delivery device while allowing the free flow of air out of the device. Such a valve is preferably positioned within, or is operationally connected to the spacer in a manner which allow a patient to unidirectionally draw a drug from the spacer.

In a preferred embodiment of the present invention, the incentive inhaler device is a modular incentive inhaler device. By"modular incentive inhaler device"is meant an incentive inhaler device as defined herein that is composed of separable components that may be changed in their configuration, such as by directional reversal of one component relative to another component, or the spatial rearrangement of one or more

components with respect to each other, or the inclusion or omission of any optional or preferred component, integer or feature.

Accordingly, each of the components of said incentive inhaler device are connectable via an appropriate adaptor, such as an adaptor having a threaded portion or snap-lock to releasably-and sealably-engage said connector to the conduit, amongst others. In a particularly preferred embodiment, the mask or mouthpiece, the spacer, the conduit, the connector and the incentive toys comprising the incentive inhaler device are connected or engaged via a snap lock mechanism comprising a first adaptor that inserts co-axially into a second adaptor.

The present invention clearly contemplates the construction of any two or more components of the incentive inhaler device as an integral unit, such as from moulded plastic material.

In one embodiment, the spacer is positioned between the inhalation/exhalation mask or mouthpiece and the conduit, in which case the conduit must be in sealable engagement with the connector. As will be apparent to those skilled in the art, this embodiment of the present invention requires both inhaled and exhaled air to pass through the spacer.

As with other embodiments of the present invention, the means for sealably-engaging the conduit and the connector may comprise an adaptor having a threaded portion or snap-lock to releasably-and sealably-engage said connector to the conduit. More preferably, such means will comprise a snap-lock between one adaptor end of the conduit and the connector. Alternatively, the conduit and connector may be constructed as an integral unit, preferably, moulded from metal, plastic or rubber material.

Similarly, the spacer can be connected to both the inhalation/exhalation mask or mouthpiece and the conduit by means of an adaptor or the spacer/mask or

mouthpiece/conduit combination or a part thereof can be manufactured as an integral unit.

Preferably, the spacer is positioned between the conduit and the connector. Wherein incentive toys are connected to the conduit, this arrangement avoids the need to draw the inhaled air/medicament mixture past or through the toy before it reaches the lungs, thereby minimising contamination of toys with the medicament.

As will be apparent from the preceding disclosure, the spacer can be connected to both the conduit and the connector by means of an adaptor or the conduit/spacer/connector combination or a part thereof can be manufactured as an integral unit.

Wherein the incentive toy (s) are not in engagement or gaseous communication with the spacer unit, the incentive inhaler device may have a valve which limits or prevents the entry of exhaled air/medicament mixture into the spacer. In such an embodiment of the present invention, an incentive toy unit may be positioned between the valve and the mask or mouthpiece.

Alternatively, such an external incentive toy module may be attached to a valveless spacer without an intervening valve, allowing some recycling of drugs still present in exhaled air back into the spacer.

However, the present inventors have found that, wherein the incentive toy linked to a spacer that is positioned between the connector and the conduit is an inhalation-driven incentive toy, it is particularly preferred for the drug delivery device to be sealed for the toys to be activated by inhalation. Such sealing of the drug delivery device may take the form of a cap placed over said device.

Preferably, a one-way valve is located between the drug delivery device receiving

means on the connector and the inhalation and/or exhalation-driven incentive toy.

In a preferred embodiment of the present invention, there is provided an incentive inhaler device comprising: (i) a mask; (ii) a connector that is linkable to a drug delivery device or other device for the delivery of an aerosol, powder or gas; (iii) two inhalation/exhalation-driven incentive toys comprising an inhalation/exhalation-driven whistle and an exhalation-driven spinning disc; and (iv) a spacer in engagement at one end with said connector and at the other end with a conduit, wherein said conduit comprises three adaptor ends that are connected separately to said mask, spacer and incentive toys and wherein said conduit comprises a one-way valve in sealable engagement with the interior wall thereof positioned in the adaptor end that is in engagement with said spacer to ensure directional flow of inhaled air from the linkable drug delivery device, wherein each of said incentive toys is separated from said connector by said one-way valve.

