Title of Invention

"AQUEOUS PHARMACEUTICAL PREPARATION IN THE FORM OF A SOLUTION"

Abstract The present invention relates to pharmaceutical preparations in the form of aqueous solutions for the production of propellant-free aerosols.
Full Text The present invention relates to pharmaceutical
preparations in the form of aqueous solutions for the
production of propellant-free aerosols for inhalation.
In the last 20 years, the use of dosage aerosols has
become a strong part of the therapy of obstructive lung
diseases, especially asthma. Usually, fluorochlorohydrocarbons
are used as propellant gases. Following the
recognition of the ozone damaging potential of these
propellant gases, attempts to develop alternatives have
increased. One alternative is the development of
nebulisers, where aqueous solutions of pharmacologically
active substance are sprayed under high pressure so that a
mist of inhalable particles results. The advantage of
these nebulisers is that they completely dispense with the
use of propellant gases.
Such nebulisers are, for example, described in PCT Patent
Application W091/14468, herein incorporated by reference.
With the nebulisers described here, active ingredients
solutions in defined volumes are sprayed through small
jets under high pressure, so that inhalable aerosols with
a mean particle size of between 3 and 10 micrometers
result. A further developed embodiment of the
aforementioned nebuliser is described in PCT/EP96/04351.
The nebuliser portrayed in Figure 6 carries the trade mark
Respimat®.
Usually, Pharmaceuticals intended for inhalation are
dissolved in an aqueous or ethanolic solution, and
according to the solution characteristics of the active
substances, solvent mixtures of water and ethanol may also
be suitable.
Other components of the solvent are, apart from water
and/or ethanol, optionally other cosolvents, and also the
pharmaceutical preparation may also additionally contain
flavourings and other pharmacological additives. Examples
of cosolvents are those which contain hydroxyl groups or
other polar groups, for example alcohols - especially
isopropylalcohol, glycols - especially propyleneglycol,
polyethyleneglycol, polypropyleneglycol, glycolether,
glycerol, polyoxyethylene alcohols and polyoxyethylene
fatty acid esters. Cosolvents are suitable for increasing
the solubility of adjuvant materials and, if necessary,
active ingredients.
The proportion of dissolved pharmaceutical in the finished
pharmaceutical preparation is between 0.001 and 30% -
preferably between 0.05 and 3%, especially 0.01 to 2%.
The maximum concentration of pharmaceutical is dependent
on the solubility in solvent and on the dosage required to
achieve the desired therapeutical effect.
All substances which are suitable for application by
inhalation and which are soluble in the specified solvent
can be used as Pharmaceuticals in the new preparations.
Pharmaceuticals for the treatment of diseases of the
respiratory passages are of especial interest.
Therefore, of especial interest are betamimetics,
anticholinergics, antiallergics, antihistamines and
steroids, as well as combinations of these active
ingredients.
It was found, in a series of examinations, that the
nebuliser described above can feature spraying anomalies
when using aqueous pharmaceutical solutions (generally,
double distilled or demineralised (ion exchanged) water is
used as a solvent). These spraying anomalies represent an
alteration of the spraying pattern of the aerosol, with
the consequence that in extreme cases an exact dose can no
longer be guaranteed to the patient as a result of the
altered mean droplet size distribution (alteration to the
lung accessible part of the aerosol). These spraying
anomalies especially occur when the nebuliser is used at
intervals, for example with breaks of approximately 3 or
more days between utilisation. It is possible that these
spraying anomalies, which in extreme cases can lead to a
dysfunction of the nebuliser, are as a result of
microscopic deposits in the area of the jet opening.
Surprisingly, it was discovered that these spraying
anomalies no longer occur when the aqueous pharmaceutical
preparations which are to be sprayed contain a defined
effective quantity of a complexing agent, especially of
EDTA (ethylenediamine tetraacetic acid) or salts thereof.
The aqueous pharmaceutical preparations according to the
invention contain water as a solvent, but if necessary
ethanol can be added to increase the solubility up to 70%
(by volume), preferably between 30 and 60% (by volume).
Other pharmacological adjuvants such as preservatives,
especially benzalkonium chloride, can be added. The
preferred quantity of preservative, especially
benzalkonium chloride, is between 8 and 12 mg/100 ml
solution.
Suitable complexing agents are those which are
pharmacologically acceptable, especially those which are
already approved by medical regulating authorities. EDTA,
