PL245924B1 - Inhaler - Google Patents

Description

Description of the invention

The subject of the invention is an inhaler, especially intended for inhalation and therapy of the upper and lower respiratory tract.

So far, various solutions for inhalation devices used in medicine are known.

The description of patent application WO2020260903A1 presents an inhaler, the housing of which contains a container with an aerosol drug and at least one element directing the flow of the sprayed drug and a mouthpiece.

The descriptions of patent applications US2008314380A1, US2009277446A1, US2011297151A1 and US2010051023A1 disclose solutions of inhalers in which ambient air is sucked in or forced into the mouthpiece. On the way, this air takes the medicinal substance in liquid or powdered form from the container. The generated aerosol is then inhaled. Solutions of inhalers in which additional energy is used to transform the medicinal substance into an aerosol are presented in the descriptions of patent applications US2009064997A1 and US6006747A.

The construction of an inhaler containing, among other things, a reservoir of medicinal liquid, a system for atomizing the liquid and an inhalation mask is presented in the description of the utility model application CN214970488U.

An inhaler comprising a mechanical dose-measuring system that dispenses powdered medicament inhaled by a patient is disclosed in patent application US2009178678A1.

In the description of the patent application US4674491A an inhaler for atomization, dispersion and mixing of liquid or powdered medicinal substances is presented. The generation of the aerosol is carried out by means of a gas stream under pressure. The inhaler consists of, among others, a spherical atomizing head and a deflector separating larger particles.

The description of the utility model application CN210131199U presents an atomization device in which the essential element is a Venturi tube supporting the production of a medicinal aerosol.

In the description of patent application WO2019115771A1 a respiratory support system is presented comprising a nebulizer spraying a therapeutic liquid, which is placed in a flow channel. A method of dispensing an aerosol is also disclosed.

The nebulizer according to the description presented in the patent application US5957389A comprises a nozzle placed in the nebulization space. In the immediate vicinity of this space there are collision surfaces with which the generated liquid droplets come into contact. As a result of these collisions, only the smallest droplets are discharged into the system dispensing the generated aerosol.

The description of the patent application US2005145243A1 discloses a solution of a nebulizer used in aerosol therapy, which has a conical nozzle delivering a stream of air to the nebulization area. A liquid therapeutic agent is placed in this area.

A nebulizer consisting of a cylindrical-conical nebulization chamber connected to a liquid reservoir and connected to a pressurized gas supply is presented in the description of patent application EP0594704A1.

A solution for a flow-through medicinal product nebulizer in which the air inlet is closed when the patient exhales air is presented in the description of patent application WO2013005020A1.

The main element of the nebulizer presented in the description of patent application US2007029475A1 is a multi-part capillary which, as a result of the forced negative pressure, sucks in the liquid that is later atomized.

The description of patent application US5533501A describes a nebulizer in which the substance to be atomized is sucked by a gas stream flowing from at least one gas outlet.

The description of the patent application US2021398789A1 discloses solutions of nebulizer outlets comprising capillaries and one or more gas flow channels.

The description of patent application CA2568092A1 presents various nebulizer outlet structures provided with liquid atomizing deflectors.

In the description of the patent application US2022148870A1 a nebulization system used in mass spectrometry or spectroscopy is presented. The system is equipped with a special nebulizer nozzle generating an aerosol of the sprayed sample of the substance. It also contains several microchannels with outlets arranged around and in the vicinity of the nebulizer nozzle. The gas streams emerging from these channels appropriately direct and shape the sprayed sample.

A nebulization device with a vibrating mesh for administering drugs placed in disposable capsules is presented in patent description US11185646B2.

The solution of the nebulizer and the method of nebulizing the liquid are also disclosed in the description of the patent application US2008245362A1. The essential element of the nebulizer is an ultrasonic transducer placed in the cavity of the nebulization chamber, to which the liquid subjected to atomization systematically flows.

Nebulization devices equipped with resonators generating ultrasonic waves are presented in the descriptions of patent applications GB2536257A and WO2014139665A1. An ultrasonic nebulizer with a controlled ultrasound source is also presented in the description of patent application EP1026482A1.

According to the literature on the subject, the term fluid is understood as any substance that can flow, i.e. is characterized by the ease of changing the mutual position of individual elements even for small forces. The fluid can move (flow) freely. Fluids are not only liquids, but also all gases, plasma, and even such mixtures of different physical phases as foam, emulsion, suspension and paste (Jeżowiecka-Kabsch K., Szewczyk H.: Fluid Mechanics. Wrocław, Publishing House of Wrocław University of Technology, 2001. ISBN 83-7085-597-0).

A suspension is a non-homogeneous system, usually two-phase, in the form of particles of one body dispersed (dispersed phase) in another body (dispersing phase), e.g. particles of a solid in a gas or particles of a liquid in a liquid. If these particles are sufficiently small, a colloidal system is considered (Janicki S., Fiebig A., Sznitowska M., Achmatowicz T.: Farmacja internetowego. Warszawa, Wydaw. Lekarskie PZWL, 2003. ISBN 83-200-2847-7).

Previously known inhalers used in medicine are characterized by the fact that a liquid drug substance is collected in a nebulization chamber and dispersed by compressed air or by means of vibrating membranes or ultrasound into an aerosol. The degree of liquid dispersion and the size of aerosol particles are not always such that they can pass into the lower respiratory tract and lung alveoli during inhalation.

The aim of the invention is to produce a medicinal aerosol with a specific particle size distribution, which during inhalation will be deposited in the appropriate parts of the respiratory system.