In a particularly preferred embodiment, the incentive inhaler device comprises: (i) a mask; (ii) two inhalation/exhalation-driven incentive toys comprising an inhalation/exhalation-driven whistle and an exhalation-driven spinning disc; and (iii) an integral spacer/connector that is linkable at one end to a drug delivery device or other device for the delivery of an aerosol, powder or gas, wherein said spacer/connector is in engagement at the other end with a conduit having three adaptor ends that are connected separately to said mask, spacer/connector and incentive toys and wherein said conduit comprises: (a) a one-way valve in sealable engagement with the interior wall

thereof positioned in the adaptor end that is in engagement with said spacer/connector to ensure directional flow of inhaled air from the linkable drug delivery device; and (b) a venturi in sealable engagement with the interior wall thereof positioned in the adaptor end that is in engagement with said incentive toys and positioned so as to increase the velocity of exhaled air/medicament over said incentive toys, wherein each of said incentive toys is separated from said spacer/connector by said one-way valve.

The provision of an optional anti-contamination filter in the conduit between the mask and the incentive toy module is also contemplated by the present invention.

The incentive inhaler device of the present invention may also include one or more venting means to allow for the escape of exhaled air. According to this embodiment, the means to directionally control airflow should preferably be located between the drug delivery device receiving means and the venting means.

Optionally, in those applications of the present invention to the administration of anaesthetics, it is preferred for the venting means to include a scavenger pipe or tube to channel the exhaled anaesthetic/air mixture away from the atmosphere of the surgery or operating theatre, thereby avoiding any person nearby from breathing the exhaled anaesthetic gases. Advantageously, such a scavenger system can be placed in engagement with the exhalation-driven incentive toy unit, such that exhaled air passing through or over the unit is then collected into the scavenger system.

Optionally, the incentive inhaler device of the present invention can also include an anti-microbial, anti-condensation and/or anti-particle filter, preferably placed between the mask or mouthpiece and the conduit or spacer or connector, as the case may be. The provision of such a filter is particular desirable wherein the incentive inhaler device

is used to administer a pre-operative anaesthetic compound and/or to reduce the inhalation of allergenic particles by the patient.

Optionally, the incentive inhaler device of the present invention may also include one or more turbine-driven incentive toys. As used herein the term"turbine-driven incentive toy"refers to an incentive toy that is driven by inhalation and/or exhalation via a rotor. A turbine rotor is generally activated by a bi-directional flow of air and, as a consequence, in the absence of a one-way valve system, the turbine-driven incentive toy will be activated by both inhalation and exhalation. According to this embodiment of the present invention, the rotor housing can be located in the mask, conduit, spacer or in physical relation to other incentive toys present therein. Whitst there is no requirement for a turbine-driven incentive toy to be separated from one or more components of the incentive inhaler device by one or more valves to ensure directional flow of inhaled/exhaled air which drives said toys, however such an arrangement is clearly possible.

A further aspect of the present invention provides a method of administering a inhalable medicament to an infant or child subject comprising activating, during the inhalation and/or exhalation phase of breathing of said subject, one or more external visible and/or audible inhalation/exhalation-driven incentive toys that are operably connected to an incentive inhalation device described herein according to any one or more of the foregoing embodiments.

By"administering"is meant the stimulation or encouragement of self-delivery of a medicinal, anaesthetic, drug, gas, pharmaceutical or other chemical compound or composition comprising same during a therapeutic or prophylactic medical procedure, irrespective of the location at which such procedure is performed (e. g.: in the home or in a doctor's surgery or hospital).

Preferably, in anaesthetic applications as applied to infants and small children, it will

be apparent to those skilled in the art that part or all of the incentive inhaler device of the present invention can be dispensed with and replace by a conventional anaesthetic inhaler once the child has been initially anaesthetised.

As will be apparent from the preceding description, the activation of the incentive toys is achieved by inhalation and/or exhalation by the patient. Such activation may comprise the production of any audible and/or visual signal or stimulus, such as such as a siren, flashing light or colour, or movement, amongst others.

Further features of the present invention are more fully described in the following Examples. It is to be understood, however, that this detailed description is included solely for the purposes of exemplifying the invention, and does not in any ray limait the present invention.

