CA1130661A - Apparatus for converting liquid compositions into aerosol form - Google Patents
Apparatus for converting liquid compositions into aerosol formInfo
- Publication number
- CA1130661A CA1130661A CA353,947A CA353947A CA1130661A CA 1130661 A CA1130661 A CA 1130661A CA 353947 A CA353947 A CA 353947A CA 1130661 A CA1130661 A CA 1130661A
- Authority
- CA
- Canada
- Prior art keywords
- plate
- inhalation
- aerosol form
- atomizer
- atomizer plate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Application Of Or Painting With Fluid Materials (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
An apparatus for use in converting a liquid composition into aerosol form for inhalation, which apparatus comprises an oscillatory atomizer plate having a working surface positioned so as in use to receive the liquid composition and a piezo-electric system which in use controls the oscillatory movement of the atomizer plate whereby the liquid composition received on the said working surface is converted into aerosol form for inhalation, the work-ing surface of the atomizer plate being provided with a film of an elasto-meric composition.
An apparatus for use in converting a liquid composition into aerosol form for inhalation, which apparatus comprises an oscillatory atomizer plate having a working surface positioned so as in use to receive the liquid composition and a piezo-electric system which in use controls the oscillatory movement of the atomizer plate whereby the liquid composition received on the said working surface is converted into aerosol form for inhalation, the work-ing surface of the atomizer plate being provided with a film of an elasto-meric composition.
Description
~ 3~61 `;
This invention relates to apparatus for converting liquid composi-tions into aerosol form for inhalation and is particularly concerned with ato-mizers which contain a piezo-electric oscillation system and which may be used for the administration as aerosols of liquid compositions containing medica-ments, and to a method for making an atomizer plate.
~ or certain purposes, for example the administration of antibio-tic substances for bronchospasmolysis, it is essential that pharmaceutical compositions which are inhaled in aerosol form should reach the lung, where they are active. For this to occur the inhaled compositions must be in the form of small droplets. If the droplets are too large they tend to precipi-tate prematureiy on inhalation, e.g. in the mouth or in the upper airways, so that the medicaments are ineffective or their desired effect is achieved to a lesser degree.
Aerosol devices which function by means of atomization of liquids at an atomizer plate coupled to the oscillations of a piezo-electric oscilla-tion system are described for example in German Offenlegungsschriften P 20 32 433, P 23 08 584, P 24 45 791, P 25 37 765 and P 26 37 162. These devices in general suffer from the disadvantage of producing too gr~at a proportion of droplets which are too large and which precipitate prematurely on inhalation.
It is an object of the present invention to provide an apparatus capable of producing an aerosol having a high proportion of small droplets, especially droplets which are sufficiently small so as to avoid premature precipitation on inhalation.
We have found that such an object may be achieved by providing the atomizer plate of a conventional device ~for example as described in the offenlegungsschriften mentioned above) with a coating comprising a thin film of one or more elastomers.
31 ~L3~6~L
Accordingly the present invention provides an apparatus for use in converting a liquid composition into aerosol form for inhalation, which apparatus comprises an oscillatory atomizer plate having a working surface positioned so as in use to receive the liquid composition and a piezo-electric system which in use controls the oscillatory movement of the atomizer plate whereby the liquid composition received on the said working surface is con-verted into aerosol form for inhalation, the working surface of the atomizer plate being provided with a film of an elastomeric composition having a thick-ness of 50 to 500 ~m.
According to a further feature of the present invention, there is provided an atomizer plate adapted for use in an apparatus according to the invention as hereinbefore defined and having a working surface provided with a film of an elastomeric composition whose thickness is in the range o~ from 50 to 500 ~m. The elastomeric film should be thin and preferably has a thick-ness of from 100 to 300 ~m. The film can comprise elastomers of many different types, alone or mixed with alastomers or with other materials. Polyurethanes are an example of a suitable class of elastomers.
According to a still further aspect of the invention, there is pro-vided a method of making an atomizer plate for use in an apparatus for con-verting a liquid into aerosol form for inhalation, comprising the steps of i cleaning the plate with a cleaning agent;
ii applying to the surface of the plate a polyurethane precursor comprising a 50% solution of di-isocyanatephenylmethane and a polyvalent poly-ether alcohol in anhydrous toluene adjusted to a viscosity of 23 poise;
iii arranging the plate in a horizontal position to produce an ~'
This invention relates to apparatus for converting liquid composi-tions into aerosol form for inhalation and is particularly concerned with ato-mizers which contain a piezo-electric oscillation system and which may be used for the administration as aerosols of liquid compositions containing medica-ments, and to a method for making an atomizer plate.
