Fuchs, Peter (Berlin, DE1)
Hilmann, Jurgen (Berlin, DE1)

05/707032

01/23/1979

07/20/1976

Download PDF 4136145       PDF help

Click for automatic bibliography generation

Schering Aktiengesellschaft (DE1)

264/164

424/443, 264/171.250, 264/165, 264/210.600, 264/205

A61K9/70; B29C17/02

264/185, 264/186, 264/171, 264/205, 264/210R, 264/184, 264/164, 264/165, 264/308, 264/299, 264/298, 106/162, 106/209, 106/205, 106/210, 424/22, 424/32, 424/33

3449469	HIGH-IMPACT BLENDS OF POLYSTYRENE,ALFIN-CATALYZED RESINOUS COPOLYMER AND ALFIN-CATALYZED BUTADIENE RUBBER	June, 1969	Gavne	424/33
3517094	METHOD OF FILLING A FLEXIBLE MOLD	June, 1970	Forrest	264/175
3535409	METHOD OF MAKING SHEET MATERIAL WITH FILM TEAR LINE	October, 1970	Rohde	264/171
3565737		February, 1971	Lefevre et al.	264/171
3626940	OCULAR INSERT	December, 1971	Zaffaroni	128/260
3715420	PROCESS FOR PRODUCING A THERMOPLASTIC RESIN SHEET HAVING A COLOR BAND	February, 1973	Kiyono et al.	264/171
3767737		October, 1973	Lundstrom	264/298
3775239	PACKAGING MATERIAL, PACKAGES AND METHOD OF MAKING SAME	November, 1973	Snow	264/171
3845201		October, 1974	Haddad et al.	424/22
3847585	METHOD FOR THE PREPARATION OF MULTILAYER OPTICAL FILTERS	November, 1974	Chisholm	264/171
3868445	DOSAGE UNIT CONTAINING A SUBSTANCE SHOWING A TOPICAL EFFECT ON THE EYE, AND A METHOD OF PREPARING SAME	February, 1975	Ryde et al.	424/14
3875300	Composition for sustained release of a medicament and method of using same	April, 1975	Homm et al.	128/285
3880991	POLYMERIC ARTICLE FOR DISPENSING DRUGS	April, 1975	Yolles	424/22
3892665	Membrane method and product	July, 1975	Stigdmann et al.	264/298
3988098	Apparatus for continuously casting a sheet and the like	October, 1976	Kato et al.	264/165
3991149	Method for controlling the thickness of ceramic tape	November, 1976	Hurwitt	264/165

BE637363	September, 1962		264/184
GB1243454	August, 1971		264/184

Woo, Jay H.

Millen & White

This is a division of application Ser. No. 591,634, filed June 30, 1975.

What is claimed is:

1. A process for the preparation of a pharmaceutical composition in unit dosage form adapted for enteral or topical administration and comprising a safe and effective amount of a pharmaceutically active medicament compound uniformly dispersed throughout a flexible, water-soluble film carrier therefor, which comprises the steps of:

(a) drawing into a sheet having a uniform layer thickness of about 0.1-2 mm and a dry thickness of about 0.05-1 mm., a homogeneous solution or suspension consisting essentially of (1) up to 60% by weight, based on the film carrier, of the medicament, (2) 0-30% by weight of a pharmaceutically acceptable filler, (3) a film-forming amount of a water-soluble film-forming polymer, and (4) as solvent or suspending medium, one or both of water and an organic volatile solvent system comprising an organic polar solvent miscible in water; and

(b) drying the thus-formed sheet to remove the solvent or suspending medium therefrom.

2. A process according to claim 1 wherein the solution or suspension contains about 6-20% by weight of the film-forming polymer, about 48-84% by weight of the solvent or suspension medium and about 0.01-2% by weight of a pharmaceutically acceptable release agent.

3. A process according to claim 2 wherein the solvent or suspension medium is an aqueous system.

4. A process according to claim 3 wherein the aqueous system is aqueous ethanol.

5. A process according to claim 2 wherein the solvent or suspension medium is an organic volatile solvent system.

6. A process according to claim 5 wherein the organic volatile solvent system is a mixture of methylene chloride and ethyl alcohol.

7. A process according to claim 1 wherein the film-forming polymer is a non-ionic, water-soluble hydroxyalkyl ether of cellulose.

8. A process according to claim 1 wherein the solution or suspension comprises an insoluble filler and the drawn and dried sheet is paper-like.