EXAMPLE 1 An incentive inhaler device comprising an inhalation-driven incentive toy and an exhalation-driven incentive toy Figure 1 illustrates a incentive inhaler device (2) including a cylindrical or conical shaped connector or spacer member (4) connected to an airways delivery means in the form of a mask (6). Releasably-engaged to the other end of the incentive inhaler device (2) is a drug delivery device receiving means (8) which is adapted to accommodate a drug delivery device (not shown), or alternatively a nebuliser or any other device suitable for delivering gases/solids/liquids via the receiving means.

Releasably-engaged to the outer surface of the spacer member (4), positioned between the drug delivery device receiving means (8) and the airways delivery means (6) is a conduit (10). The conduit (10) forms the connecting passageway between the inhalation-driven incentive toy unit (12), the exhalation-driven incentive toy unit (14) and the spacer member (4).

In use, a drug delivery device is engaged to the incentive inhaler device (2) via the

drug delivery device receiving means (8). A metered dose of medicament is released into the spacer member (4). The airways delivery means (6) is brought into sealable contact with a patient's face and then the patient inhales the air mixed with medicament. Upon inhaling, air is drawn into the incentive inhaler device (2) via the inhalation-driven incentive toy unit (12), which is illustrated as a whistle. A siren is sounded as air is drawn through the whistle. Inhaled air passes through the inhalation conduit (16) of the whistle in which there is located a one-way valve (18) and enters the conduit (10). The one-way valve prevents the reverse flow of fluid into the inhalation-driven incentive toy unit (12) upon exhalation by the patient. Desirably the valve (18) is activated by negative pressure in the conduit (10), but seals when there is positive pressure in the conduit (10). In a particularly preferred form of the invention, the one-way valve may be adapted to be removed from the inhalation conduit therein facilitating service of the valve should it cease working in a proper and efficient manner.

As air enters the conduit (10) from the whistle unit (12), it is drawn into the spacer member (4) and mixes with the medication that has been released into the connector or spacer (4), as the case may be. The patient can then inhale both the medication via the airway delivery means (6).

During the inhalation phase, medicament is prevented from entering the exhalation- driven incentive toy unit (14) by a second one-way valve (24) located between the junction (22) of the inhalation conduit (16) and the conduit (10), which valve (24) opens only when there is a positive pressure in the conduit (10) and seals closed when negative pressure is applied to said conduit (10).

Upon exhalation, fluid is blown back into the connector or spacer member (4) where it mixes with residual medicament that has not been inhaled. This creates a positive pressure in the connector or spacer member (4), thereby forcing air/medicament mixture to enter the conduit (10).

As air/medicament mixture moves up the conduit (10), it is prevented from entering the inhalation conduit (16) by the one-way valve (18) located therein. Air/medicament mixture passes through the second one-way valve (24) and into the exhalation-driven incentive toy unit (14), thereby activating the toy (19) therein. The exhalation driven incentive toy unit (14) consists of a transparent sphere in which there is mounted a toy in the form of a coloured spinning disc (20) having a face drawn thereon. As exhaled air/medicament mixture is blown into the unit (14), it is forced over the disc (20) causing it to spin on mounts (26) and (28). The air/medicament mixture then passes out of the unit via a release aperture (30).

The release aperture (30) is illustrated as a single hole in the top of the unit (14).

There may, however, be a plurality of different apertures in the module.

Notwithstanding that the exemplification of the present invention set forth in Figure 1 illustrates a spinning disc as the exhalation-driven incentive toy and a whistle as the inhalation-driven toy, it should be appreciated that these units can be interchanged so as to provide for inhaled air to pass over the spinning disc and exhaled to pass through the whistle. In such a variation of the present exemplified embodiment, valves (24) and (28) are interchanged to achieve the correct passage of air or air/medicament mixture.

Preferably, each incentive toy unit is associated with a particular one-way valve and the valve/toy combination is formed as an integral module. In this instance, the conduit (10) can be adapted to receive either valve/toy module, thereby facilitating the formation of a variety of different configurations of the incentive inhaler device with different inhalation and/or exhalation-driven incentive toys.

