FR2948288A1 - Inhaling device for managing bronchopulmonary disorders, has reservoir whose ends have orifices respectively introducing and coupling nozzles of aerosol and delivering unit and including diameters adjustable so as to be adaptable to nozzles - Google Patents

Abstract

The device (10) has a tubular axial reservoir (12) with a flexible wall (26) mobile between compact and deployed positions to allow the reservoir to occupy a position in which the reservoir occupies a reduced volume for transport, and another position in the reservoir is rigidly deployed for utilization. Ends (16, 19) of the reservoir respectively include orifices (36, 38) for respectively introducing and coupling nozzles (34, 22) of a dosing aerosol (18) and a delivering unit (20) e.g. mouthpiece or face mask. Diameters of the orifices are adjustable so as to be adaptable to the nozzles.

Description

The invention relates to an inhalation device for the administration of inhaled treatments for the care of bronchopulmonary diseases. The invention more particularly relates to an inhalation device, in particular for the administration of inhaled treatments for the care of bronchopulmonary diseases, comprising a substantially tubular axial reservoir delimiting an inhalation chamber whose first end is terminated at a metered dose inhaler containing an active principle and a second opposite end of which is closed to a treatment diffusion means, in particular a mouthpiece or a face mask, said reservoir comprising at least one wall movable between an extended position and a compact position, intended to allow said reservoir to occupy a first position in which it determines a first determined volume of treatment reception and a second position in which it determines a determined second volume, less than the first volume, for its storage and / or transport, the tank wall being tubular, made of a mat elastomeric material, and comprising at least two coaxial tubular sections of different diameters bonded to each other which are movable between: a first relative position, associated with the deployed position of the movable wall, in which the sections extend axially end a second relative position, associated with the compact position of the movable wall, in which at least one section is returned elastically and is received in or on another section, so that the wall occupies axially only the length of a single section, a first end of the tank having an orifice for introducing a tip of the metering aerosol made of elastomeric material, the diameter of which is extensible, to allow its adaptation to aerosol tips dosers of different sizes, an opposite second end of the reservoir being coupled to the diffusion means of the treatment, an inspirational dispenser n / expiration, comprising at least one valve for inspiration of the gases contained in the reservoir and a valve for expelling the gases discharged by the user, being interposed between the second end of the reservoir and the diffusion means. Many anti-asthmatic drugs, intended to treat pathologies such as bronchopulmonary diseases, asthma, bronchopathies, or even bronchiolitis, are administered using metered dose inhalers. This widely known design of the state of the art is based on the principle of aerosol cans. It consists in spraying with aerosol a determined dose of an active principle and inhaling this dose by inspiration. As a result, the use of the metered dose inhaler alone requires a good synchronization between the aerosol actuation and the patient's inspiration. As a result, the use of the metered dose inhaler alone is not controlled by many patients, and in particular by children. Indeed, when the inhaler is misused, or when the synchronization between the ejection of the active ingredient and the inspiration is not achieved, too little product reaches the lungs, and the effectiveness of the treatment is diminished or even destroyed. To remedy this drawback, it has been proposed to add to inhalation aerosol dispensers known from the state of the art inhalation chambers to facilitate the inhalation of the drug. An inhalation chamber as known for a long time from the state of the art consists essentially of a reservoir which is interposed between the metered dose inhaler, which fits on one side, and a tube, in particular terminated by a valve attached to the other end, on which can be adapted a diffusion means, such as a rigid or flexible mouthpiece, disposable or reusable, or a face mask, especially for young children. The active ingredient is sent into the chamber by pressure on the metered dose inhaler, is diffused into the reservoir, and is inhaled by the patient who breathes calmly in the mouthpiece or in the mask by the mouth. This design makes it possible to avoid handling errors due to poor coordination between the action of the aerosol and the inspiration of the patient. It is often essential for treating infant asthma, or bronchiolitis in young children in winter. Combined with a pediatric mask, the inhalation chamber is the most practical way to deliver aerosols to young patients. By contrast, this design is restrictive because an inhalation chamber coupled to an aerosol is more cumbersome than a metered dose inhaler alone. Inhalation chambers are usually made of plastic or metal. They are rigid and of a certain volume, so that the "cloud" of active ingredient that is projected inside stays in suspension until the moment of inspiration by the patient and does not deposit