~ or certain purposes, for example the administration of antibio-tic substances for bronchospasmolysis, it is essential that pharmaceutical compositions which are inhaled in aerosol form should reach the lung, where they are active. For this to occur the inhaled compositions must be in the form of small droplets. If the droplets are too large they tend to precipi-tate prematureiy on inhalation, e.g. in the mouth or in the upper airways, so that the medicaments are ineffective or their desired effect is achieved to a lesser degree.
Aerosol devices which function by means of atomization of liquids at an atomizer plate coupled to the oscillations of a piezo-electric oscilla-tion system are described for example in German Offenlegungsschriften P 20 32 433, P 23 08 584, P 24 45 791, P 25 37 765 and P 26 37 162. These devices in general suffer from the disadvantage of producing too gr~at a proportion of droplets which are too large and which precipitate prematurely on inhalation.
It is an object of the present invention to provide an apparatus capable of producing an aerosol having a high proportion of small droplets, especially droplets which are sufficiently small so as to avoid premature precipitation on inhalation.
We have found that such an object may be achieved by providing the atomizer plate of a conventional device ~for example as described in the offenlegungsschriften mentioned above) with a coating comprising a thin film of one or more elastomers.
31 ~L3~6~L
Accordingly the present invention provides an apparatus for use in converting a liquid composition into aerosol form for inhalation, which apparatus comprises an oscillatory atomizer plate having a working surface positioned so as in use to receive the liquid composition and a piezo-electric system which in use controls the oscillatory movement of the atomizer plate whereby the liquid composition received on the said working surface is con-verted into aerosol form for inhalation, the working surface of the atomizer plate being provided with a film of an elastomeric composition having a thick-ness of 50 to 500 ~m.
According to a further feature of the present invention, there is provided an atomizer plate adapted for use in an apparatus according to the invention as hereinbefore defined and having a working surface provided with a film of an elastomeric composition whose thickness is in the range o~ from 50 to 500 ~m. The elastomeric film should be thin and preferably has a thick-ness of from 100 to 300 ~m. The film can comprise elastomers of many different types, alone or mixed with alastomers or with other materials. Polyurethanes are an example of a suitable class of elastomers.
According to a still further aspect of the invention, there is pro-vided a method of making an atomizer plate for use in an apparatus for con-verting a liquid into aerosol form for inhalation, comprising the steps of i cleaning the plate with a cleaning agent;
ii applying to the surface of the plate a polyurethane precursor comprising a 50% solution of di-isocyanatephenylmethane and a polyvalent poly-ether alcohol in anhydrous toluene adjusted to a viscosity of 23 poise;
iii arranging the plate in a horizontal position to produce an ~'
- 2 -~13~66~L
homogeneous layer;
iv curing the coating in a humid atmosphere for 24 hours at approx-imately 18C and 50% relative humidity, to coat the plate with a film whose thickness is in the range of from 50 to 500 ~m.
-~
:;
:
- 2a -:, , ':
~3~
The atomizer plate is desirably made from a metal having approp-riate physical and chemical properties, for example stainless steel. The elastomers may be applied to the surface of the plate for example in the form of concentrated solutions in suitable solvents, e.g. organic solvents, from which the solvent may be removed by evaporation, or the elastomers may be applied in the form of monomers and/or prepolymers, optionally in solution and polymerization may take place in situ followed by evaporation of solvent where necessary. For example polyurethanes may be polymerized in situ on the atomizer plate which in that case requires no previous treatment other than to ensure that it is thoroughly clean. In some circumstances (especially where elastomers other than polyurethanes are used) treatment of the surface of the plate with a primer may improve bonding of the elastomer to the plate.
The invention will now be more particularly described in the fol-lowing non-limiting examples.