EXAMPLE 2 An incentive inhaler device comprising an inhalation-driven incentive toy attached to the connector or spacer via a conduit

Figure 2 illustrates a second embodiment of the invention comprising a incentive inhaler device (2) having a single inhalation-driven incentive toy unit (32) attached to the conduit (10).

In use, a metered dose of medicament is released into the connector or spacer member (4) via a drug delivery device (not shown) that is releasably engaged in a sealing manner to the drug delivery device receiving means (8). The mask (6) is brought into contact with a patient's face and then the patient inhales. Alternatively, the patient may inhale simultaneously with bringing the mask (6) to his/her face. The device shown in Figure 2 functions essentially in the same way as the device set forth in Figure 1, however in the instant embodiment there is no mechanism for exhalation into the connector or spacer member (4). To prevent exhaled air/medicament mixture from entering the connector or spacer member (4), there is located between the junction of the mask (6) and the connector or spacer member (4) a one-way valve (34), preferably a flap-type valve such as described in United States Patent No. 4,470,412 and/or Australian Patent No. 620375, to release the expired air outside the entire device assembly.

EXAMPLE 3 An incentive inhaler device comprising an exhalation-driven incentive toy attached to the connector or spacer via a conduit Figure 3 illustrates a third embodiment of the invention comprising a incentive inhaler device having a single exhalation-driven incentive toy unit (36) attached to the connector or spacer member (4) via a conduit (10).

In use, a metered dose of medicament is released into the spacer via a drug delivery device (not shown) that is sealably-engaged with the drug delivery receiving means (8). The mask (6) is brought into contact with a patient's face and then the patient inhales. Alternatively, the patient may inhale simultaneously with bringing the mask (6) to his/her face. As there is no inhalation-driven incentive toy unit attached to this

device, the device is modified to provide a portal (38) juxtaposed to the receiving means (8) through which air may be inhaled into the connector or spacer member. Anterior to the portal and positioned in one end of the drug delivery receiving means (8), there is a one-way valve (40) which allows medicament released from the drug delivery device into the connector or spacer member (4), but prevents the flow of medicament and/or air/medicament mixture therefrom in the opposite direction.

During or prior to inhalation, medicament is released into the receiving means (8) from the drug delivery device, forcing open the one-way valve (40), thereby permitting entry of medicament into the connector or spacer member (4). When a patient inhales, negative pressure is created in the connector or spacer member (4), thereby opening the one-way valve (40). Air is also drawn into the spacer member via the portal (38).

As air enters the connector or spacer member (4), it mixes with the medicament and the air/medicament mixture can be inhaled through the mask (6) into the patient's respiratory system.

To prevent medicament escaping through the portal (38) during inhalation or exhalation, there can be located in the portal (38) a one-way valve or similar device that closes when a positive pressure is applied to the space between the receiving means (8) and the one-way valve (40). In an alternative embodiment, the portal (38) may be formed as small holes that do not readily permit the escape or release of a large volume of a medicament in the period of time taken to administer a single dose of drug using the incentive inhaler device of the present invention. In a further embodiment, air enters the connector or spacer member (4) directly, via the drug delivery device (not shown), thereby dispensing with the portal (38).

During exhalation, air mixed with residual medicament is blown into the connector or spacer member (4) and passes through the conduit (10), whereupon it enters the exhalation-driven incentive toy unit, exemplified herein as a spinning disc (20) contained within a transparent orb (36). Exhaled air/medicament mixture is prevented

from escaping via the one-way valve (40) in the drug delivery receiving means (8).

The illustrated device then functions in the same way as the embodiment illustrated in Figure 1. In particular, a positive pressure is created in the connector or spacer member (4), thereby forcing air/medicament mixture to enter the conduit (10). Air/medicament mixture moves up the conduit (10), passes through the second one- way valve (24) and into the exhalation-driven incentive toy unit (36), thereby activating the toy (20) therein. As exhaled air/medicament mixture is blown into the unit (36), it is forced over the disc (20) causing it to spin around its mounts. The air/medicament mixture then passes out of the unit via a release aperture (30).