prematurely. on the walls. The volume of the inhalation chamber and its rigidity, 30 necessary for its effectiveness, therefore make it a device that is not well adapted to outpatient treatment, particularly in a professional or school environment. In order to remedy this drawback, an inhalation chamber has been proposed whose walls made of elastomeric material can be compacted when it is not used. According to this known design, an end of the chamber comprises an inspiration / expiration dispenser, interposed between the chamber and a diffusion means such as a diffusion mask, made in the form of a plurality of tubular elements, in particular a valve member exhalation device and a flap valve member. These elements must be inserted axially into the end of the tank successively one after the other, which increases the cost of mounting such a device. The invention overcomes this disadvantage by proposing a device of the type described above comprising an expiratory valve 15 expiration can be mounted by interlocking in the tank in a single operation. For this purpose, the invention provides an inhalation device of the type described above, characterized in that the inspiration / expiration dispenser is fitted into a tubular neck 20 of elastomeric material formed in the second end of the reservoir. According to other features of the invention - the inspiration / expiration dispenser comprises an external tubular element of elastomeric material forming an exhalation valve, which is fitted into the tubular neck of elastomeric material formed in the second end of the reservoir, and an internal tubular element forming an inspiration valve, which is nested coaxially in the external tubular element forming an exhalation valve, the collar of the second end of the reservoir comprises at least first and second collar sections of the first and second high inner diameters which are arranged on either side of a third throat section said throat of reduced inner diameter, and the outer tubular member forming the expiry valve comprises at least a third and a fourth sections of high external diameters, respectively complementary to the first and second collar sections, arranged on either side of a fifth section of outer diameter, complementary to the third neck section, to allow the interlocking of the outer tubular member forming the expiration valve in the neck, - the outer tubular member forming a flap at least one of the sixth and seventh sections of inner diameter which are arranged on either side of an eighth section of reduced internal diameter forming an annular groove, and the inner tubular member forming a flap valve. At least one ninth section is provided with an annular bead which is fitted into the eighth section of reduced inner diameter of the outer tubular element, to enable the internal tubular element forming an inspiratory valve to be interlocked in the housing. external tubular element forming an exhalation valve; the sixth, seventh and eighth sections of the outer tubular element forming a clap and exhalation axially coincide respectively with the third, fourth and fifth sections of said outer tubular element, - the first neck section is formed at a free end 25 of the reservoir, in that the elastomeric material of which it is made is of stiffness determined, the third corresponding section of the outer tubular element, which is received in said first collar section, comprises at least one bore passing through the thickness of said third section, the elastomeric material of the first section being movable between a rest position in which it is applied to the outer surface of the third section and closes the bore and an expiration position in which it is lifted from the outer surface of the third section and releases the bore when said third section is internally subjected to a pressure of exhalation, - the internal tubular element forming a flap of inspiration compor at least one tenth section, which is attached to the ninth annular bead portion, and which is turned towards the free end of the tank, said tenth section having a frustoconical shape and having at its free end a transverse slot defining two lips which are capable of diverging from one another to allow the passage of the inspiration gases, the movable wall comprises a succession of coaxial tubular sections of odd and even rank of decreasing diameters which are movable between: a first relative position, associated with the deployed position of the movable wall, in which all the sections extend axially end to end, • a second relative position, associated with the compact position of the movable wall, in which each section of even rank is returned at least in or on a straight rank section immediately following, so that the wall occupies axially only e the length of a single section. Other features and advantages of the invention will appear on reading the detailed description which follows for the understanding of which reference will be made to the appended drawings in which the single figure is a sectional view of an inhalation device comprising an inspiration / expiration dispenser according to the invention. In the following description, like reference numerals denote like parts or having similar functions. FIG. 1 shows an inhalation device 10 made according to the invention. In known manner, such a device 10 is intended to allow the administration of inhaled treatments for the care of bronchopulmonary diseases, asthma, bronchopathies, or bronchiolitis.