9. A process according to claim 2 wherein the filler is cellulose.

10. A process according to claim 1 wherein the solution is free of filler and the drawn and dried sheet is a transparent film.

11. A process according to claim 1 wherein a plurality of solutions or suspensions of differing pharmaceutically active medicament composition are drawn side-by-side into a coherent sheet having a plurality of parallel strips across its width.

12. A process according to claim 11 wherein the plurality of solutions or suspensions contain identifying dyestuffs of different colors.

BACKGROUND OF THE INVENTION

This invention relates to pharmaceutical compositions in unit dosage form comprising a pharmaceutically active medicament compound and a flexible, water-soluble film carrier therefor adapted for enteral or topical administration.

Belgian Pat. No. 637,363 describes paper films coated with pharmaceutically active medicinal compounds suitable for oral administration. The films comprise water-insoluble cellulose fibers and a water-soluble binding agent, preferably sodium carboxymethyl cellulose. In the Examples thereof, the pharmaceutically active compound is applied to the paper film by dripping a solution thereof onto the film, depositing the solid active compound on the surface thereof or by drawing the film through a solution of the active medicament. Using the film drawing machines prescribed in this patent, non-uniform layers of film are formed which shrink upon drying. In the alternative techniques described, the discontinuous process of separately making the film and applying the active medicament thereon has inherent disadvantages which prevent high accuracy in the dosages applied. This is of particular importance with the small doses of medicaments often employed in current pharmacy. Inaccuracies inherently arise not only in applying the active medicament, but also in the manufacture and pre-treatment of the carrier and in variations encountered during subsequent storage of the impregnated carrier material. As a non-uniform material is used as the carrier, the subsequent take-up of active medicament is also inherently non-uniform. Moreover, active medicaments bound only on the surface of the films can readily be removed therefrom during subsequent handling, e.g., in packaging. Furthermore, the carboxymethyl cellulose binding agent becomes detached in the stomach, liberating carboxymethyl cellulose from the carrier which entraps some of the active medicament and liberates it only very slowly, if at all.

OBJECTS OF THE INVENTION

Accordingly, it is a principal object of the present invention to provide improved medicament carriers in the form of a film having a pharmaceutically active compound uniformly incorporated therein.

Another object of the present invention is to provide such carriers which exhibit improved stability during subsequent handling.

A further object of the present invention is to provide such films having multiple pharmaceutical compositions uniformly incorporated therein, whereby incompatible substances can be stored on adjacent areas of the film without adversely interacting with each other.

An additional object of the present invention is to provide a method for the preparation of pharmaceutical compositions in unit dosage form employing a film or sheet carrier, which are adapted for enteral or topical administration.

Upon further study of the specification and appended claims, further objects and advantages of this invention will become apparent to those skilled in the art.

SUMMARY OF THE INVENTION

Briefly, the above and other objects are attained in one aspect of the present invention by providing a process for the manufacture of a pharmaceutical composition in unit dosage form adapted for enteral or topical administration and comprising a safe and effective amount of a pharmaceutically active medicament compound and a flexible, water-soluble film carrier therefor. In accordance with the present invention, the medicament is dissolved or uniformly suspended in a film-forming composition to form a homogeneous solution or dispersion which is then drawn with a film-drawing machine into a sheet, dried and then cut into any desired number and size of unit dosage forms.

DETAILED DISCUSSION

It has now been found that carrier films having a constant thickness and a uniformly homogeneous distribution of active medicament compounds can be obtained by preparing films having the active medicament incorporated therein and using film-forming compounds which are soluble in water and/or polar, water-miscible organic solvents.

In principle, all pharmaceutically active medicaments used in human and veterinary medicine can be employed in accordance with the principles of the present invention. The dosages of active medicament employed are those conventionally used in the art for the particular medicament selected. For internal use, unit dosage forms adapted for oral administration are preferred. For external use, unit dosage forms adapted for either enteral or topical administration can be employed, e.g., for topical administration on the skin and in body cavities such as the nose, ears, rectum, vagina, etc.