EXAMPLE 4 An incentive inhaler device comprising dual inhalation-driven incentive toys attached to the connector or spacer via a conduit Figure 4 illustrates a further embodiment of the invention comprising dual exhalation- driven incentive toys, comprising a whistle unit (14) and a spinning disc unit (14a). This device is substantially identical to that described in Example 2, however includes a second inhalation-driven incentive toy (14a) connected to the first conduit (10) via a second inhalation conduit (43).

A one-way valve (41), such as a butterfly valve, is provided in the conduit (10), between the inhalation-driven toys (14 and 14a) and the connector or spacer member (4), which valve opens when a negative pressure is applied in the conduit and closes when a positive pressure is present in the connector or spacer member (4).

During or prior to inhalation, medicament is released into the receiving means (8) from the drug delivery device, thereby permitting entry of medicament into the connector or spacer member (4). When a patient inhales, negative pressure is created in the connector or spacer member (4), thereby opening the one-way valve. Air/medicament mixture is then forced both through the whistle (14a) causing a siren to sound, and

over the disc (20) causing it to spin around its mounts.

During exhalation, air mixed with residual medicament is blown towards the connector or spacer member (4) forcing the one-way valve (34) closed. Thus, one-way valve (34) blocks the entry of exhaled air into the connector/spacer during exhalation. The additional one-way valve (34) is of a construction known to those skilled in the art, such as a flap-type valve (United States Patent No. 4,470,412 and/or Australian Patent No. 620375), is included in this embodiment of the present invention to provide for the release of exhaled air/medicament mixture to the outside of the entire device assembly.

While this embodiment is illustrated as a dual inhalation-driven incentive inhaler device, it will be appreciated that by reversing the one-way valve (41) (e. g. the butterfly valve) and removing the additional one-way valve (34)) (e. g. the flap-type valve), it is possible to convert the device to a dual exhalation-driven incentive inhaler device. In this embodiment, the whistle unit (14a) is also reversed so that the siren sounds on exhalation, rather than on inhalation.

EXAMPLE 5 An incentive inhaler device comprising inhalation-driven and exhalation- driven incentive toys attached to a spacer via a three-way conduit Figure 5 illustrates a further embodiment of the invention comprising a incentive inhaler device (2) with multiple inhalation-driven and exhalation-driven incentive toy units, comprising an exhalation-driven spinning disc (36) and a reversible inhalation/exhalation-driven whistle or siren (42) attached to a three-way conduit (4) in series. In particular, the spinning disc (36) has attached to it whistle unit (42). Whistle unit (42) is designed to allow for the bi-directional flow of air or air/medicament mixture, however only sounds a siren when air passes through in one direction.

Accordingly, in one arrangement, air passes through the whistle (42) on inhalation,

causing the siren to sound. The inhaled air then passes through the second incentive toy unit (36) however fails to activate the spinning disc therein. The whistle (42) is reversible and, in the opposite configuration, inhaled air fails to activate the whistle.

A spacer (46) releasably engages the three-way conduit (4) in a sealing manner. A metered dose of medicament is released into the spacer member (46) via a drug delivery device (48) that is releasably engaged in a sealing manner to the drug delivery device receiving means (52). The drug delivery device (48) shown in Figure 5 is an asthma pump inhaler or MDI having an optional covering rubber seal (50) to prevent medicament leakage from the sides of the device after it is released into the spacer (46). This seal, whilst not an essential feature of the present invention, can also improve the action of inhalation-driven toys.

The mask (6) is brought into contact with a patient's face and then the patient inhales.

Alternatively, the patient may inhale simultaneously with bringing the mask (6) to his/her face. During inhalation, air is drawn into the incentive inhaler device (2) via the inhalation-driven incentive whistle (42). Depending upon the orientation of the whistle (42) a siren can sound as air is drawn through the whistle. Inhaled air passes through orb containing the spinning disc (36) and enters the first conduit (10) that is in sealable engagement with a three-way conduit (4). There is a one-way valve (54) in the three way conduit (4), positioned in the adaptor end of said conduit that engages the spacer (46), that prevents the reverse flow of inhaled air into the spacer (46). Desirably the valve (46) is opened by negative pressure anterior thereto, such as in the mask (6) or the three-way conduit (4), but seals when there is positive pressure in the mask (6) or the conduit (4). The medicament is released into the spacer unit (46) and, under a positive pressure that is produced within the spacer (46), the one-way valve (54) opens to permit passage of the medicament into the three-way conduit (4). As air and medicament enter the three-way conduit (4) they are mixed and can be inhaled by the patient via the mask (6).