In known manner the device 10 comprises a substantially tubular axial reservoir 12 internally delimiting an inhalation chamber 14, a first end 16 of which is intended to be closed to a metered dose inhaler (not shown) containing an active ingredient and a second end 18 of which opposite is terminated at a means 20 of diffusion of the treatment. As shown in FIG. 1, the diffusion means 20 consists of a facial mask 20 more particularly dedicated to infants, but it could also be a mouthpiece or nasal mouthpiece without changing the nature of the the invention. In known manner, the reservoir 12 comprises at least one wall 22 which is movable between an extended position and a compact position, in order to allow said reservoir 12 to occupy a first position, represented in the single figure, in which it determines a first determined volume of treatment reception and a second position (not shown) in which it determines a second volume, less than the first volume, for storage and / or transport. Thus, the movable wall 22 of the reservoir 12 is of a so-called "shape memory" elastomeric material which is capable of occupying each of the deployed and stably compacted positions, passing through a plurality of unstable intermediate positions. More particularly, the movable wall 22 has a substantially tubular shape and it comprises at least two coaxial tubular sections of different diameters bonded to each other. Thus, as shown in the single figure without limitation of the invention, the movable wall 22 comprises three coaxial tubular sections 24, 25, 26 of different diameters 8 connected to each other. The two sections 24 and 26 constitute end sections which are arranged on either side of a central section 25. The coaxial sections 24, 25, 26 are thus movable between: a first relative position, represented in the single figure, which is associated with the deployed position of the mobile wall 22, in which the sections 24, 25, 26 extend axially end to end, - a second relative position, (not shown), associated with the compact position of the movable wall 22, wherein at least one section is elastically returned and is received in or on another section, so that the movable wall 22 occupies axially only the length of a single section 24. Thus the section 25 is intended to be returned elastically in the section 26 and the section 24 is intended to be returned elastically in the section 25, so that whereas the movable wall 22 occupies axially only the length of the single section 26. This configuration obviously can not be limited only to a configuration comprising only three sections. Indeed, in the case of a plurality of sections, the movable wall could comprise a succession of coaxial tubular sections of odd and even rank of decreasing diameters which would then be movable between: a first relative position, associated with the deployed position of the movable wall, in which all the sections extend axially end to end, - a second relative position, associated with the compact position of the movable wall, in which each even rank section would be returned at least in or on a section of odd rank immediately consecutive, so that the wall occupies axially the length of a single section.