Suitable pharmaceutically active medicament compounds which can be employed in accordance with the present invention include but are not limited to hormones, e.g., cyproterone acetate, progesterone, estradiol, testosterone, insulin, triiodthyronin, cortisone, etc.;

prostaglandins, e.g., prostaglandin E ₁ , prostaglandin E ₂ , prostaglandin A ₁ and prostaglandin F ₂ α ;

vitamins, e.g., vitamin A, vitamin D ₂ , vitamin D ₃ , vitamin E, vitamin K ₁ , vitamin K ₂ and derivatives of vitamin B ₁ , e.g., thiamine tetrahydrofurfuryl disulfide or thiamine propyldisulfide;

antibiotics, e.g., erythromycin and tetracycline;

contraceptives, e.g., chlormadinone, chlormadinone acetate, megestrol acetate, d-norgestrel, medroxyprogesterone acetate, norethisterone, norethisterone acetate, etc.;

and spermicides, e.g., p-diisobutylphenoxypolyethoxyethanol.

The drugs are employed in at least the pharmaceutically active amounts known in the art.

Of these, especially preferred medicinally active substances are the gestagens, estrogens and mixtures thereof, tranquilizers, anti-diabetics, sulfonamides, antibiotics, trichomonal agents, anti-inflammatory agents such as corticoids, etc.

Suitable films having a constant thickness and a uniform distribution of the medicinally active ingredients therein can be obtained by preparing films having the active medicament incorporated therein using film-forming polymers which are soluble in water or polar organic solvents, preferably film-forming polymers which are soluble both in water and in polar water-miscible organic solvents. Suitable such film-forming polymers are known in the art and include but are not limited to poly-N-vinyl-pyrrolidone, copolymers of vinyl-pyrrolidone and vinyl acetate, methyl-cellulose, ethyl-cellulose, etc.; preferably non-ionic, water-soluble, hydroxyalkyl ethers of cellulose and especially hydroxypropyl-cellulose, hydroxyethyl-cellulose and methylhydroxypropyl-cellulose.

As the films are formed by drawing in accordance with the present invention rather than by casting or by other known film-forming techniques, a release agent or parting compound is included in the composition to be drawn. Suitable release agents are likewise known in the art and include but are not limited to polyoxyethylene-polyoxypropylene copolymers, especially Pluronic F 68, polyoxyl stearates, alkyl- or alkanoyl-substituted polyaddition products of ethylene oxides, e.g., Cremophor EL, silicones and silicone parting emulsions, glycerine, propylene glycol, metal soaps, etc.

Suitable pharmaceutically acceptable fillers can also be employed if desired; such fillers are likewise known in the art and include but are not limited to cellulose; sugars, e.g., lactose, dextrose, cane sugar, etc.; starches; polyhydric alcohols, e.g., mannitol; inorganic fillers such as calcium carbonate, calcium phosphate, talc, etc.; and dyestuffs, either in soluble form or as pigments. The fillers are optional, and may be partially or wholly replaced by one or more pharmaceutically active substances. When using soluble fillers or pharmaceutically active substances, a transparent, smooth film is formed, while the use of insoluble fillers or active medicaments results in the formation of a white or colored, paper-like film.

The medicaments may be present in the carrier material either in a dissolved or uniformly suspended state. The proportion of pharmaceutically active ingredients in the film may be from a pharmaceutically effective trace amount up to about 60% by weight without deleteriously affecting the physical properties thereof. The drawn film surfaces can be cut or perforated to form simple single unit dosages which contain the customary active medicaments which have previously been used in the form of tablets, dragees, salves, suppositories, etc. Thus, the quantity of active medicament per single unit dose may be as high as desired depending on the mode of use, typically from about one microgram to 0.5 grams, but the lower and upper dosages may easily be reduced or increased. Of course, it is also possible to simultaneously form placebo carriers which otherwise correspond in composition to the unit dosage form of the present invention but are free of the medicament ingredient therein.

In preparing the unit dosage forms of the present invention, the medicament and a release agent (which may be omitted if the medicament employed itself has parting compound properties) are first dissolved or suspended in water and/or one or more polar organic solvents, preferably an admixture of water and a polar organic solvent which is miscible therewith or two organic solvents. The only criticality with respect to the choice of organic solvent is that it be relatively volatile so that only physiologically tolerable residues thereof are removed during the drawing step. Suitable such solvents are known in the art and include but are not limited to ethanol, isopropanol, acetone, methylene chloride, mixtures thereof, etc. Preferably, water, ethanol or mixtures thereof or mixtures of ethanol and methylene chloride are employed.

Into the solution or suspension of medicament and suspension medium is introduced about 6-20% by weight of the film-forming polymer, up to 30% by weight of a suitable filler, and preferably about 0.01-2% by weight of a release agent. The resultant admixture is rendered homogeneous by stirring or other suitable techniques, and the homogeneous solution or suspension is then drawn out on a film-drawing machine into a tissue-like sheet and dried. The film obtained upon drying the sheet is then divided into unit dosage sections. The layer thickness of the wet sheet is generally about 0.1-2 mm, while the layer thickness of the dry film is about 0.05-1 mm, preferably 0.07-0.3 mm.

The process of making the unit dosage forms of the present invention into a film in a single operation can be conducted continuously, and has the advantage that the medicament is homogeneously and uniformly distributed throughout the medicament carrier. By merely varying the concentration of the active medicament in the carrier, the thickness of the film and the area of the film employed per unit dosage, the amount of medicament per unit dose can be varied in an elegantly simple fashion.

A particular advantage of the present invention lies in the ability with which films can be prepared from a single sheet in which different pharmaceutically active medicaments and/or varying concentrations of active ingredients are incorporated side by side across the width of a drawn web. By using a doctor having two or more compartments during the drawing operation, different solutions or suspensions can be simultaneously drawn out into a coherent sheet without mixing the different ingredients. The width and thickness of the sheet can be adjusted separately for each compartment, providing a further measure of flexibility in the process of the present invention. If desired, the zones or strips having different active substances or different concentrations thereof can be visually identified by the use of different dyestuffs in each compartment. Upon drawing the wet sheet, a film is obtained which, by being suitably divided such as by simple perforation, can provide unit dosages containing different medicaments and/or different concentrations thereof, as well as placebos containing no medicament. Such films containing different medicaments and/or different concentrations thereof are widely used in modern pharmacology for making multi-phase preparations, such as contraceptive preparations. By providing a spatial separation of different medicaments which are storage-incompatible with each other on a single film unit, the shelf stability of each individual ingredient is greatly enhanced. Other applications will be readily apparent to those skilled in the art to which the invention pertains; for example, films for intravaginal application can simply be rolled about an ordinary commercial tampon for administration.

Without further elaboration, it is believed that one skilled in the art can, using the preceding description, utilize the present invention to its fullest extent. The following preferred specific embodiments are, therefore, to be construed as merely illustrative and not limitative of the remainder of the disclosure in any way whatsoever. In the following Examples, the temperatures are set forth uncorrected in degrees Celsius; unless otherwise indicated, all parts and percentages are by weight.

Pharmaceutical grade reagents as defined in the current DAB (Deutsches Arzneibuch) Pharmacopoeia were employed in the following Examples. With the exception of Examples 5 and 16, the preparations described by way of example are preponderantly suitable for oral administration.

EXAMPLE 1

Preparation for 1000 units

0.25 gram of d-norgestrel,

0.05 gram of ethinyl-estradiol and

0.84 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in

95.00 grams of ethyl alcohol with stirring, and into the resultant solution is homogeneously introduced a powdered mixture of

16.93 grams of hydroxypropyl-cellulose and

16.93 grams of cellulose

The resultant suspension is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition of one unit:

______________________________________

0.25 mg. of d-norgestrel 0.05 mg. of ethinyl-estradiol 0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 16.93 mg. of hydroxypropyl-cellulose 16.93 mg. of cellulose 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 2

A preparation for 1000 units

1.10 grams of Cremophor EL® are dissolved in

152.00 grams of water. In this solution are homogeneously suspended.

0.25 gram of micronized d-norgestrel and

0.05 gram of micronized ethinyl-estradiol. Into the suspension are introduced

22.10 grams of hydroxypropyl-cellulose and

16.50 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

0.25 mg. of d-norgestrei 0.05 mg. of ethinyl-estradiol 1.10 mg. of Cremophor EL® 22.10 mg. of hydroxypropyl-cellulose 16.50 mg. of cellulose 40.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 3

A preparation for 1000 units

0.03 gram of d-norgestrel and

0.84 gram of polyoxyl-40-stearate are dissolved, while stirring, in

95.00 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

16.93 grams of hydroxypropyl-cellulose and

17.20 grams of cellulose.

The suspension so obtained is drawn by a suitable film drawing apparatus onto a sheet having a thickness of 500 μm, and is then dried.

The composition of one unit:

______________________________________

0.03 mg. of d-norgestrel 0.84 mg. of polyoxyl-40-stearate 16.93 mg. of hydroxypropyl-cellulose 17.20 mg. of cellulose 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 4

A preparation for 1000 units

1.10 grams of polyoxyethylene-polyoxypropylene copolymer are dissolved in

152.00 grams of demineralized water. In this solution is suspended

0.03 gram of micronized d-norgestrel to form a homogeneous suspension. Into the suspension are introduced

22.10 grams of hydroxypropyl-cellulose and

16.77 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

0.03 mg. of d-norgestrel 1.10 mg. of polyoxyethylene-polyoxypropylene copolymer 22.10 mg. of hydroxypropyl-cellulose 16.77 mg. of cellulose 40.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 5

A preparation for 1000 units

0.025 gram of fluocortolone trimethylacetate and

0.183 gram of glycerine are dissolved in

30.000 grams of ethyl alcohol. Into this solution are introduced

7.292 grams of hydroxypropyl-cellulose.

The solution so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition of one unit:

______________________________________

0.025 mg. of fluocortolone trimethylacetate 0.183 mg. of glycerine 7.292 mg. of hydroxypropyl-cellulose 7.500 mg.

______________________________________

One unit corresponds to an area of about 1 cm ² .

Appearance of the film: transparent.

The dry film has a thickness of about 70 μm.

The film is suitable for topical use.

EXAMPLE 6

A preparation for 1000 units

10.00 grams of 7-chloro-2-methylamino-5-phenyl-3H-1,4-benzo-diazepine-4-oxi de and

0.84 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in

95.00 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

16.93 grams of hydroxypropyl-cellulose and

7.23 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition of one unit:

______________________________________

10.00 mg. of 7-chloro-2-methylamino-5-phenyl-3H-1,4- benzo-diazepine-4-oxide 0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 16.93 mg. of hydroxypropyl-cellulose 7.23 mg. of cellulose -35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: yellow, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 7

A preparation for 1000 units

1.00 gram of norethisterone acetate,

0.03 gram of ethinyl-estradiol and

0.84 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in

95.00 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

16.93 grams of hydroxypropyl-cellulose and

16.20 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

1.00 gm. of norethisterone acetate 0.03 mg. of ethinyl-estradiol 0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 16.93 mg. of hydroxypropyl-cellulose 16.20 mg. of cellulose 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 8

A preparation for 1000 units

1.00 gram of noresthisterone acetate,

0.03 gram of ethinyl-estradiol and

0.84 gram of propylene glycol are dissolved in a mixture of

101.60 grams of methylene chloride and

26.40 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

8.47 grams of hydroxypropyl-cellulose,

8.47 grams of hydroxyethyl-cellulose and

16.19 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

1.00 mg. of noresthisterone acetate 0.03 mg. of ethinyl-estradiol 0.84 mg. of propylene glycol 8.47 mg. of hydroxypropyl-cellulose 8,47 mg. of hydroxyethyl-cellulose 16.19 mg. of cellulose 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 9

A preparation for 1000 units

1.00 gram of noresthisterone acetate,

0.03 gram of ethinyl-estradiol and

0.84 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in

101.60 grams of methylene chloride and

25.40 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

16.93 grams of hydroxyethyl-cellulose and

16.20 grams of starch.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

1.00 mg. of norethisterone acetate 0.03 mg. of ethinyl-estradiol 0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 16.93 mg. of hydroxyethyl-cellulose and 16.20 mg. of starch 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 10

A preparation for 1000 units

1.00 gram of norethisterone acetate,

0.03 gram of ethinyl-estradiol and

0.84 gram of polyoxyl-40-stearate are dissolved in

95.00 grams of ethyl alcohol. Into this solution is introduced a powdered mixture of

16.93 grams of hydroxypropyl-cellulose,

8.10 grams of lactose and

8.10 grams of maize starch.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and is then dried.

The composition for one unit:

______________________________________

1.00 mg. of noresthisterone acetate 0.03 mg. of ethinyl-estradiol 0.84 mg. of polyoxyl-40-stearate 16.93 mg. of hydroxypropyl-cellulose 8.10 mg. of lactose 8.10 mg. of maize starch 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 11

A preparation for 1000 units

1.00 gram of norethisterone (17α-ethinyl-19-nor-testosterone

0.03 gram of ethinyl-estradiol and

0.22 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in a mixture of

84.75 grams of ethyl alcohol and

4.00 grams of water. Into this solution is introduced a powdered mixture of

6.00 grams of hydroxypropyl-cellulose and

16.00 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 600 μm, and then dried.

The composition for one unit:

______________________________________

1.00 mg. of norethisterone (17α-ethinyl-19- nor-testosterone) 0.03 mg. of ethinyl-estradiol 0.22 mg. of polyoxyethylene-polyoxypropylene copolymer 16.00 mg. of hydroxypropyl-cellulose 16.00 mg. of cellulose 33.25 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of approximately 230 μm.

EXAMPLE 12

A preparation for 1000 units

4.0 grams of glisoxepide* in micronized form are suspended in

0.9 gram of polyoxyl-40-stearate dissolved in

152.0 grams of water to form a homogeneous suspension. Into the suspension are introduced

15.0 grams of hydroxyethyl-cellulose and

15.1 grams of calcium carbonate. FNT *Glisoxepide is 4-{4-[β-(5-methyl-isoxazol-3-carboxamido)ethyl]-benzolsulfo nyl}-1,1-h examethylene-semicarbazide.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm and dried.

The composition for one unit:

______________________________________

4.00 mg. of glisoxepide* 0.90 mg. of polyoxyl-40-stearate 15.00 mg. of hydroxyethyl-cellulose 15.10 mg. of calcium carbonate 35.00 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 13

A preparation for 1000 units

0.030 gram of d-norgestrel is dissolved in

40.000 grams of methylene chloride and

55.000 grams of ethanol. Into this solution are introduced

0.840 gram of silicone oil

6.930 grams of methyl-cellulose and

10.000 grams of poly-N-vinyl-pyrrolidone and

17.200 grams of starch to form a homogeneous suspension.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm and dried.

The composition of one unit:

______________________________________

0.030 mg. of d-norgestrel 0.840 mg. of silicone oil 6.930 mg. of methyl-cellulose 10.000 mg. of poly-N-vinyl-pyrrolidone 17.200 mg. of starch 35.000 mg.

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of about 170 μm.

EXAMPLE 14

A preparation for 1000 units

0.84 gram of polyoxyethylene-polyoxypropylene copolymer is dissolved in

95.00 grams of ethyl alcohol while stirring, and into this solution is introduced a powdered mixture of

17.08 grams of hydroxypropyl-cellulose and

17.08 grams of cellulose.

The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 500 μm, and then dried.

The composition for one unit:

______________________________________

0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 17.08 mg. of hydroxypropyl-cellulose 17.08 mg. of cellulose 35.00 mg.

______________________________________

EXAMPLE 15

A preparation for 1000 units

0.04 gram of saccharin,

0.04 gram of cream essence and

0.40 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in a mixture of

79.00 grams of ethyl alcohol and

4.00 grams of water. Into this solution are introduced

30.00 grams of iron(II) fumarate,

15.00 grams of hydroxypropyl-cellulose,

5.52 grams of cocoa and

4.00 grams of cellulose to form a homogeneous mixture. The suspension so obtained is drawn on a suitable film drawing apparatus to a sheet having a thickness of 0.5 mm, and then dried.

The composition for one unit:

______________________________________

30.00 mg. of iron(II) fumarate 15.00 mg. of hydroxypropyl-cellulose 4.00 mg. of cellulose 0.40 mg. of polyoxyethylene-polyoxypropylene copolymer 5.52 mg. of cocoa 0.04 mg. of saccharin 0.04 mg. of cream essence 55.00 mg. Weight per unit

______________________________________

One unit corresponds to an area of about 3 cm ² .

Appearance of the film: pale red-brown.

EXAMPLE 16

Films for intravaginal application: The film is prepared in accordance with Example 11.

The composition of one unit:

______________________________________

100.0 mg. of 5-morpholinomethyl-3-(5-nitro-1-methyl-2- imidazolyl)-methyleneamino-2-oxazolidinone.HCl 8.4 mg. of Cremophor EL® 169.2 mg. of methylhydroxypropyl-cellulose 72.4 mg. of cellulose 350.0 mg. Weight of one unit.

______________________________________

One unit corresponds to an area of about 8 × 4 cm.

Appearance of the film: pale yellow.

The film (1 unit) is either rolled around an ordinary commercial tampon or is itself rolled to form a narrow tube.

EXAMPLE 17

This Example demonstrates the simplicity of a two-phase preparation in accordance with the present invention.

______________________________________

Part A: 21 units containing active substance. Part B: 7 units without active substance (placebo). Preparation for 3000 units, Part A. 0.75 gram of d-norgestrel, 0.15 gram of ethinyl-estradiol and 0.54 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in a mixture of 237.00 grams of ethyl alcohol and 12.00 grams of water. Into this solution are introduced 44.28 grams of hydroxypropyl-cellulose and 44.28 grams of cellulose to form a homogeneous suspension. Preparation for 1000 units, Part B. 0.18 gram of polyoxyethylene-polyoxypropylene copolymer is dissolved in a mixture of 79.00 grams of ethyl alcohol and 4.00 grams of water. Into this solution are introduced 14.91 grams of hydroxypropyl-cellulose and 14.91 grams of cellulose to form a homogeneous suspension

______________________________________

The suspensions so obtained are drawn on a suitable film drawing apparatus having a two compartment doctor (widths of the compartments: #1 = 54 mm; #2 = 18 mm) to form a sheet of 0.5 mm and then dried. By appropriate division into units measuring 18 × 18 mm, e.g., by perforation, the film can be divided over its width into three units containing active substance and one placebo unit free of active substance. There may be produced in the web of film any desired number of sections having a ratio of three units containing active substance to one placebo unit containing no active substance.

The composition of each unit:

______________________________________

Part A (containing active substance). Part B (placebo).

______________________________________

0.25 mg. of d-norgestrel -- 0.05 mg. of ethinyl-estradiol -- 14.76 mg. of hydroxypropyl-cellulose 14.91 mg. 14.76 mg. of cellulose 14.91 mg. 0.18 mg. of polyoxyethylene-polyoxy- 0.18 mg. 30.00 mg. propylene copolymer 30.00 mg. Area per unit: about 3 cm 2 . Appearance: white.

______________________________________

EXAMPLE 18

This Example demonstrates the ease of making a three-phase preparation containing two active substance phases and a placebo in accordance with the present invention.

______________________________________

Part A: 11 units containing 0.05 mg. of d-norgestrel 0.05 mg. of ethinyl-estradiol. Part B: 10 units containing 0.125 mg. of d-norgestrel 0.050 mg. of ethinyl-estradiol. Part C: 7 placebo units without active substance. Preparation for 1100 units, Part A. 0.055 gram of d-norgestrel, 0.055 gram of ethinyl-estradiol and 0.198 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in mixture of 86.900 grams of ethyl alcohol and 4.400 grams of water. Into this solution are introduced 16.346 grams of hydroxypropyl-cellulose and 16.346 grams of cellulose to form a homogeneous suspension. Preparation for 1000 units, Part B. 0.125 gram of d-norgestrel, 0.050 gram of ethinyl-estradiol and 0.180 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in a mixture of 79.000 grams of ethyl alcohol and 4.000 grams of water. Into this solution are introduced 14.823 grams of hydroxypropyl-cellulose and 14.823 grams of cellulose to form a homogeneous suspension. Preparation for 700 units, Part C. 0.189 gram of polyoxyethylene-polyoxypropylene copolymer is dissolved in a mixture of 82.950 grams of ethyl alcohol and 4.200 grams of water. Into this solution are introduced 15.656 grams of hydroxypropyl-cellulose and 15.655 grams of cellulose to form a homogeneous suspension.

______________________________________

The suspensions so obtained are drawn on a suitable film drawing apparatus having a three compartment doctor (width per compartment 18 mm) into a sheet and dried. By appropriate division, e.g., by perforation, there can be distributed over the width of the film three units of 18 × 18 mm for Part A, of 18 × 19.8 mm for Part B and of 18 × 28 mm for Part C, each having different contents of active substance. There can be separated from the film web preparations having 11 units of Part A, 10 units of Part B and 7 units of Part C.

The composition per unit:

______________________________________

Part A Part B Part C Ingredients

______________________________________

0.050 mg. 0.125 mg. -- d-norgestrel 0.050 mg. 0.050 mg. -- ethinyl-estradiol polyoxyethylene- 0.180 mg. 0.180 mg. 0.270 mg. polyoxypropylene copolymer 14.860 mg. 14.823 mg. 22.366 mg. hydroxypropyl-cellulose 14.860 mg. 14.822 mg. 22.364 mg. cellulose 30.000 mg. 30.000 mg. 45.000 mg. weight per unit about about about 3 cm 2 3.5 cm 2 5 cm 2 area per unit white white white appearance

______________________________________

EXAMPLE 19

The various phases need not contain the same pharmaceutically active ingredients, as is shown by the following three-phase preparation.

______________________________________

Part A: 11 units containing 0.05 mg. of d-norgestrel 0.05 mg. of ethinyl-estradiol Part B: 10 units containing 0.125 mg. of d-norgestrel 0.050 mg. of ethinyl-estradiol Part C: 7 units containing 50.00 mg. of iron(II) fumarate. Preparation for 1100 units, Part A. 0.066 gram of food color yellow No. 2 (tartrazine; E 102) is dissolved in 4.400 grams of water, and then introduced into 86.900 grams of ethyl alcohol. In this solution are dissolved 0.055 gram of d-norgestrel, 0.055 gram of ethinyl-estradiol and 0.198 gram of polyoxyethylene-polyoxypropylene copolymer. Into this solution are introduced 16.313 grams of hydroxypropyl-cellulose and 16.313 gram of cellulose to form a homogeneous suspension. Preparation for 1000 units, part B. 0.065 gram of food color orange No. 2 (sunset Yellow; E 110) is dissolved in 4.000 grams of water, and then introduced into 79.000 grams of ethyl alcohol. In this solution are dissolved 0.125 gram of d-norgestrel, 0.050 gram of ethinyl-estradiol and 0.180 gram of polyoxyethylene-polyoxypropylene copolymer. Into this solution are introduced 14.790 grams of hydroxypropyl-cellulose and 14.790 grams of cellulose to form a homogeneous suspension. Preparation for 700 units, Part C. 0.042 gram of saccharin, 0.042 gram of cream essence and 0.406 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in a mixture of 55.300 grams of ethyl alcohol and 2.800 grams of water. Into this solution are introduced 35.000 grams of iron(II) fumarate, 17.500 grams of hydroxypropyl-cellulose, 5.950 grams of cocoa and 4.060 gram of cellulose to form a homogeneous suspension.

______________________________________

The suspensions so prepared are drawn on a suitable film drawing apparatus having a three compartment doctor (width per compartment 18 mm) into a sheet and dried. By appropriate division, e.g., by perforation, there can be distributed over the width of the film three units of 18 × 18 mm for Part A, of 18 × 19.8 mm for Part B and of 18 × 28 mm for Part C, each having different contents of active substance. There can be separated from the film web preparations having 11 units of Part A, 10 units of Part B and 7 units of Part C.

The composition per unit:

______________________________________

Part A Part B Part C Ingredients

______________________________________

0.050 mg. 0.125 mg. -- d-norgestrol 0.050 mg. 0.050 mg. -- ethinyl-estradiol -- -- 50.000 mg. iron(II) fumarate polyoxethylene- 0.180 mg. 0.180 mg. 0.580 mg. polyoxypropylene copolymer 0.060 mg. -- -- food color Yellow No. 2 -- 0.065 mg. -- food color Orange No. 2 14.830 mg. 14.790 mg. 25.000 mg. hydroxypropyl-cellulose 14.830 mg. 5.800 mg. cellulose -- -- 8.500 mg. cocoa -- -- 0.060 mg. saccharin -- -- 0.060 mg. cream essence 30.000 mg. 30.000 mg. 90.000 mg. weight per unit about about about 3 cm 2 3.5 cm 2 5 cm 2 area per unit yellow orange brown appearance

______________________________________

EXAMPLE 20

Preparation for 1000 units

0.15 gram of d-norgestrel,

0.03 gram of ethinyl-estradiol and

0.84 gram of polyoxyethylene-polyoxypropylene copolymer are dissolved in

95.00 grams of ethyl alcohol while stirring and a powdered mixture of

16.99 grams of hydroxypropyl-cellulose and

16.99 grams of cellulose is introduced into this solution.

The suspension obtained is drawn out on a suitable film drawing apparatus to a very thin film having a thickness of 500 μm, and is then dried.

The composition of one unit:

______________________________________

0.15 mg. of d-norgestrel 0.03 mg. of ethinyl-estradiol 0.84 mg. of polyoxyethylene-polyoxypropylene copolymer 16.99 mg. of hydroxypropyl-cellulose 16.99 mg. of cellulose 35.00 mg.

______________________________________

One unit corresponds to an area of approximately 3 cm ² .

Appearance of the film: white, paper-like.

The dry film has a thickness of approximately 170 μm.

The preceding examples can be repeated with similar success by substituting the generically or specifically described reactants and/or operating conditions of this invention for those used in the preceding examples.

From the foregoing description, one skilled in the art can easily ascertain the essential characteristics of this invention, and without departing from the spirit and scope thereof, can make various changes and modifications of the invention to adapt it to various usages and conditions.