nitrilotriacetic acid, citric acid and ascorbic acid and
their salts are especially suitable. The disodium salt of
ethylenediamtetraacetic acid is especially preferred.
The quantity of complexing agent is selected so that an
effective quantity of complexing agent is added to prevent
further occurrence of spraying anomalies.
The effective quantity of the complexing agent Na-EDTA is
between 10 and 1000 mg/100 ml solution, especially between
10 and 100 mg/100 ml solution. The preferred range of the
quantity of complexing agent is between 25 and
75 mg/100 ml solution, especially between 25 and
50 mg/100 ml solution.
The following named compounds can principally be used as
active ingredients, singly or in combination, in the
aqueous pharmaceutical preparation according to the
invention. In individual cases, it may be required to add
a higher quantity of ethanol or a solution mediator to
improve solubility.
Tiotropium bromide, 3-[(hydroxydi-2-thienylacetyl)oxy]-
8, 8-dimethyl-8-azoniabicyclo[3.2.1] oct-6-ene-bromide
As betamimetics:
Bambuterol Bitolterol Carbuterol Formoterol
Clenbuterol Fenoterol Hexoprenaline Procaterol
Ibuterol Pirbuterol Salmeterol Tulobuterol
Reproterol Salbutamol Sulfonterol Terbutaline
1-(2-Fluoro-4-hydroxyphenyl)-2-[4-(1-benzimidazolyl)-2-
methyl-2-butylamino]ethanol,
erythro-5'-hydroxy-8'-(l-hydroxy-2-isopropylaminobutyl)-
2H-1,4-benzoxazin-3-(4H)-one,
1-(4-Amino-3-chloro-5-trifluoromethylphenyl)-2-tert.-
butyl-amino)ethanol,
1-(4-Ethoxycarbonylamino-3-cyano-5-fluorophenyl)-2-(tert.-
butylamino)ethanol.
As anticholinergi.es:
Ipratropium bromide
Oxitropium bromide
Trospium chloride
N~P~fluoroethylene nortropine benzylate methobromide
As steroids:
Budesonide
Beclometasone (or the 17,21-dipropionate)
Dexamethasone-21-i sonicot inate
Flunisolide
As antiallergics:
Disodium cromoglycate
Nedocromil
Epinastine
Examples of steroids which can be used as active
ingredients in the pharmaceutical preparations according
to the invention:
Seratrodast
Pranlukast
Butixocort
Deflazacort
Fluticasone
Mometasone furoate
Beclomethasone, Douglas
Ciclometasone
Fluocortin butyl
Deflazacort
Ciclometasone
Prednicarbate
Tixocortol-pivalate
Mycophenolate mofetil
Zileutone
Budesonide
Promedrol
Tipredane
Icomethasone enbutate
Cloprednol
Halometasone
Alclometasone
Alisactide
Hydrocortisone-butyrate
propionate
Alclometasone-dipropionate
Lotrisone
Deprodone
Methylprednisolone-
Aceponate
Moraetasone
Hydrocort isone-aceponate
Ulobetasol-propionate
Triamcinolone
Meprednisone
Dexamethasone
Medrysone
Fluocinolone acetonide
Deprodone Propionate
Fluocinonide
Difluprednate
Dexamethasone isonicotinate
Fluocortolone capronate
Triamcinolone-Hexacetonide
Formebolone
Endrisone
Halcinonide
Clobetasol
Diflorasone
Amcinonide
Cortivazol
Fluodexane
Budesonide
Demetex
Canesten-HC
Fluticasone-propionate
Halopredone-acetate
Mometasone-furoate
Mometasone
Aminoglutethimide
Hydrocort i sone
Fluorometholone
Betamethasone
Fluclorolone acetonide
Paramethasone-acetate
Aristocort-diacetate
Mazipredone
Betamethasone valerate
Beclomethasone-Dipropionate
Formocortal
Cloprednol
Clobetasone
Flunisolide
Fluazacort
Hydrocortisone-17-Butyrate
Fluocortin
Betamethasone Dipropionate
Betamethasone adamantoate
Trilostane
Clobetasone
Trimacinolon Benetonide
9-ct-chloro-6-a-fluoro-ll-p-17-a-dihydroxy-16-a-methyl-3-
oxo-1,4-androstadiene-17-p-carboxylic acid-methylester-17-
propionate.
Other especially suitable active ingredients for the
production of aqueous pharmaceutical preparations for
applications by inhalation are:
p-Sympatico-mimetics;
e.g. Fenoterol, Salbutamol, Formoterol, Terbutalin;
Anticholinergics;
e.g. Ipatropium, Oxitropium, Thiotropium;
Steroids;
e.g. Beclomethasone dipropionate, Budesonide, Flunisolide;
Peptides;
e.g. insulin;
Pain killers;
e.g. Fentanyl.
It is obvious that those pharmacologically acceptable
salts will be used which dissolve in the solvent according
to the invention if necessary.
In the following text, the advantage of the pharmaceutical
preparation according to the invention will be explained
more clearly with Examples.
As a pharmaceutical solution, Ipratropium bromide solution
(c = 333 mg/100 ml) with a pH value of 3.4, and the
preservative benzalkonium chloride (c = 10 mg/100 ml) was
used. The tested solutions either contained no EDTA or
EDTA in a concentration of c = 0.1 mg, 1 mg, 50 mg and
75 mg/100 ml as a disodium salt.
Unused Respimat® nebulisers were used for the test
(technical data: volumes of the applied pharmaceutical
preparation approximately 15 l, pressure approximately
300 bar, 2 streams impacting from two jet openings of size
5 x 8 µl. The operation mode for the test is set so that
the units are used 5 times, are left to stand for 3 days,
and then are used again 5 times, this pattern being
repeated. 15 units were examined in each series of
measurements, the results with regard to spray anomalies are shown in Table 1.
Table 1
(Table Removed)