Thus, for simplicity, every second section would be returned in or on the neighboring section. This configuration is particularly advantageous because it makes it possible to obtain a tank of great length by multiplying the number of sections. It will also be noted that the tank 20 thus formed is not only capable of being compacted axially, but it is also capable of being compacted radially, insofar as the elastomer material which it constitutes can easily be crushed to allow, for example, store the tank 20 in a bag, a bag, or a pocket of a garment. A first end 28 of the reservoir 12 has an orifice 32 for introducing a tip of the associated metered dose inhaler 15 (not shown). This orifice 32 is made of the elastomeric material, and its diameter is extensible. This configuration makes it possible to adapt the reservoir 12 to metering aerosol tips of different sizes. On the other hand, an opposite second end of the reservoir is intended to be coupled to the process diffusion means. More exactly, the reservoir 12 is not coupled directly to the treatment diffusion means, but an inspiration / expiration dispenser 36 is interposed between the reservoir 12 and the diffusion means 20. This distributor 36, which is interposed between the inhalation chamber 14 and the diffusion means 20, comprises at least one valve 38 for inspiration of the gases contained in the reservoir 14 and a valve 40 for exhaling the gases discharged by the user. To simplify the mounting of such a dispenser 36 in the reservoir 12, the inspiration / expiration dispenser 36 is fitted into a tubular neck 42 of elastomeric material formed in the second end 30 of the reservoir. More particularly, the inspiration / expiration dispenser 36 comprises an outer tubular element 44 of elastomeric material forming an exhalation valve, which is fitted into the tubular neck 42 of elastomeric material formed in the second end 30 of the reservoir 12. and an internal tubular member 46 forming an inspiration valve, which is coaxially engaged in the tubular member 44 forming the exhalation valve. To allow the insertion of the outer tubular element 44 into the reservoir 12, the neck 42 of the second end 30 of the reservoir 12 comprises at least first and second collar sections 48, 50 of first and second inner diameters. which are arranged on either side of a third section of said neck said throttling of reduced inner diameter. The outer tubular element 44 forming the exhalation valve comprises at least a third and a fourth section 54, 56 of high outside diameters, respectively complementary to the first and second neck sections 48 and 50, which are arranged on both sides. another of a fifth section 58 of outer diameter, complementary to the third section 52 of neck, to allow the interlocking of the outer tubular member 44 forming the exhalation valve in the neck 42. The nesting of the distributor 36 inspiration / exhalation 25 is of course made by deforming the neck 42 of elastomeric material so during its introduction into said neck 42. Moreover, the outer tubular member 44 forming the expiration valve comprises at least one sixth and seventh sections 60 , 62 of high inner diameters which are arranged on either side of an eighth section 64 of reduced internal diameter forming an annular groove. The internal tubular element 46 forming an inspiration valve comprises at least one ninth section 66 consisting of an annular bead which is fitted into the eighth section 64 of reduced inside diameter of the outer tubular element 44, to allow the interlocking of the inner tubular element 46 forming the inspiration valve in the outer tubular element 44 forming the exhalation valve. Advantageously, to reduce the axial size of the distributor 36, it is desirable that the exhalation valve 36 and the inspiration valve 38 coincide axially. For this purpose, the sixth, seventh and eighth sections 60, 62, 64 of the outer tubular element 44 forming the expiration valve coincide respectively with the third, fourth and fifth sections 54, 56, 58 of said outer tubular element 44. . This configuration is not limiting of the invention and the sixth, seventh and eighth sections 60, 62, 64 of the outer tubular member 44 forming the expiration valve could be axially offset from the third, fourth and fifth sections 54, 56, 58 of said outer tubular member 44. In order to constitute the exhalation valve 36, as shown in the single figure, the first neck section 48 is formed at a free end 30 of the reservoir 12, and the elastomeric material of which it is made has a determined stiffness. Furthermore, the corresponding third section 54 of the outer tubular element 44, which is received in said first collar section 48, comprises at least one hole 68 passing through the thickness of said third section 54. In this way, the elastomeric material first section is movable between a rest position, shown in the single figure, in which it is applied to the outer surface of the third section 48 and closes the bore 68 and an expiry position (not shown) in which it is raised the outer surface of the third section 48 and releases the bore 68 when said third section 48 is internally subjected to an exhalation pressure. 12 Thus, an expiratory valve 36 is made in a very simple manner. Finally, the internal tubular element 46 forming an inspiration valve comprises at least a tenth section 70, which is attached to the ninth annular bead portion 66, and which is turned towards the free end 30 of the reservoir 12, and which has a frustoconical shape. This tenth section 70 having at its free end a transverse slot 72 defining two lips which are likely to move away from each other to allow the passage of the inspiration gases. It will therefore be understood that, in order to mount the dispenser 36 in the reservoir 12, the internal element forming the inhalation valve 46 is first inserted into the external element 44 forming the exhalation valve, and then the entire assembly is inserted. thus constituted in the neck 42 of the tank 12. The invention therefore proposes a device 10 which, when it occupies its compact position, can be reduced to a very small volume, and can thus fit in a pocket, a handbag, a school bag or whatever. The chamber 12 of the device 10 is, in this state, much less bulky and bulky than are the current inhalation chambers for ambulatory treatment. The device 10 can be assembled very easily, are expiratory inhalation dispenser 36 being received by interlocking in the reservoir 12.

The invention thus provides an inhalation device which can be easily transported, particularly convenient and inexpensive.

Claims (8)

