Title:  Medicinal aerosol formulation

United States Patent:  6,548,049

Issued:  April 15, 2003

Inventors:  Cutie; Anthony J. (Bridgewater, NJ); Adjei; Akwete L. (Bridgewater, NJ); Sexton; Frederick A. (Fair Haven, NJ)

Assignee:  Aeropharm Technology Incorporated (Edison, NJ)

Appl. No.:  702201

Filed:  October 31, 2000

This invention relates to a medicinal aerosol formulation and more particularly, to a medicinal aerosol formulation containing pioglitazone medicament and a fluid carrier.

DETAILED DESCRIPTION OF THE INVENTION

This application makes reference to U.S. application Ser. No. 09/209,228 filed Dec. 10, 1998, now U.S. Pat. No. 6,261,539B1, which is incorporated hereinto by reference in its entirety.

This invention involves a stable aerosol formulation suitable for delivery which comprises (a) a pioglitazone medicament, and (b) a suitable fluid carrier. The pioglitazone, e.g. hydrochloride, may be present as a single drug or in combination with a suitable .beta.-cell hypoglycemic, such as an amylin and an insulin and their derivatives and the .alpha.-cell hypoglycemic glucagon.

A suitable .beta.-cell hypoglycemic medicament is one selected from either an amylin or an insulin and any of their derivatives. A suitable synthetic, antidiabetic agent is one selected from an acetohexamide, chlorpropamide, tolazemide, tolbutamide, glipizide, glyburide, glucophage, phentolamine, etc., and a mixture of any two or three of the foregoing medicaments.

The tern "insulin" shall be interpreted to encompass natural extracted human insulin, recombinantly produced human insulin, insulin extracted from bovine and/or porcine sources, recombinantly produced porcine and bovine insulin and mixtures of any of these insulin products. The term is intended to encompass the polypeptide normally used in the treatment of diabetics in a substantially purified form but encompasses the use of the term in its commercially available pharmaceutical form, which includes additional excipients. The insulin is preferably recombinantly produced and may be dehydrated (completely dried) or in solution.

The terms "insulin analog," "monomeric insulin" and the like are used interchangeably herein and are intended to encompass any form of "insulin" as defined above wherein one or more of the amino acids within the polypeptide chain has been replaced with an alternative amino acid and/or wherein one or more of the amino acids has been deleted or wherein one or more additional amino acids has been added to the polypeptide chain or amino acid sequences which act as insulin in decreasing blood glucose levels. In general, the "insulin analogs" of the present invention include "insulin lispro analogs," as disclosed in U.S. Pat. No. 5,547,929, incorporated hereinto by reference in its entirety, insulin analogs including LysPro insulin and humalog insulin, and other "super insulin analogs", wherein the ability of the insulin analog to affect serum glucose levels is substantially enhanced as compared with conventional insulin as well as hepatoselective insulin analogs which are more active in the liver than in adipose tissue. Preferred analogs are monomeric insulin analogs, which are insulin-like compounds used for the same general purpose as insulin such as insulin lispro i.e., compounds which are administered to reduce blood glucose levels.

An "amylin" includes natural human amylin, bovine, porcine, rat, rabbit amylin, as well as synthetic, semi-synthetic or recombinant amylin or amylin analogs including pramlintide and other amylin agonists as disclosed in U.S. Pat. No. 5,686,411, and U.S. Pat. No. 5,854,215, both of which are incorporated hereinto by reference in their entirety.

For purposes of the formulations of this invention, which are intended for inhalation into the lungs, the pioglitazone medicament, e.g. pioglitazone hydrochloride, and the other medicament (when present) are preferably micronized whereby a therapeutically effective amount or fraction (e.g. ninety percent or more) of the medicament is particulate. Typically, the particles have a diameter of less than about 10 microns, and preferably less than about 5 microns, in order that the particles can be inhaled into the respiratory tract and/or lungs.

The particulate pioglitazone hydrochloride medicament or drug is present in the inventive formulations in a therapeutically effective amount, that is, an amount such that the drug can be administered as a dispersion or an aerosol, such as topically, or via oral or nasal inhalation, and cause its desired therapeutic effect, typically preferred with one dose, or through several doses. The pioglitazone hydrochloride medicament is administered as an aerosol from a conventional valve, e.g., a metered dose valve, through an aerosol adapter also known as an actuator.

The term "amount" as used herein refers to quantity or to concentration as appropriate to the context. The amount of pioglitazone hydrochloride medicament or mixture of medicaments including pioglitazone hydrochloride that constitutes a therapeutically effective amount varies according to factors such as the potency of the particular medicament or medicaments used, the route of administration of the formulation, and the mechanical system used to administer the formulation. A therapeutically effective amount of pioglitazone hydrochloride, alone or combined, can be selected by those of ordinary skill in the art with due consideration of such factors. Generally a therapeutically effective amount of pioglitazone hydrochloride will be from about 0.010 parts by weight to about 20 parts by weight based on 100 parts by weight of the fluid carrier e.g. propellant.

A suitable fluid carrier is selected. A suitable fluid carrier includes air, a hydrocarbon, such as n-butane, propane, isopentane, etc. or a propellant. A suitable propellant is any fluorocarbon, e.g. a 1-6 hydrogen containing flurocarbon such as CHF₂ CHF₂, CF₃ CH₂ F, CH₂ F₂ CH₃ and CF₃ CHFCF₃ ; a perfluorocarbon, e.g. a 1-4 carbon perfluorocarbon, such as CF₃ CF₃, CF₃ CF₂ CF₃ ; or any mixture of the foregoing, having a sufficient vapor pressure to render them effective as propellants. Some typical suitable propellants include conventional chlorofluorocarbon (CFC) propellants such as propellants 11, 12 and 114 or a mixture of any of the foregoing propellants. Non-CFC propellants such as 1,1,1,2-tetrafluoroethane (Propellant 134a), 1,1,1,2,3,3,3-heptafluoropropane (Propellant 227) or mixtures thereof are preferred. The propellant is preferably present in an amount sufficient to propel a plurality of the selected doses of the drug from an aerosol canister.

Optionally, a suitable stabilizer is selected. A suitable stabilizer is a "water addition". As used herein a "water addition" is an amount of water which (1) is added, either initially with other components of the aerosol formulation, e.g. the pioglitazone hydrochloride medicament, and fluid carrier, or after the other components, e.g. medicament, fluid carrier, are combined and processed, (2) is in addition to the water which is always present and which develops during processing and/or storage of the aerosol formulation, i.e. "developed" or "nascent" formulation water, and (3) is present in an amount which further stabilizes a medicinal aerosol formulation having nascent formulation, e.g. of pioglitazone hydrochloride water.

An aerosol formulation preferably comprises the water addition in an amount effective to more effectively stabilize the formulation relative to an identical formulation not containing the water addition, i.e. containing only nascent formulation water, such that the drug, e.g. pioglitazone hydrochloride, does not settle, cream or flocculate after agitation so quickly as to prevent reproducible dosing of the drug. Reproducible dosing can be achieved if the formulation retains a substantially uniform drug concentration for about fifteen seconds to about five minutes after agitation.

The particular amount of the water addition that constitutes an effective amount is dependent upon the particular fluid carrier, e.g. propellant, and on the particular drug or drugs used in the formulation. It is therefore not practical to enumerate specific effective amounts for use with specific formulations of the invention, but such amounts can readily be determined by those skilled in the art with due consideration of the factors set forth above. Generally, however, the water addition must be present in a formulation in an amount in excess of the concentration of the nascent formulation water. Such concentration of nascent formulation water typically ranges up to 300 parts by weight per one million parts by weight of the total weight of the aerosol formulation. Accordingly, the water addition in excess of this nascent water concentration typically ranges from about 10 parts by weight to 5000 parts by weight per one million parts by weight of the total aerosol formulation weight. Most preferred is that the concentration of the water addition in excess of this nascent water concentration is from 500 parts by weight to 5000 parts by weight per one million parts by weight of the total weight of the medicinal aerosol formulation.

It is to be emphasized that this is an amount which exceeds the amount of nascent or developed formulation water. It is also to be stressed that preferably this amount of water addition can be added and initially combined with the other components of the formulation, e.g. pioglitazone hydrochloride and fluid carrier, e.g. 1,1,1,2-tetrahydrofluoroehtane. However, the water addition can be added to the resultant formulation after these other components have been processed, e.g. prior to or subsequent to storage.

It has surprisingly been found that the pioglitazone hydrochloride formulation of the invention is stable without the necessity of employing a cosolvent, such as ethanol, or surfactants. However, further components, such as conventional lubricants or surfactants, cosolvents, ethanol, etc., can also be present in an aerosol formulation of the invention in suitable amounts readily determined by those skilled in the art. In this regard, reference is made to U.S. Pat. No. 5,225,183, which is incorporated by reference hereinto in its entirety. Typically, a co-solvent such as ethanol is added in an amount ranging from 0.5 to 10% by weight of the total weight of the formulation.

A most preferred formulation comprises the pioglitazone hydrochloride medicament, the fluid carrier, e.g. 1,1,1,2-tetrafluoroethane, the cosolvent, e.g ethanol and the water addition.

Generally the formulations of the invention can be prepared by combining (i) the pioglitazone hydrochloride drug or pioglitazone hydrochloride drugs in an amount sufficient to provide a plurality of therapeutically effective doses; (ii) the fluid, e.g. propellant, in an amount sufficient to propel a plurality of doses, e.g. from an aerosol canister; (iii) optionally, the water addition in an amount effective to further stabilize each of the formulations; and (iv) any further optional components e.g. ethanol as a cosolvent; and dispersing the components. The components can be dispersed using a conventional mixer or homogenizer, by shaking, or by ultrasonic energy as well as by the use of a bead mill or a microfluidizer. Bulk formulations can be transferred to smaller individual aerosol vials by using valve to valve transfer methods, pressure filling or by using conventional cold-fill methods. It is not required that a component used in a suspension aerosol formulation be soluble in the fluid carrier, e.g. propellant. Those that are not sufficiently soluble can be coated onto the drug particles in an appropriate amount and the coated particles can then be incorporated in a formulation as described above.

Aerosol canisters equipped with conventional valves, preferably metered dose valves, can be used to deliver the formulations of the invention. It has been found, however, that selection of appropriate valve assemblies for use with aerosol formulations is dependent upon the particular component and other adjuvants used (if any), on the fluid, e.g. propellant, and on the particular drug being used. Conventional neoprene and buna valve rubbers used in metered dose valves for delivering conventional CFC formulations often have less than optimal valve delivery characteristics and ease of operation when used with formulations containing HFC-134a or HFC-227.

Therefore certain formulations of the invention are preferably dispensed via a valve assembly wherein the diaphragm is made of a nitrile rubber such as DB-218 (American Gasket and Rubber, Schiller Park, Ill.) or an EPDM rubber such as Vistalonl.TM. (Exxon), Royalene.TM. (UniRoyal), bunaEP (Bayer). Also suitable are diaphragms fashioned by extrusion, injection molding or compression molding from a thermoplastic elastomeric material such as FLEXOMER GERS 1085 NT polyolefin (Union Carbide).

Conventional aerosol canisters, coated or uncoated, anodized or unanodized, e.g., those of aluminum, glass, stainless steel, polybutyl or polyethylene terephthalate, and coated canisters or cans with epon, epoxy, etc., can be used to contain a formulation of the invention.

The formulation of the invention can be delivered to the respiratory tract and/or lung by oral inhalation in order to treat diabetes and a diabetes related condition susceptible of treatment by inhalation. The formulations of the invention can also be delivered by nasal inhalation in order to treat, e.g., diabetes (systemic), or they can be delivered via oral (e.g., buccal) administration in order to treat, e.g., diabetes and a diabetes related condition.

Claim 1 of 36 Claims

We claim:

1. A nonaqueous aerosol formulation, which comprises:

(a) a therapeutically effective amount of pioglitazone medicament;

(b) a nonaqueous fluid propellant carrier; and

(c) added thereto, a water addition stabilizer present in an amount which is in addition to nascent formulation water.

 

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