Formulation Examples (for Fenoterol and Ipatropium bromide)
(Table Removed)

In analogy to the above Examples, the following solutions were produced.
(Table Removed)
In the form of the disodium salt
A concentration range from 10 mg to 20,000 mg/100 ml is
conceivable for the active ingredients, depending on the
dose per operation and their solubility. The specified
doses are calculated based on a therapeutically effective
single dose of approximately 12 microlitres per operation.
The active ingredient concentrations of the pharmaceutical
preparations can alter when the volume of the individual
dose is altered.
The concentration range for the complexing agents (for
example DiNa-EDTA) is between 10 and 1000 mg/100 ml
(dependent on the pH value of the solution). The
preferred range is between 25 mg and 100 mg/100 ml.
The quantity of benzalkonium chloride should be in the
range of 8 to 12 mg/100 ml.
The solutions are set to a pH of 3.2 to 3.4 with 0.1 or IN
HCl. All concentrations relate to 100 ml of finished
active ingredient solution.




WE CLAIMS:
1. An aqueous pharmaceutical preparation in the form of
a solution for the production of propellant-free aerosols
for inhalation comprising a pharmacologically active
ingredient, characterised in that the pharmaceutical
preparation contains a complexing agent.
2. A pharmaceutical preparation according to claim 1,
characterised in that the active ingredient is intended
for application by inhalation, especially for the
treatment of respiratory passage diseases.
3. A pharmaceutical preparation according to claim 2,
characterised in that the active ingredient is selected
from the group betamimetics, anticholinergics,
antiallergics and/or antihistamines.
4. A pharmaceutical preparation according to claims 1, 2
or 3, characterised in that the active ingredient is
selected from the group
Fenotrol, Ipatropium bromide, Berotec, Atrovent, Berodual,
Salbutamol, Combivent, Ba 679 Br, BEA 2108 Br, Oxivent.
5. A pharmaceutical preparation according to any one of
claims 1 to 4, characterised in that the complexing agent
is nitrilotriacetic acid, citric acid, ascorbic acid or
salts thereof.
6. A pharmaceutical preparation according to any one of
claims 1 to 4, characterised in that the complexing agent
is EDTA or a salt thereof.
7. A pharmaceutical preparation according to any one of
claims 1 to 6, characterised in that the concentration of
the complexing agent is between 10 and 100 mg/100 ml
solution.
8. A pharmaceutical preparation according to claim 7
characterised in that the concentration of the complex
former is between 25 and 75 mg/100 ml solution.
9. A pharmaceutical preparation according to one of
claims 1 to 8, characterised in that the adjuvant is a
preservative.
10. A pharmaceutical preparation according to claim 9,
characterised in that the preservative is Benzalkonium
chloride.
11. A pharmaceutical preparation according to any one of
the previous claims, characterised in that the
pharmaceutical preparation contains up to 70% (by volume)
ethanol.
12. A pharmaceutical preparation according to one of the