Example 1: Preparation of an Atomization Apparatus of the Invention The working surface of the atomizer plate ~made of stainless steel) of an inhalation apparatus according to German Offenlegungsschrift 2 308 584 is cleaned with methylene chloride. A polyurethane precursor consist-ing of 50 mg of a 50% solution of di-isocyanatephenylmethane and a polyvalent polyether alcohol in anhydrous ~oluene, adjusted to a viscosity of 23 poise, is applied to the working surface. With the atomizer plate in horizontal position, the mixture distributes over the working surface in such a way that a homogeneous layer is produced. The coating is cured in a humid atmosphere, curing being generally finished after 24 hours at approx. 18C and 50% rela-tive humidity. A film of 200 ~m thickness with a breaking tension of 340%
and a tensile strength of 0.35 kg results.
~3~66~L
ExampIe 2 Comparative Tests Tests were performed on dogs in which bronchospasm was induced with acetyl chloride. A dose of 200 ~g of fenoterol was administered in each case. The apparatus coated as in example 1 was tested against a commercial metering aerosol functioning by propellant gas delivering the above dose upon valve actuation and against an apparatus constructed in accordance with German Qffenlegungsschift 2 308 584 having an uncoated atomizer plate. The effect of the dose adminis~ered by the apparatus of the invention was equi-; valent to that delivered by the metering aerosol. The apparatus with the un-coated atomizer plate however had no noticeable effect on the tested animals.
., .
i~ . ' ~ .' -'
homogeneous layer;
iv curing the coating in a humid atmosphere for 24 hours at approx-imately 18C and 50% relative humidity, to coat the plate with a film whose thickness is in the range of from 50 to 500 ~m.
-~
:;
:
- 2a -:, , ':
~3~
The atomizer plate is desirably made from a metal having approp-riate physical and chemical properties, for example stainless steel. The elastomers may be applied to the surface of the plate for example in the form of concentrated solutions in suitable solvents, e.g. organic solvents, from which the solvent may be removed by evaporation, or the elastomers may be applied in the form of monomers and/or prepolymers, optionally in solution and polymerization may take place in situ followed by evaporation of solvent where necessary. For example polyurethanes may be polymerized in situ on the atomizer plate which in that case requires no previous treatment other than to ensure that it is thoroughly clean. In some circumstances (especially where elastomers other than polyurethanes are used) treatment of the surface of the plate with a primer may improve bonding of the elastomer to the plate.
The invention will now be more particularly described in the fol-lowing non-limiting examples.
Example 1: Preparation of an Atomization Apparatus of the Invention The working surface of the atomizer plate ~made of stainless steel) of an inhalation apparatus according to German Offenlegungsschrift 2 308 584 is cleaned with methylene chloride. A polyurethane precursor consist-ing of 50 mg of a 50% solution of di-isocyanatephenylmethane and a polyvalent polyether alcohol in anhydrous ~oluene, adjusted to a viscosity of 23 poise, is applied to the working surface. With the atomizer plate in horizontal position, the mixture distributes over the working surface in such a way that a homogeneous layer is produced. The coating is cured in a humid atmosphere, curing being generally finished after 24 hours at approx. 18C and 50% rela-tive humidity. A film of 200 ~m thickness with a breaking tension of 340%
and a tensile strength of 0.35 kg results.
~3~66~L
ExampIe 2 Comparative Tests Tests were performed on dogs in which bronchospasm was induced with acetyl chloride. A dose of 200 ~g of fenoterol was administered in each case. The apparatus coated as in example 1 was tested against a commercial metering aerosol functioning by propellant gas delivering the above dose upon valve actuation and against an apparatus constructed in accordance with German Qffenlegungsschift 2 308 584 having an uncoated atomizer plate. The effect of the dose adminis~ered by the apparatus of the invention was equi-; valent to that delivered by the metering aerosol. The apparatus with the un-coated atomizer plate however had no noticeable effect on the tested animals.
., .
i~ . ' ~ .' -'
Claims (7)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. An apparatus for use in converting a liquid composition into aerosol form for inhalation, which apparatus comprises an oscillatory atomizer plate having a working surface positioned so as in use to receive the liquid composi-tion and a piezo-electric system which in use controls the oscillatory movement of the atomizer plate whereby the liquid composition received on the said working surface is converted into aerosol form for inhalation, the working surface of the atomizer plate being provided with a film of an elastomeric composition having a thickness of 50 to 500 µm.
