Title:  Powder Composition for nasal administration

United States Patent:  6,835,389

Issued:  December 28, 2004

Inventors:  Dohi; Masahiko (Hino, JP); Uejima; Yasuhide (Hino, JP); Fujii; Takao (Hino, JP)

Assignee:  Teijin Limited (Osaka, JP)

Appl. No.:  763671

Filed:  February 26, 2001

PCT Filed:  August 24, 1999

PCT NO:  PCT/JP99/04559

371 Date:  February 26, 2001

102(e) Date:  February 26, 2001

PCT PUB.NO.:  WO00/12063

PCT PUB. Date:  March 9, 2000

Abstract

There is provided a powder composition for nasal administration comprising a drug having a particle size of less than 10 .mu.m or a lyophilized drug, a water-absorbing and water-slightly soluble base material, and a water-absorbing and gel-forming base materials. The composition has excellent drug absorbability.

Description of the Invention

FIELD OF THE INVENTION

The present invention relates to powder compositions for nasal administration having an improved drug absorbability via nasal mucosa. More specifically, the present invention relates to powder compositions for nasal administration that exhibit high maximum blood concentration by using a drug having a specific particle size or a lyophilized drug, and a base material of a specific type or composition.

DESCRIPTION OF THE RELATED ART

Because, in non-peptide/protein drugs such as anti-inflammatory steroids, (1) local nasal mucosa can be a target as an active size, (2) an immediate action may be desired, and (3) some have low absorbability via oral administration, and the like, there has been a need for the development of drugs for nasal administration.

Many peptide/protein drugs are not readily absorbed into the body because, when orally administered, they tend to be decomposed by proteolytic enzymes in the gastrointestinal tract. Therefore, injection has to be used for therapeutic uses of these drugs in many cases. However, injections impose a heavy burden on patients because of pain, the need for hospital visits etc. Thus, there is a strong need, for these drugs, for the development of noninvasive administration regimen that can replace injections.

Nasal administration is a method of administration in which drugs are transported through the nasal mucosa into the blood circulation. Nasal administration is under intensive research as a non-injection type administration together with, for example, subcutaneous, ocular, rectal, and pulmonary administration and the like. Among the non-injection type administrations, nasal administration is easy to perform. In addition, since the blood system is more developed in the nasal mucosa compared to the skin, the ocular mucosa, the rectal mucosa, and the like, the nasal administration is thought to have excellent absorbability among the non-injection type administrations. Formulations for nasal administration have indeed been put into practice for some drugs. Furthermore, since, in nasal administration, drugs migrate into the blood more rapidly than in oral administration, immediate action almost equal to injections can be expected for nasal administration. However, the absorption of drugs thought nasal mucosa depends on the physical properties such as lipophilicity, molecular weight, and the like. It has been postulated that highly water-soluble drugs, highly lipophilic drugs, peptide/protein drugs having high molecular weight etc. generally have low absorbability. Thus, various methods are postulated to enhance absorbability of drugs through nasal mucosa.

For example, Japanese Examined Patent Publication (Kokoku) No. 60-34925 reports on a prolonged-action formulation for the nasal cavity comprising a cellulose ether and a drug.

Prolonged-action formulations for nasal cavity described in the above publication are formulations intended to adhere to the nasal mucosa and to gradually release the drug, and thereby it is possible to allow the drug to be absorbed via the nasal mucosa to effect prolonged release of the effective amount of the drug. However, since the prolonged-action formulation for nasal cavity described in said publication points to sustained release of the drug, enough ability has not been given, it is believed, to the function of promoting the absorption of the drug. Drugs exemplified in the preferred embodiment are anti-inflammatory steroids, analgesic anti-inflammatory drugs, anti-histaminics, and drugs having anti-allergic actions and the like, for which the maintenance of local drug concentration is more important than absorbability into the systemic blood circulation.

Thus, in the prolonged-action formulations described in the above publication, a high nasal absorbability could not be expected for highly water-soluble drugs, highly lipophilic drugs, and high molecular weight peptide/protein drugs. Thus, there is a strong need for the development of compositions for administration via the nasal mucosa that can be effectively utilized in terms of therapeutic effects and therapeutic efficiency.

Nolte et al. (Hormone Metabolic Research Vol. 22, 170-174, 1991) and Bruice et al. (Diabetic Medicine Vol. 8, 366-370, 1991) reported on insulin formulations for nasal administration that contained an absorption promoter for sodium glycolate or taurofusidic acid sodium. These absorption promoters, however, have a problem of irritating nasal mucosa, and have not been put into practical use.

On the other hand, Japanese Examined Patent Publication (Kokoku) No. 62-42888 reported on powder compositions for nasal administration having an excellent absorbability via the nasal mucosa, said compositions comprising polypeptides and a water-absorbing and water-slightly soluble base material. It is also reported that such compositions permit the nasal absorption of polypeptides without using such an absorption promoter.

However, even in the compositions of the above publication, the nasal absorption rate of polypeptides (the area under the blood concentration versus time curve (AUC) after nasal administration) does not exceed 10 to 20% of that after the injection administration. For example, according to Example 4 in the publication, the maximum blood concentration after administration of 10 units of insulin to rabbits in 200 .mu.U/ml or less, or about 20% of that of the injection administration, and the absorption rate calculated from the AUC is estimated to be not greater than 10%.

The publication also describes a combined use of a water-absorbing and water-readily soluble base material and a water-absorbing and water-slightly soluble base material at a ratio of 0.1 to 60% by weight, most preferably 0.1 to 50% by weight relative to the water-absorbing and water-slightly soluble base material.

However, the publication only states that the objective or effect of such a combined use in sustained-release effects (sustained-release or prolonged action) compared to when a water-absorbing and water-slightly soluble base material is used alone.

Furthermore, the publication makes no mention of using non-peptide/protein drugs instead of polypeptides.

Furthermore, the publication illustrates, by way of example, many water-absorbing and water-slightly soluble base materials including crystalline cellulose and many water-absorbing and water-readily soluble base materials including hydroxypropyl cellulose. The publication, however, makes no mention that certain combinations of specific types, compositions, and particle sizes of these base materials can provide powder compositions for nasal administration that exhibit excellent maximum blood concentrations for peptide/protein drugs and non-peptide/protein drugs.

Furthermore, said publication states that it is important that 90% by weight or more of the particles of the composition have a particle size of 10 to 250 .mu.m to attain good absorbability and that the drug (limited to polypeptides therein) and the base material can be present separately considering the state of the composition and the method of preparation. It is clear, in this case, that the particle size of the drug is not less than 10 .mu.m. The publication does not make any mention either that particle size of less than 10 .mu.m can lead to powder compositions for nasal administration having further excellent maximum blood concentrations.

The publication also suggests that lyophilized polypeptides may be used. However, it is a common knowledge among those skilled in the art that many of polypeptides should be lyophilized when they are present as solids because of their physical properties including stability. The publication makes no mention of using non-peptide/protein drugs that, in the lyophilized form, generally exhibit better stability compared to polypeptides, much less of using them to enhance maximum blood concentrations after the nasal administration thereof.

Japanese Unexamined Patent Publication (Kokai) No. 10-114645 describes powder formulations for nasal administration comprising powders of absorptive resins and active peptides, and refers to the use of active peptides having a particle size of 10 .mu.m or less. The particle size was selected in order to improve the absorption of active peptides to adsorptive resins. The publication makes no mention of using, in combination, two types of base materials of the present invention at certain ratios, or of the fact that the combined use can lead to enhanced absorbability.

Peptide/protein drugs are generally expensive, and in many cases the poor absorbability thereof leads to large variation in blood concentrations, and thereby to failure in obtaining the desired therapeutic effects on a continual basis. Thus, there is a need for compositions of peptide/protein drugs for nasal administration that exhibit higher absorbability. There is also a strong need for compositions for nasal administration that are more stable and exhibit better absorbability. There is also a need for compositions for nasal administration that are capable of providing enhanced maximum blood concentrations. This holds true for non-peptide/protein drugs as well.

BRIEF SUMMARY OF THE INVENTION

As hereinbefore stated, though the nasal administration of drugs have various advantages as an administration regimen, there remains much to be desired in terms of absorbability, maximum blood concentrations and the like.

It is an object of the present invention to provide compositions for nasal administration that exhibit excellent absorbability of drugs.

It is also an object of the present invention to provide compositions for nasal administration that exhibit excellent absorbability of drugs and, among others, higher maximum blood concentrations.

It is a further object of the present invention to provide compositions for nasal administration that exhibit excellent absorbability and, among others, higher maximum blood concentrations even for highly water-soluble drugs, highly lipophilic drugs, and high molecular weight peptide/protein drugs.

It is also an object of the present invention to provide compositions for nasal administration that exhibit still better absorbability and, among others, higher maximum blood concentrations even for highly water-soluble drugs, highly lipophilic drugs, and non-peptide/protein drugs that originally have good nasal absorbability.

It is a further object of the present invention to provide safe compositions for nasal administration.

After intensive research to solve the above problems, the inventors of the present invention have found that by using drugs having specific particle sizes or lyophilized drugs and base materials of specific types or compositions, it is possible to provide novel powder compositions for nasal administration that exhibit excellent absorbability even for drugs that have low absorbability via the nasal mucosa and non-peptide/protein drugs, and novel powder compositions for nasal administration that exhibit markedly high maximum blood concentrations, and thereby have attained the present invention.

Thus, the present invention provides a powder composition for nasal administration comprising (1) a drug having a particle size of less than 10 .mu.m, (2) a water-absorbing and water-slightly soluble base material, and (3) a water-absorbing and gel-forming base material.

The present invention also provides powder compositions for nasal administration comprising (1) a lyophilized drug, (2) a water-slightly soluble and water-absorbing base material, and (3) a water-absorbing and gel-forming base material.

DETAILED DESCRIPTION OF THE INVENTION

As the drugs of the present invention, there can be preferably mentioned non-peptide/protein drugs and peptide/protein drugs.

As the non-peptide/protein drugs of the present invention, there are available a wide variety of non-peptide/protein drugs. Specific examples thereof include anti-inflammatory steroids or non-steroidal anti-inflammatory agents, analgesic anti-inflammatory agents, sedatives, anti-depressants, antitussive expectorants, antihistamics, anti-allergy agents, antiemetics, hypnotics, vitamins, sex steroid hormones, anti-cancer agents, antiarrhythimics, antihypertensives, antianxiety drugs, psychotropic agents, anti-ulcer agents, cardiotonics, analgesics, bronchodilators, anti-obesity agents, anti-platelet aggregation agents, anti-diabetics, muscle relaxants, anti-migraine agents, antirheumatics, and the like. As the non-peptide/protein drugs, one or more than one selected from the group consisting of the above can be used. Among others, one or more than one selected from the group consisting of antiemetics, hypnotics, vitamins, sex steroid hormones, anti-migraine agents, and analgesics may be mentioned as preferred examples.

As the non-peptide/protein drugs, there can be mentioned one or more than one non-peptide/protein drug selected from the group consisting of anti-inflammatory steroids or nonsteroidal anti-inflammatory agents such as hydrocortisone, prednisolone, triamcinolone, dexamethasone, betamethasone, beclometasone, fluticasone, mometasone, fluocortine, budesonide, salbutamol, and salmaterol; analgesic anti-inflammatory agents such as acetaminophen, phenacetin, aspirin, aminopyrine, sulpyrine, phenylbutasone, mefenamic acid, flufenamic acid, ibuprofen, alclofenac, dichlofenac, and indomethacin; sedatives such as scopolamine; anti-depressants such as imipramine; antitussive expectorants such as sodium cromoglycate, codeine phosphate, and isoproternol hydrochloride; antihistamics such as diphenhydramine, triprolidine, isothipendyl, and chlorpheniramine; anti-allergy agents such as anlexanox, azelastin, ozagrel, tranilast, and ketotifen; antiemetics such as ondansetron, granisetron, metoclopramide, cisapride, and domperidone; hypnotics such as brotizolam and melatonin; vitamins such as cyanocobalamin and mecobalamin; sex steroid hormones such as estradiol, estriol, progesterone, and testosterone; anti-cancer agents such as tamoxifen and tegafur; antiarrhthmics such as proplanolol and atenolol; antihypertensives such as nicardipine; antianxiety drugs such as diazepam; psychotropic agents such as nitrazepam; anti-ulcer agents such as cimetidine and ranitidine; cardiotonics such as dopamine; analgesics such as morphine and buprenorphine; bronchodilators such as oxitropium and ozagrel; anti-obesity agents such as madindol; anti-platelet aggregation agents such as beraprost and carbacyclin; anti-diabetics such as acarbose and sorbinil; muscle relaxants such as pinaverium and inaperisone; anti-migraine agents such as ergotamine, imigran and alniditan; antirtheumatics such as actarit and platonin, and the like.

As the peptide-protein drugs of the present invention, those having a molecular weight of 30,000 or smaller are preferred. As the peptide/protein drugs with a molecular weight of 30,000 or smaller, there can be mentioned luteinizing hormone releasing hormones, growth hormone releasing factors, somatostatin derivatives, vasopressins, oxytocins, hirudine derivatives, enkephalins, adrenocorticotropic hormone derivatives, bradykinin derivatives, calcitonins, insulins, glucagon derivatives, growth hormones, growth hormone releasing hormones, luteinizing hormones, insulin-like growth factors, calcitonin gene-related peptides, atrial natriuretic peptide derivatives, interferons, interleukins, erythropoietin, granulocyte colony-stimulating factor. macrophage forming stimulating factor, parathyroid hormones, parathyroid hormone releasing hormones, prolactin, thyroid stimulation hormone releasing hormone, angiotensins, and the like. As the peptide/protein drugs of the present invention, there can be used one or more than one selected from the group consisting of these specific examples.

In one aspect of the present invention, the particle size of the drugs is less than 10 .mu.m. However, too finely-divided particles, though absorption-promoting effects may be observed, have drawbacks that their scattering nature makes pharmaceutical handling difficult, and thereby the preferred particle size is 0.5 .mu.m or more and less than 10 .mu.m.

As a method of adjusting the particle size of drugs to 10 .mu.m, there can be mentioned methods using the pressing-type pulverization such as with a mortar, the rotating collision-type pulverization such as with centrifugation, and, in addition, methods using a spray drier, and a freeze drier, and the like.

In another aspect of the present invention, lyophilized drugs may be used. As a method of lyophilizing drugs of the present invention, there can be mentioned the method of merely dissolving drugs in an aqueous medium such as purified water followed by lyophilization, and, when the solubility of the drug is low, the method of adjusting pH of the drug with an additive or adding a solubilizer to the drug followed by lyophilization. Conditions of lyophilization in these cases are preferably (1) the concentration of the drug solution to be lyophilized is in the range from its saturated solubility in the solvent at room temperature to 1/5 thereof, (2) the drug solution is cooled and frozen to -20^oC. to -40^oC. at a rate of 0.5^oC./hr or higher, (3) depressurized to vacuum, (4) heated to 5^oC. to 10^oC. at a rate of 2.0^oC./hr or lower, (5) increasing the time of primary drying to 6 to 10 hours while keeping the temperature at 5^oC. to 10^oC., (6) heating again to room temperature +5^oC., and (7) performing secondary drying. by satisfying these conditions, the effects of the present invention can be fully enhanced.

The base material of the present invention that is water-absorbing and gel-forming (hereinafter referred to as the gel-forming base material) is one or more than one selected from the group consisting of hydroxypropyl cellulose, hydroxypropyl methyl cellulose, methyl cellulose, hydroxy ethyl cellulose, and carboxymethyl cellulose sodium.

Among them, preferred gel-forming base materials of the present invention are one or more than one selected from the group consisting of hydroxypropyl cellulose, hydroxypropyl methyl cellulose, methyl cellulose, and carboxymethyl cellulose sodium, with hydroxypropyl cellulose being most preferred.

A preferred hydroxypropyl cellulose is one wherein a 2% aqueous solution has a viscosity of 150 to 4,000 cps. Viscosity as used herein means a kinematic viscosity, which is measured by viscometers such as the Cannon-Fenske viscometer, the Ubbelohde viscometer for the Cannon-Fenske opaque solution, and the Ostwald viscometer. Among them, measurement with the Ubbelohde viscometer is preferred because it is very precise. The viscosity values described in the present specification were determined using the Ubbelohde viscometer manufactured by Shibata Kagaku Kikai Kogaku at an environment of 37^oC.

Some of the hydroxypropyl celluloses have lower viscosity than the above. But, when those with a viscosity of lower than 150 cps are used, the effect of enhancing maximum blood concentrations is not always satisfactory.

With regard to the gel-forming base materials constituting the composition of the present invention, it is preferred that 90% by weight or more of the particles thereof have an average particle size in the range of 10 to 350 .mu.m, and it is more preferred that 90% by weight or more of the particles thereof have an average particle size in the range of 20 to 250 .mu.m because they lead to enhanced absorbability and increased blood concentrations. More preferably, 90% by weight or more of the particles thereof have an average particle size in the range of 60 to 110 .mu.m, and by limiting, in this way, the particle size of the gel-forming base materials constituting the compositions of the present invention, effects of the present invention can be further enhanced.

The water-absorbing and water-slightly soluble base materials of the present invention include water-absorbing and water-insoluble base materials (hereinafter referred to as the water-slightly soluble base materials), and the water-slightly soluble base materials are one or more than one base material selected from the group consisting of crystalline cellulose, .alpha.-cellulose cross-linked carboxymethyl cellulose sodium, cross-linked starch, gelatin, casein, gum tragacanth, polyvinylpyrrolidone, chitin, chitosan, dextrin, kaolin, silicon dioxide hydrate, colloidal silicon dioxide, light silica, synthetic aluminum silicate, synthetic hydrotalcite, titanium oxide, dry aluminum hydroxy gel, magnesium carbonate, calcium carbonate, precipitated calcium carbonate, bentonite, aluminium magnesium metasilicate, calcium lactate, calcium stearate, calcium hydrogen phosphate, phosphoric acid anhydride, calcium hydrogen, and talc.

Among them, preferred water-slightly soluble base materials of the present invention are one or more than one selected from the group consisting of crystalline cellulose, .alpha.-cellulose, cross-linked carboxymethyl cellulose sodium, cross-linked starch, gelatin, casein, gum tragacanth, chitin, chitosan, calcium hydrogen phosphate, calcium hydrogen, and precipitated calcium carbonate, with crystalline cellulose being most preferred.

With regard to the water-slightly soluble base materials constituting the composition of the present invention, it is preferred that 90% by weight or more of the particles thereof have an average particle size in the range of 10 to 350 .mu.m, and it is more preferred that 90% by weight or more of the particles thereof have an average particle size in the range of 20 to 250 .mu.m because they lead to enhanced absorbability and increased blood concentrations. More preferably, 90% by weight or more of the particles thereof have an average particle size in the range of 38 to 150 .mu.m, and by limiting, in this way, the particle size of the water-slightly soluble base materials constituting the compositions of the present invention, effects of the present invention can be further enhanced.

As preferred combinations of the gel-forming base material and the water-slightly soluble base material of the present invention, there can be mentioned combinations of each of the above preferred examples. A particularly preferred combination is that of hydroxypropyl cellulose as the gel-forming base material and crystalline cellulose as the water-slightly soluble base material. In these cases, a particularly preferred example is such that 90% by weight or more of the particles have an average particle size in the range of 60 to 150 .mu.m for the water-slightly soluble base material, and 90% by weight or more of the particles have an average particle size in the range of 38 to 110 .mu.m for the gel-forming base material.

The relationship of the amounts of the gel-forming base material and the water-slightly soluble base material for use in the present invention is such that the mixed ratio by weight of said water-slightly soluble and water-absorbing base material to said gel-forming base material is in the range of 99:1 to 65:35, since they lead to high absorbability and high blood concentrations.

Since the amount of the gel-forming base material depends on the type of drugs of the present invention, the mixed ratio by weight of said water-slightly soluble and water-absorbing base material to said gel-forming base material is in the range of 90:10 to 65:35 in the case of non-peptide/protein drugs, since they lead to effects of enhancing maximum blood concentrations. When the drugs are peptide/protein drugs, preferred amounts of the gel-forming base material are further finely grouped depending on the molecular weight. When the molecular weight of peptide/protein drugs is 500 or more to less than 1,500, the mixed ratio by weight of said water-slightly soluble and water-absorbing base material to said gel-forming base material is preferably in the range of 95:5 to 70:30, since they lead to a marked effect of enhancing maximum blood concentrations. When the molecular weight of peptide/protein drugs is 1,500 or more to 30,000 or less, the mixed ratio by weight of said water-slightly soluble and water-absorbing base material to said gel-forming base material is preferably in the range of 95:5 to 80:20, since they lead to a marked effect of enhancing maximum blood concentrations.

Examples of the peptide/protein drugs having the above molecular weight of 500 or more to less than 1,500 include vasopressins, luteinizing hormones releasing hormones, growth hormone releasing hormones, somatostatin derivatives, oxytocins, hirudine derivatives, enkephalins, adrenocorticotropic hormone derivatives, and bradykinin derivatives. Examples of the peptide/protein drugs having the above molecular weight of 1,500 or more to 30,000 or less include calcitonins, insulins, glucagon derivatives, growth hormones, growth hormone releasing hormones, luteinizing hormones, insulin-like growth factors, calcitonin gel-related peptides, atrial natriuretic peptide derivatives, interferons, erythropoietin, granulocyte colony-stimulating factor, macrophage forming-stimulating factor, parathyroid hormones, parathyroid hormone releasing hormone, prolactin, thryoid stimulation hormone releasing hormone, and angiotensins.

The compositions of the present invention may be prepared by, for example, the following method.

According to one embodiment of the present invention, drugs having a particle size of less than 10 .mu.m are mechanically mixed with water-slightly soluble base materials. On the other hand, according to a second embodiment, drugs are made aqueous solutions and lyophilized, and then the lyophilized drugs are mechanically mixed with water-slightly soluble base materials.

Subsequently, to mixtures obtained by either of the above first embodiment or the second embodiment, gel-forming base materials are mechanically mixed. As used herein, mechanical mixing refers to mixing with a fixed vessel-type mixer such as a high speed mixer and a rotary type mixer such as a V-shaped mixer. In particular, when water-slightly soluble base materials are mixed with drugs, mixing with a fixed-vessel type mixer is preferred since it markedly enhances the effects of the present invention. By using a fixed vessel-type mixer in the subsequent mixing with gel-forming base materials, the effects of the present invention are preferably markedly enhanced.

As used herein, the fixed vessel-type mixer includes universal mixers, ribbon mixers, automatic mortars, ball mills, and other mixers such as high speed mixers, fully automatic powered mixers, and manual press mixing with mortars. The rotary vessel-type mixer includes V-shaped mixers, cross rotary mixers, double cone-type mixers, and the like.

As the water-slightly soluble base materials and the gel-forming base materials of the present invention, there can be used microspheres having the above specific properties and comprising specific type of base materials such as starch and crystalline cellulose known as the base material for use in the powder compositions for nasal administration, as long as they satisfy the object of the present invention. In this case, it is preferred to use those having the particle size (for example 10 to 150 .mu.m) that is similar to the particle size of the above water-slightly soluble base materials and the gel-forming base materials.

The amounts of the drug to be used in the present invention are therapeutically effective amounts, which may be determined by the type of the drug, and type and degree of the disease, the age and body weight of the patient, and the like. The amounts are generally 20 times, and more preferably an equal amount to 10 times that usually used for injection administration of the drug.

The amounts of the composition and the base material (the sum of the amounts of the water-slightly soluble base material and the gel-forming base material) of the present invention are limited in terms of the amounts of powder that can be applied to the nasal cavity, and the amounts are preferably similar to one weight of the drug, more preferably 5 weights or more per weight of the drug, and still more preferably 10 weights or more, though this cannot be conclusive because they depend on the amounts needed for treatment.

To the compositions of the present invention, there can be added, as desired, known lubricants, binders, diluents, colorants, preservatives, antiseptics, corrigents and the like, in order to improve physical properties as pharmaceutical drugs, appearances, smells, or the like. There can be mentioned talc, stearic acid and salts thereof, wax, etc., as lubricants; starch, dextran, etc., as binders; starch, lactose, etc., as diluents; red No. 2, etc., as colorants; ascrobic acid, etc., as preservatives; para-oxy benzoic acid esters, etc., as antiseptics; and menthol, etc., as corrigents.

The compositions of the present invention may be prepared in dosage forms suitable for administration as pharmaceutical formulations. Such forms include capsules in which unit doses of the compositions of the present invention have been filled, which are sprayed into the nasal cavity with a suitable dispenser.

Furthermore, unit doses or unit doses for several administrations of the composition of the present invention may be contained in a suitable device, and at the time of administration the unit doses of the compositions of the present invention may be given once or in several divided doses.

INDUSTRIAL APPLICABILITY

Thus, in accordance with the present invention, powder compositions for nasal administration that exhibit excellent nasal absorbability and a markedly enhanced maximum blood concentrations that conventional compositions for nasal administration are provided for highly water-soluble drugs, highly lipophilic drugs, and high molecular weight peptide/protein drugs.

Using the compositions of the present invention, it is possible to obtain markedly higher maximum blood concentrations at doses similar to the conventional drugs not only for expensive peptide/protein drugs but for non-peptide/protein drugs. Therefore, the amount of the drugs to be used can be reduced. Furthermore, it is possible to minimize variation in blood concentrations and thereby to obtain the desired therapeutic effects on a continual basis.

Furthermore, the compositions of the present invention have excellent absorbability (ability of maintaining blood concentrations) of drugs similarly to conventional powder compositions for nasal administration, and do not require the use of irritating absorption promoters, and thereby desired therapeutic effects are expected to be obtained on a continual basis.

Claim 1 of 18 Claims

What is claimed is:

1. A power composition for nasal administration comprising (1) a drug having a particle size of 0.5 .mu.m or more and less than 10 .mu.m, (2) a water-absorbing and slightly-water soluble base material, and (3) a water-absorbing and gel-forming base material, wherein the mixed ratio by weight of said water-absorbing and slightly-water soluble base material to said water-absorbing and gel-forming base material is in the range of 99:1 to 65:35.

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