previous claims, characterised in that it contains the
active ingredient in a concentration of 0.001 to
2 g/100 ml solution.
13. A pharmaceutical preparation according to any one of
the previous claims, characterised in that it contains
pharmacologically acceptable adjuvant and flavouring
substances.
14. The use of aqueous pharmaceutical preparations in the
production of propellant-free aerosols for inhalation,
characterised in that the pharmaceutical preparations
contain a complexing agent.
15. The use according to claim 14, characterised in that
the active ingredient is selected from the group
Betamimetics, Anticholinergics, Antiallergics and/or
antihistamines.
16. The use according to claim 14 or 15, characterised in
that the active ingredient is selected from the group
Fenotrol, Ipatropium bromide, Berotec, Atrovent, Berodual,
Salbutamol, Combivent, Ba 679 Br, BEA 2108 Br, Oxivent.
17. The use according to any one of claims 14 to 16,
characterised in that the complexing agent is
nitriloacetic acid, citric acid, ascorbic acid or a salt
thereof.
18. The use according to any one of claims 14 to 16,
characterised in that the complexing agent is EDTA or a
salt thereof.
19. The use according to claim 18, characterised in that
the concentration of the complexing agent is between 25
and 75 mg.
20. The use according to any one of claims 14 to 19,
characterised in that the pharmaceutical preparation
contains up to 70% (by volume) ethanol.
21. The use according to any one of claims 14 to 20,
characterised in that the pharmaceutical preparation
contains active ingredient in a concentration of 0.001 to
2 g/100 ml solution.
22. An aqueous pharmaceutical preparation substantially as herein described with
reference to the foregoing examples.

Documents:

3634-DEL-1997-Abstract-(26-03-2008).pdf

3634-del-1997-abstract.pdf

3634-DEL-1997-Claims-(26-03-2008).pdf

3634-del-1997-claims.pdf

3634-DEL-1997-Correspondence-Others-(26-03-2008).pdf

3634-del-1997-correspondence-others.pdf

3634-DEL-1997-Description (Complete)-(26-03-2008).pdf

3634-del-1997-description (complete).pdf

3634-DEL-1997-Form-1-(26-03-2008).pdf

3634-del-1997-form-1.pdf

3634-del-1997-form-18.pdf

3634-DEL-1997-Form-2-(26-03-2008).pdf

3634-del-1997-form-2.pdf

3634-del-1997-form-29.pdf

3634-DEL-1997-Form-3-(26-03-2008).pdf

3634-del-1997-form-4.pdf

3634-del-1997-form-6.pdf

3634-DEL-1997-GPA-(26-03-2008).pdf

3634-del-1997-gpa.pdf

3634-DEL-1997-Petition-137-(26-03-2008).pdf

3634-DEL-1997-Petition-138-(26-03-2008).pdf


Patent Number 222864
Indian Patent Application Number 3634/DEL/1997
PG Journal Number 37/2008
Publication Date 12-Sep-2008
Grant Date 27-Aug-2008
Date of Filing 16-Dec-1997
Name of Patentee BOEHRINGER INGELHEIM KG.
Applicant Address D-55216 INGELHEIM AM RHEIN, GERMANY.
Inventors:
# Inventor's Name Inventor's Address
1 DR. BERNHARD FREUND KARL-DOMDEY-STR.28, D-55435 GAU-ALGESHEIM, GERMANY.
2 DR. BERND ZIERENBERG GOETHESTR. 1 D-55411 BINGEN AM RHEIN, GERMANY.
PCT International Classification Number A61K
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 196 53 969.2 1996-12-20 Germany