In a preferred form of the invention, the one-way valve may be adapted to be removed from the three-way conduit (4) to facilitate service of the valve should it cease working in a proper and efficient manner.

During the inhalation phase, the amount of medicament entering the exhalation-driven spinning disc unit (36) is minimised because the direction of air flow is from the whistle (42) toward the three-way conduit (4).

During exhalation, air/medicament mixture is blown back into the three-way conduit (4) where it mixes with residual medicament that has not been inhaled. This creates a positive pressure in the three-way conduit (4), thereby forcing air/medicament mixture to enter the conduit (10). The air/medicament mixture is prevented from re-entering the spacer unit (46) by the one-way valve (54). The adaptor end of the three-way conduit (4) that is in sealable engagement with the conduit (10) has a single venturi (55) inserted therein, to increase the velocity of exhaled air/medicament mixture as it passes over the spinning disc of the exhalation-driven incentive toy unit (36), thereby activating the spinning disc therein. The air/medicament mixture then passes out of the unit via an aperture in the whistle (42). Depending upon the orientation of the whistle (42), a siren can sound as air passes out of the device through the whistle.

EXAMPLE 6 An incentive inhaler device for use in anaesthetic applications Figure 6 illustrates a further embodiment of the invention comprising a incentive inhaler device (2) having attached thereto a drug delivery tube (60). The delivery tube (60) releasably and sealably engages a three-way conduit (4) providing a continuous supply of drug to the mask (6). In this embodiment, the conduit (4) is adapted to engage directly to the delivery tube. Thus the receiving means is provided by the drug delivery tube (60). A clamp (62) seals the tube to the three-way conduit (4), ensuring sealing engagement between the tube and the conduit. At the junction between the

delivery tube (60) and the three-way conduit (4) is a one-way valve (64) that opens when negative pressure is applied from within the three-way conduit (4). When the valve opens, anaesthetic passes from the delivery tube (60) into the three-way conduit (4). To prevent this fluid escaping from the three-way conduit (4) prior to inhalation by the patient, there is a further one-way valve (66) located in the three-way conduit (4) adaptor end that is in engagement with the incentive toy module, wherein said one- way valve opens when a positive pressure is applied from within the three-way conduit (4). Preferably, the one-way valve (66) only opens during the exhalation phase of breathing, when anaesthetic mixed with air is exhaled into the three-way conduit (4).

More preferably, the opening pressure of the valve (66) correlates with the pressure created by inhalation and exhalation of anaesthetic through the incentive inhaler device.

In use, the mask (6) is brought into contact with a patient's face and then the patient inhales anaesthetic directly from the drug delivery device (not shown) via the drug delivery tube (60) and three-way conduit (4). Alternatively, the patient may inhale simultaneously with bringing the mask (6) to his/her face.

During exhalation, air/anaesthetic mixture is blown back into the three-way conduit (4) where it mixes with residual anaesthetic that has not been inhaled. This creates a positive pressure in the three-way conduit (4), thereby forcing the one-way valve (66) open, to facilitate passage of air/anaesthetic mixture to enter the conduit (10). The air/anaesthetic mixture is prevented from re-entering the drug delivery tube (60) by the one-way valve (64). The air/anaesthetic mixture passes over the spinning disc of the exhalation-driven incentive toy unit (36), thereby activating the spinning disc therein.

The air/medicament mixture then passes out of the unit via an aperture in the whistle (42). Depending upon the orientation of the whistle (42), a siren can sound as air passes out of the device through the whistle.

While this embodiment of the present invention provides for exhaled anaesthetic to be released to the atmosphere, the second exhalation-driven incentive toy unit (42) may be adapted to sealingly engage (preferably in a releasable manner) a scavenging system exhaust tube. In such an embodiment exhaled anaesthetic gasses may be collected and stored without release into the atmosphere.