REVENDICATIONS1. Inhalation device (10), especially for the administration of inhaled treatments for the care of bronchopulmonary diseases, comprising a substantially tubular axial reservoir (12) delimiting an inhalation chamber (14) having a first end (16) ) is terminated with a metered dose inhaler containing an active ingredient and a second opposite end (18) of which is attached to a treatment diffusion means (20), in particular a mouthpiece or face mask, said reservoir comprising (12) at least a wall (22) movable between an extended position and a compact position, to allow said reservoir (12) to occupy a first position in which it determines a first determined volume of treatment reception and a second position in which it determines a second determined volume, lower than the first volume, for its storage and / or transport, the wall (22) of the reservoir (12) being tubular, made of a maté elastomeric material, and comprising at least two coaxial tubular sections (24, 25, 26) of different diameters bonded to each other which are movable between: - a first relative position, associated with the deployed position of the movable wall, in which the sections (24, 25, 26) extend axially end to end, - a second relative position, associated with the compact position of the movable wall, wherein at least one section (24, 25) is elastically returned and is received in or on another section (25, 26), so that the wall (22) occupies axially only the length of a single section (26), a first end (28) of the reservoir (12) having an orifice ( 32) for introducing a nozzle of the metered dose inhaler made of the elastomer material, the diameter of which is extensible, to allow it to be adapted to metering aerosol tips of different sizes, 14 an opposite second end (30) of the tank (12) being acc orplated with the treatment diffusion means (20), an inspiration / expiration dispenser (36) comprising at least one valve (38) for inspiration of the gases contained in the reservoir and a valve (40) for exhaling the gases driven by the user, being interposed between the second end (30) of the reservoir and the means (20) of diffusion, characterized in that the distributor (36) of inspiration / expiration is fitted into a neck (42) tubular in elastomeric material formed in the second end (30) of the reservoir (12). 2. Device (10) of inhalation according to the preceding claim, characterized in that the distributor (36) inspiration / expiration comprises an outer tubular member (44) of elastomeric material forming an expiration valve, which is fitted into the neck tubular (42) of elastomeric material formed in the second end (30) of the reservoir (12), and an internal tubular member (46) forming an inspiration valve, which is coaxially engaged in the outer tubular member (44) forming a valve expiration. 3. Device (10) according to the preceding claim, characterized in that the neck (42) of the second end of the reservoir comprises at least a first and a second section (48, 50) neck of first and second inner diameters which are arranged on either side of a third throat section (52) of reduced internal diameter throat, and in that the outer tubular element (44) forming the expiry valve comprises at least a third and a fourth section (54, 56) of high outer diameters, respectively complementary to the first and second neck sections (48, 50), arranged on either side of a fifth section (58) of external diameter, complementary to the third neck section (52), to allow interlocking of the outer tubular member (44) forming the exhalation valve in the neck (42). 4. Device (10) according to one of claims 2 or 3, characterized in that the outer tubular member (44) forming the expiration valve comprises at least one sixth and seventh sections (60, 62) of inner diameters which are arranged on either side of an eighth section (64) of reduced internal diameter forming an annular groove, and in that the internal tubular element (46) forming an inspiration valve comprises at least a ninth section (66) comprising an annular bead which is fitted into the eighth section (64) of reduced inside diameter of the outer tubular element (44), to allow interlocking of the inner tubular element (46) forming a flap inspiration in the outer tubular member (44) forming the exhalation valve. 5. Device (10) according to the preceding claim, characterized in that the sixth, seventh and eighth sections (60, 62, 64) of the outer tubular element (44) forming the expiration valve axially coincide respectively with the third, fourth and fifth sections (54, 56, 58) of said outer tubular member (44). 6. Device (10) according to one of claims 3 to 5, characterized in that the first neck section (48) is formed at a free end (30) of the reservoir (12), in that the elastomeric material of which it consists of a determined stiffness, and in that the corresponding third section (54) of the outer tubular element (44), which is received in said first neck section (48), comprises at least one hole (68). ) passing through the thickness of said third section (54), the elastomeric material of the first section (48) being movable between a rest position in which it is applied to the outer surface of the third section (54) and closes the hole (68) and an expiration position in which it is lifted from the outer surface of the third section (54) and releases the bore (68) when said third section (54) is internally subjected to an exhalation pressure. 7. Device (10) according to one of claims 2 to 6, characterized in that the inner tubular element (46) forming the inspiration valve comprises at least a tenth section (70), which is attached to the ninth section ( 66) forming an annular bead, which is turned towards the free end (30) of the reservoir (12), said tenth section (70) having a frustoconical shape and having at its free end a slot (72) defining two transverse lips which are likely to deviate from each other to allow the passage of the inspiration gases. 8. Device (10) of inhalation according to one of the preceding claims, characterized in that the movable wall (22) comprises a succession of coaxial tubular sections of odd rank 24, 26) and peers (25) of decreasing diameters which are movable between: - a first relative position, associated with the deployed position of the movable wall, in which all the sections (24, 25, 26) extend axially end to end, - a second relative position, associated with the position compact of the movable wall, in which each section of even rank (25) is returned at least in or on an odd-numbered section (24, 26) immediately consecutive, so that the wall (22) occupies axially only the length of a single section (26).