The subject of the invention is an inhaler having a vertically arranged cylindrical nebulization chamber with an aerosol outlet in the upper base. Its essence is that in the lower base of the nebulization chamber there is a connector for supplying fluid in the form of a liquid or gas, or suspension, which is connected by an inlet through an injector and a pump to the first inlet. The second inlet is connected to the injector. The connector is connected by an outlet to a pipe, which from the inlet has a decreasing cross-sectional area and an axis line in the shape of a helix on a cone. There is a fan in the nebulization chamber. It is advisable when the first inlet is an inlet for liquid or solid particles, and the second inlet is a gas inlet. Alternatively, the first inlet is a gas inlet, and the second inlet is an inlet for liquid or solid particles.

The beneficial effect of using the invention in the therapy of lung diseases is the possibility of administering the drug directly to the target site in the respiratory system. Thanks to this, it is possible to use lower doses of it without reducing their effectiveness. In this way, the toxicity of the therapy is also reduced while maintaining the therapeutic effect.

The subject of the invention in an embodiment is shown in a schematic drawing, in which the individual figures represent:

Fig. 1 - the inhaler in the first embodiment in a perspective view from the side and from above with a cut-away,

Fig. 2 - the inhaler in the second embodiment in a perspective view from the side and from above with a cut-out,

Fig. 3 - inhaler tube in bottom view.

The inhaler in the embodiment examples shown in the drawing consists of a vertically arranged cylindrical nebulization chamber 1 made of polypropylene with a diameter of 50 mm and a height of 100 mm. In the ellipsoidal upper base of the nebulization chamber 1 there is an aerosol discharge 1.1, and in the spun lower base there is a nozzle 2 supplying liquid in the form of a suspension. The outlet of the nozzle 2 is connected to a pipe 7, which has a decreasing cross-sectional area from the inlet and an axis line in the shape of a helix on the lateral surface of the cone directed with its apex upwards of the nebulization chamber 1. This helix with a narrowing of 63° is stretched to 45 mm, makes one revolution with a constant pitch and has a clockwise twist. The inlet and outlet diameters of the pipe 7 are 8 mm and 1.5 mm, respectively. In the nebulization chamber 1 there is a fan 8, the blades of which are mounted on the shaft of the motor placed on the outside of the lower base of the nebulization chamber 1. The JOHNSON RS-395 motor from JOHNSON MOTOR is used. In the first embodiment, the inlet of the nozzle 2 is connected successively through the injector 3 and the pump 4 to the first inlet 5, which is the gas inlet. The second inlet 6, which is the liquid inlet, is connected to the injector 3. The pump 4 is the JQB2438274 diaphragm air pump from Arduino. In the second embodiment, the inlet of the nozzle 2 is connected successively through the injector 3 and the pump 4 to the first inlet 5, which is the liquid inlet. The second inlet 6, which is the gas inlet, is connected to the injector 3. The pump 4 is the POMP-06-90 mini liquid pump.

The inhaler presented in the embodiment examples is used in the therapy of upper and lower respiratory tract diseases. In the first example, the liquid subjected to nebulization is a suspension, which is an aqueous solution of ipratropium bromide (atropine derivative) with air bubbles. This medicinal agent in the form of an aqueous solution with a concentration of 7 g/l is drawn from the container by means of a pump 4 and introduced through the first inlet 5 into the injector 3. During its flow through the injector 3, a negative pressure is generated and air is sucked in through the second inlet 6, which is mixed with the solution. In the second example, the liquid subjected to nebulization is a suspension, which is an aqueous solution of ipratropium and fenoterol dispersed in air. This medicinal agent in the form of an aqueous solution with a concentration of 5 g/l is sucked in from the container and through the second inlet 6 is supplied to the injector 3, in which it is mixed with air. The suction of the solution is caused by the negative pressure generated in the injector 3 as a result of the air flow taken in through the first inlet 5 and forced into the injector 3 by means of the pump 4. In both examples, the suspension produced, being a dispersion of gas in liquid or liquid in gas, is introduced through the nozzle 2 into the pipe 7. The velocity of the swirled suspension is increased in this pipe, which causes the suspension to be rapidly sprayed into very fine drops at its outlet. The sprayed drops are entrained by the air stream forced by the fan 8. The size of the sprayed drops depends on the pressure of the supplied suspension and the rotational speed of the fan 8. The produced therapeutic aerosol with the desired particle sizes can be directed to nasal cannulas, a nose mask, a face mask or to the mouthpiece by means of the aerosol discharge 1.1, and from there to the patient's respiratory system.

The drawings and examples provided do not limit the possibilities of realizing/making the inhaler in accordance with the invention, but only explain them.

List of designations:

- nebulization chamber

1.1 - aerosol discharge

- connector

- injector

- pump

- first inlet

- second inlet

- pipe

- fan

Claims (3)

1. An inhaler having a vertically arranged cylindrical nebulization chamber (1) with an aerosol discharge (1.1) in the upper base, characterized in that in the lower base of the nebulization chamber (1) there is a connector (2) for supplying fluid in the form of a liquid or gas or suspension, which is connected by an inlet through an injector (3) and a pump (4) to the first inlet (5), wherein the second inlet (6) is connected to the injector (3), and the connector (2) is connected by an outlet to a pipe (7) which has a decreasing cross-sectional area from the inlet and a helical axis line on the cone, and a fan (8) is located in the nebulization chamber (1). 2. An inhaler according to claim 1, characterized in that the first inlet (5) is a liquid or solid particle inlet and the second inlet (6) is a gas inlet. 3. An inhaler according to claim 1, characterized in that the first inlet (5) is a gas inlet and the second inlet (6) is a liquid or solid particle inlet.