2. An apparatus as claimed in claim 1 wherein the thickness is 100 to 300 µm.
3. An apparatus as claimed in claim 1 or 2 wherein the elastomeric is polyurethane.
4. An atomizer plate for use in an apparatus for converting a liquid in-to aerosol form for inhalation, having a working surface provided with a film of an elastomeric composition whose thickness is in the range of from 50 to 500 µm.
5. An atomizer plate as claimed in claim 4 wherein the elastomeric film has a thickness of 100 to 300 µm.
6. An atomizer plate as claimed in claim 4 or 5 wherein the elastomer is polyurethane.
7. A method of making an atomizer plate for use in an apparatus for converting a liquid into aerosol form for inhalation, comprising the steps of i cleaning the plate with a cleaning agent;
ii applying to the surface of the plate a polyurethane precursor comprising a 50% solution of di-isocyanatephenylmethane and a polyvalent poly-ether alcohol in anhydrous toluene adjusted to a viscosity of 23 poise;
iii arranging the plate in a horizontal position to produce an homogeneous layer;
iv curing the coating in a humid atmosphere for 24 hours at approx-imately 18°C and 50% relative humidity, to coat the plate with a film whose thickness is in the range of from 50 to 500 µm.
ii applying to the surface of the plate a polyurethane precursor comprising a 50% solution of di-isocyanatephenylmethane and a polyvalent poly-ether alcohol in anhydrous toluene adjusted to a viscosity of 23 poise;
iii arranging the plate in a horizontal position to produce an homogeneous layer;
iv curing the coating in a humid atmosphere for 24 hours at approx-imately 18°C and 50% relative humidity, to coat the plate with a film whose thickness is in the range of from 50 to 500 µm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA353,947A CA1130661A (en) | 1980-06-13 | 1980-06-13 | Apparatus for converting liquid compositions into aerosol form |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA353,947A CA1130661A (en) | 1980-06-13 | 1980-06-13 | Apparatus for converting liquid compositions into aerosol form |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1130661A true CA1130661A (en) | 1982-08-31 |
Family
ID=4117174
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA353,947A Expired CA1130661A (en) | 1980-06-13 | 1980-06-13 | Apparatus for converting liquid compositions into aerosol form |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1130661A (en) |
-
1980
- 1980-06-13 CA CA353,947A patent/CA1130661A/en not_active Expired
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| IE49413B1 (en) | Inhalers | |
| DE60216423T2 (en) | CONTAINER FOR A DOSING INHALER | |
| CN1113675C (en) | Metered dose inhaler for fluticasone propionate | |
| AU2018201530B2 (en) | Coating process | |
| JP6006268B2 (en) | Aerosols containing particulate active substances | |
| EP1251896B1 (en) | Inhalation nebulizer | |
| SK139197A3 (en) | Metered dose inhaler for beclomethasone dipropionate | |
| CA2144752A1 (en) | Dispensing apparatus | |
| CA1130661A (en) | Apparatus for converting liquid compositions into aerosol form | |
| WO2016164508A1 (en) | Formulation and aerosol canisters, inhalers, and the like containing the formulation | |
| AU661274B2 (en) | Process and device for dosing powders | |
| AU777421B2 (en) | Medicament delivery device with moisture resistant coating | |
| US20030232020A1 (en) | Particulate materials | |
| WO2012069623A1 (en) | Curing on demand polyurethane composition suitable for the preparation of coatings or floorings | |
| US4277203A (en) | Soil stabilization materials and methods | |
| NZ206707A (en) | Drying paint coating by applying drying agent electrostatically | |
| KR900003314A (en) | Resin composition for chipping paint, chipping paint composition and method for forming coating film composed of the paint composition | |
| CN102686651A (en) | Method for treating the surface of a device for dispensing a fluid product | |
| US20070139442A1 (en) | Coated blending system | |
| GB2467758A (en) | Metered dose inhaler with internal coating of siloxane and/or silazane | |
| EP3661577B1 (en) | Coating process | |
| US20230081910A1 (en) | Inhaler | |
| JPS61111941A (en) | Indicating mark for one point cutting position | |
| WO2004093950A1 (en) | A medicament dispenser | |
| GB2405334A (en) | Particulate dihydroergotamine and its use in aerosol formulations |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |