Fast dissolving orally consumable films containing a sweetener

FIELD OF THE INVENTION

[0001] The present invention is related generally to fast dissolving orally consumable films for delivering one or more pharmaceutically active agents, and more particularly to fast dissolving orally consumable films containing a sweetener for improving the taste of the film.

BACKGROUND OF RELATED TECHNOLOGIES

[0002] Personal care products can be formulated in a variety of dosage forms, including tablets, capsules, lozenges or strips of edible thin film compositions. Edible thin film compositions applied to the oral cavity can be designed to deliver therapeutic agents to the oral mucosa. One such example is LISTERINE POCKETPAKS™ brand oral care strip products made by Pfizer Inc. of New York are successful examples of an edible film compositions effective in delivering therapeutic agents particularly antimicrobial agents in the form of a combination of essential oils.

[0003] Conventional rapidly dissolving orally consumable films may have incorporated flavorants and/or sweetening agents to improve the taste of the film and/or its components (e.g., pharmaceutically active agents) contained therein. The flavorants and/or sweetening agents used in such films generally provide limited taste improvement especially for films containing bitter tasting components. Accordingly, there still remains a need in the art to develop consumable thin films containing a sweetener, which at least substantially improves the taste of films and its components.

SUMMARY

[0004] One embodiment of the present invention provides a consumable film adapted to adhere to and dissolve in the oral cavity of a warm-blooded animal including humans, which comprises at least one water soluble polymer, a taste masking effective amount of a sweetener, and a pharmaceutically active agent having a sufficiently unpleasant taste that it is desirably masked by the sweetener. In another embodiment of the present invention, there is provided a consumable film adapted to adhere to and dissolve in the oral cavity of a warm-blooded animal including humans, comprising at least one water soluble polymer, a taste masking effective amount of a sucralose, and a pharmaceutically active agent.

[0005] The present invention is also directed to a method of preparing a supple, non-self-adhering film especially suitable for oral delivery of pharmaceutically active agents where the method comprises preparing a film-forming mixture including at least one water soluble polymer; preparing an aqueous phase comprising a sweetener and a pharmaceutically active agent; combining the aqueous phase and the film forming mixture to form a hydrated polymer gel; casting the hydrated polymer gel on a substrate to form a cast gel; and drying the cast gel to form the consumable film.

DETAILED DESCRIPTION OF THE INVENTION

[0006] An embodiment of the present invention is directed to a physiologically acceptable film that is well-adapted to dissolve in the oral cavity of a warm-blooded animal including humans afflicted with a disease, symptom or condition, and adhere to the mucosa of the oral cavity. Such films are suited to deliver a pharmaceutically active agent useful for treating the afflicted warm-blooded animal.

[0007] In one aspect of the present invention, there is provided a consumable film adapted to adhere to and dissolve in the mouth of a warm-blooded animal including humans, comprising at least one water soluble polymer, a taste masking effective amount of a sweetener, and a pharmaceutically active agent having a sufficiently unpleasant taste that it is desirably masked by the sweetener.

[0008] The consumable film may include one or more of the following ingredients, including, but not limited to, water, antimicrobial agents, additional film forming agents or water soluble polymers, plasticizing agents, flavorings, sulfur precipitating agents, saliva stimulating agents, cooling agents, surfactants, stabilizing agents, emulsifying agents, thickening agents, binding agents, coloring agents, triglycerides, polyethylene oxides, propylene glycols, sweeteners, fragrances, preservatives and the like, as described in co-pending application U.S. patent application Ser. No. 09/395,104, by Leung et al., filed Sep. 14, 1999, which is incorporated herein by reference in its entirety.

[0009] In one embodiment of the present invention, the consumable film is in the form of a single layer.

[0010] The term “consumable” as used herein is intended to encompass substances including edible compounds, which upon administration to a consumer, is adequately tolerated without causing undue negative effects. Consumable films are shaped and sized for administration to the oral cavity of a warm-blooded animal including humans. The films are particularly well adapted to rapidly dissolve in the mouth of the warm-blooded animal. The dissolved film adheres to the surface of the mouth, typically the roof of the mouth or the tongue, and can provide a rapid delivery system for pharmaceutically active agents.

[0011] Unless specified otherwise, the term “% by weight” as used herein with reference to the final product (i.e., the film, as opposed to the formulation used to produce the film), denotes the percent of the total dry weight contributed by the subject ingredient. This theoretical value can differ from the experimental value, because in practice, the film typically retains some of the water and/or other substances such as alcohols (e.g., ethanol) that may be used in preparing the final product.

[0012] In one embodiment, the consumable film of the present invention includes a pharmaceutically active agent and a sweetener that significantly improves the taste of the pharmaceutically active agent for enhanced product performance and consumer acceptance. By improving the taste of the films containing pharmaceutically active agents in accordance with the present invention, compliance and adherence to treatments involving such films would be significantly enhanced. Suitable sweeteners include natural and artificial sweeteners.

[0013] Useful sweetening agents include A) water-soluble sweetening agents such as, for example, monosaccharides, disaccharides and polysaccharides, B) water-soluble artificial sweetening agents such as, for example, soluble saccharin salts and the like, C) dipeptide based sweetening agents such as L-aspartic acid derived sweetening agents and the like, D) protein based sweeteners such as, for example, thaumatoccous danielli (Thaumatin I and II), and mixtures thereof. Additional suitable sweeteners include sucralose, aspartame, acesulfame potassium, neotame, saccharin, xylitol and mixtures thereof.

[0014] The sweetener is employed in an effective amount, which will vary depending in part on the specific sweetener chosen. A “taste masking effective amount” is meant to be an amount of the sweetener that is sufficient to at least reduce, mask or eliminate the unpleasant taste (e.g., bitter) of the pharmaceutically active agent contained in the film of the present invention. In addition to the particular sweetener, the taste masking effective amount may vary with the type and/or the degree of the taste being masked and the particular carrier and ingredients contained in the film. In one embodiment, the sweetener may be present in the dry film of the present invention in taste masking effective amounts ranging from about 0.1% to 10% by weight, preferably 1% to 6% by weight, and more preferably from about 2% to 4% by weight of the film.

[0015] One embodiment includes sucralose as a sweetener. Sucralose is a chlorinated sucrose derivative having an intensely sweet taste. Sucralose has been discovered to effectively mask or nullify the unpleasant taste attributes of many food additives and pharmaceutically active agents especially those that are bitter tasting. By incorporating sucralose into the films of the present invention, enhanced sweetness and desirable masking of any unpleasant taste supplanted by food additives and pharmaceutically active agents (e.g., dextromethorphan hydrobromide, famotidine) that may be contained therein, will be beneficially realized.

[0016] The water soluble polymers of the present invention possess film forming properties useful producing the films of the present invention. The water soluble polymer used in the films of the present invention can be selected from the group consisting of pullulan, hydroxypropylmethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, polyvinyl pyrrolidone, carboxymethyl cellulose, polyvinyl alcohol, sodium alginate, polyethylene glycol, tragacanth gum, guar gum, acacia gum, arabic gum, polyacrylic acid, methylmethacrylate copolymers, carboxyvinyl polymers, amylose, high amylose starch, hydroxypropylated high amylose starch, dextrin, pectin, chitin, chitosan, levan, elsinan, collagen, gelatin, zein, gluten, soy protein isolate, whey protein isolate, casein and mixtures thereof. In one embodiment of the present invention the water soluble polymer is pullulan which may be present in amounts ranging from about 0.01% to 99% by weight, in another embodiment from about 10% to 80% by weight, in another embodiment from about 20% to 70% by weight of the film and in yet another embodiment from about 30% to 50% by weight of the film.

[0017] The term “pharmaceutically active agents” as used herein is intended to encompass agents other than food additives, which promote a structural and/or functional change in and/or on bodies to which they have been administered. These agents are not particularly limited, however, they should be physiologically acceptable and compatible with the film. Suitable pharmaceutically active agents that may be unpleasant to the taste, include, but are not limited to,

[0018] (a) antimicrobial agents such as triclosan, cetyl pyridium chloride, domiphen bromide, quaternary ammonium salts, zinc compounds, sanguinarine, fluorides, alexidine, octonidine, EDTA, and the like;

[0019] (b) non-steroidal anti-inflammatory drugs such as aspirin, acetaminophen, ibuprofen, ketoprofen, diflunisal, fenoprofen calcium, flurbiprofen sodium, naproxen, tolmetin sodium, indomethacin, celecoxib, rofecoxib and the like;

[0020] (c) antitussives such as benzonatate, caramiphen edisylate, menthol, dextromethorphan hydrobromide, chlophedianol hydrochloride and the like;

[0021] (d) decongestants such as pseudoephedrine hydrochloride, phenylepherine, phenylpropanolamine, pseudoephedrine sulfate and the like;

[0022] (e) antihistamines such as brompheniramine maleate, chlorpheniramine maleate, carbinoxamine maleate, clemastine fumarate, dexchlorpheniramine maleate, diphenylhydramine hydrochloride, azatadine maleate, diphenhydramine citrate, diphenylpyraline hydrochloride, doxylamine succinate, promethazine hydrochloride, pyrilamine maleate, tripelennamine citrate, triprolidine hydrochloride, acrivastine, brompheniramine, dexbropheniramine, fexofenadine, loratadine, cetirizine, and the like;

[0023] (f) expectorants such as guaifenesin, ipecac, potassium iodide, terpin hydrate and the like;

[0024] (g) antidiarrheals such as loperamide and the like;

[0025] (h) histamine II receptor antagonists such as famotidine, ranitidine and the like;

[0026] (i) proton pump inhibitors such as omerprazole, lansoprazole and the like;

[0027] (j) general nonselective CNS depressants such as aliphatic alcohols, barbiturates and the like;

[0028] (k) general nonselective CNS stimulants such as caffeine, nicotine, strychnine, picrotoxin, pentylenetetrazol and the like;

[0029] (l) drugs that selectively modify CNS function such as phenyhydantoin, phenobarbital, primidone, carbamazepine, ethosuximide, methsuximide, phensuximide, trimethadione, diazepam, benzodiazepines, phenacemide, pheneturide, acetazolamide, sulthiame bromide, gabapentin, phenytoin and the like;

[0030] (m) antiparkinsonism drugs such as levodopa, amantadine and the like;

[0031] (n) narcotic-analgesics such as morphine, heroin, hydromorphone, metopon, oxymorphone, levorphanol, codeine, hydrocodone, oxycodone, nalorphine, naloxone, naltrexone and the like;

[0032] (o) analgesic-antipyretics such salicylates, phenylbutazone, indomethacin, phenacetin and the like; and

[0033] (p) psychopharmacological drugs such as chlorpromazine, methotrimeprazine, haloperidol, clozapine, reserpine, imipramine, tranylcypromine, pheneizine, lithium and the like.

[0034] The pharmaceutically active agent is employed in an effective amount, which will vary depending, in part on the pharmaceutically active agent chosen. An “effective amount” is meant to be an amount of the pharmaceutically active agent that sufficient to at least reduce or relieve the condition, symptom or disease being treated, but low enough to avoid any adverse side effects. In addition to the particular active agent, the effective amount of the pharmaceutically active agent may vary with the type and/or severity of the disease, symptom or condition, the age and physical condition of the patient being treated, the duration of treatment, the nature of concurrent therapy, the specific form (i.e., salt) of the pharmaceutically active agent employed, and the particular carrier from which the pharmaceutically active agent is applied.

[0035] The amount of the pharmaceutically active agent in the formulation may be adjusted to deliver a predetermined dose of the pharmaceutically active agent over a predetermined period of time, which may typically vary from 4 to 24 hours. For example, in one embodiment of the present invention, the film may be administered at one dose every 12 hours to deliver a pharmaceutically effective amount of the pharmaceutically active agent such as dextromethorphan, for example, over a period of 12 hours to a patient in need of such administration. A typical adult dose of a pharmaceutically active agent of the present film may contain from about 0.1 to 130 mg, preferably from about 0.1 to 65 mg of the pharmaceutically active agent (e.g., dextromethorphan hydrobromide).

[0036] Examples of doses for specific pharmaceutically active agents that can be delivered per one strip of rapidly dissolving oral film are reviewed in Table A.

1TABLE APharmaceutically Active AgentDoseChlorpheniramine Maleate4-12mgBrompheniramine Maleate4mgDexchlorpheniramine2mgDexbropheniramine2mgTriprolidine Hydrochloride2.5mgCetirizine5-10mgAcrivastine8mgAzatadine Maleate1mgLoratadine5-10mgPhenylephrine Hydrochloride5-10mgDextromethorphan Hydrobromide10-30mgSildenafil25-100mgKetoprofen12.5-25mgSumatriptan Succinate35-70mgZolmitriptan2.5mgLoperamide2mgFamotidine5-10mgNicotine1-15mgDiphenhydramine Hydrochloride12.5-25mgPseudoephedrine Hydrochloride15-60mgAtorvastatin5-80mgValdecoxib5-20mgAmlodipine besylate2.5-10mgRofecoxib5-25mgSetraline hydrochloride10-100mgZiprasidone20-80mgEletriptan10-40mgNitroglycerin0.3-0.6mg

[0037] Except as otherwise noted, the amount of active agent in the film according to the present invention is designated as % by weight after the film formulation has been dried and formed into the film. Generally, the amount of the active agent used in the film may be from about 0.01% to about 80% by weight, preferably from about 2.5% to about 40% by weight, and more preferably from about 5% to about 30% by weight.

[0038] The film compositions of the present invention may also be used to supply nutritionally acceptable components such as vitamins, minerals, trace elements, and fibers (preferably soluble fibers).

[0039] Examples of vitamins suitable for the incorporation in the composition of the invention include Vitamin A, Vitamin D, Vitamin E, Vitamin K, Vitamin C, folic acid, 10 thiamin, riboflavin, Vitamin B (6), Vitamin B (12), niacin, biotin and panthotenic acid in pharmaceutical or nutritionally acceptable form. Examples of mineral elements and trace elements suitable for the incorporation in the composition of the invention include calcium, sodium, potassium, phosphorous, magnesium, manganese, copper, zinc, iron, selenium, chromium and molybdenum in pharmaceutical or nutritionally acceptable form.

[0040] The term soluble fiber as used herein refers to fibers which are able to substantially undergo fermentation in the colon to produce short chain fatty acids.

[0041] Examples of suitable soluble fibers include, carubin, pectin, tragacanth, cereal beta-glucan and the like. They may be hydrolysed or not.

[0042] In another embodiment of the present invention, the consumable film may further include antimicrobial agents including, but not limited to, essential oils as is described in co-pending U.S. patent application Ser. No. 09/395,104, by Leung et al., filed Sep. 14, 1999, which is incorporated herein by reference in its entirety. Such essential oils may be selected from, for example, carvacrol, thymol, eucalyptol, menthol, methyl salicylate, eugenol, gerianol, verbenone and the like and combinations thereof. One of the preferred combinations of essential oils is utilized in LISTERINE® brand mouthwash and oral care strips, which are, perhaps, the most well known examples of antiseptic oral compositions that has proven effective in killing microorganisms in the oral cavity that are responsible for plaque, gingivitis and bad breath. LISTERINE® brand mouthwash and oral care strips achieve their antimicrobial effect through a combination of essential oils. These essential oils include precisely balanced amounts of thymol, methyl salicylate, menthol and eucalyptol (hereinafter “the preferred essential oils”) effective in killing the undesirable microorganisms.

[0043] The amounts of the preferred essential oils used in the film compositions can vary as long as they are in amounts sufficient to provide antimicrobial efficacy. Generally, the amount of essential oils is up to about 30% and preferably from about 0.05% to about 18% by weight of the film. In one preferred embodiment, the amount of thymol, methyl salicylate and eucalyptol is each from about 0.01% to about 4% by weight, preferably from about 0.05% to about 3.0% by weight and more preferably from about 0.07% to about 2.0% by weight of the film. Menthol may be present in an amount of from about 0.01% to about 15% by weight of the composition, preferably from about 2.0% to about 9.0% by weight and more preferably from about 3% to about 9% by weight of the film. A desirable and useful amount of essential oils including the preferred essential oils can be readily determined by those skilled in the art and may exceed the preferred amounts as long as the total essential oil content does not create processing problems such as sticking. In certain embodiments, the essential oils are combined in amounts synergistically effective to kill plaque-producing germs that cause dental plaque, gingivitis and bad breath.

[0044] For embodiments incorporating essential oils, humectants are avoided due to the relatively high content of oil in the consumable, so as to avoid producing an overly moist, self-adhering film. In an embodiment, the consumable film includes a plasticizing agent other than glycerin, which is also a humectant, and with a sweetener other than sorbitol, which is a mild humectant.

[0045] Saliva stimulating agents may also be added to the consumable films of the present invention. Useful saliva stimulating agents are disclosed in U.S. Pat. No. 4,820,506, which is incorporated herein by reference in its entirety.

[0046] The consumable films of the present invention may also include a preservative. The preservative is added in amounts up to about 5%, preferably from about 0.01% to 1% by weight of the film. Preferred preservatives include sodium benzoate, methyl parabens, propyl parabens and potassium sorbate. Other suitable preservatives include, but are not limited to, salts of edetate, (also known as salts of ethylenediaminetetraacetic acid, or EDTA, such a disodium EDTA).

[0047] Another embodiment of the present invention is directed to methods of preparing consumable films of the present invention. Generally, at least one antitussive agent and a mucosa-coating effective amount of a mucosa-coating agent are dissolved in water to form an aqueous phase. The aqueous phase may further include sweeteners, dyes, and the like. A film forming mixture comprising at least one water soluble polymer (e.g., pullulan) is prepared. The aqueous phase and the film forming mixture are combined and thoroughly mixed to form a hydrated polymer gel. Optionally, an organic phase comprising organic ingredients such as essential oils and other oils (e.g. glycerine, olive oil) flavorants, surfactants (e.g., Polysorbate 80, Atmos 300, Atsurf 596K); and the like, may be combined with the aqueous phase, the film forming mixture or the hydrated polymer gel. The resulting hydrated polymer gel is cast on a suitable substrate to form a cast gel. The cast gel is then dried to form the consumable film.

[0048] In another embodiment there is provided a method of preparing the consumable film, it may be desirable to first form the film forming mixture by first hydrating the water soluble polymer with water. The aqueous phase is then prepared by dissolving the other water soluble ingredients such as the antitussive agent, the mucosa-coating agent (e.g., pectin), sweeteners, dyes, and the like in water. Separately, the organic ingredients such as essential oils and other oils (e.g. glycerine, olive oil) flavorants, surfactants (e.g., Polysorbate 80, Atmos 300, Atsurf 596K); and the like are mixed together. The final formulation is then produced by mixing the film forming polymer phase with the aqueous phase, then adding the organic phase. The combined mixture is formed into an emulsion or a hydrated polymer gel.

[0049] The resulting hydrated polymer gel is then cast on a suitable substrate and dried to form a film. The consumable film is preferably air-dried and dried under warm air and cut to a desired dimension, packaged and stored. The packaged film may contain moisture in amounts of from about 0.1% to about 10% by weight, and more preferably from about 4% to about 7% by weight.

[0050] The film forming mixture may further include stabilizing agents such as xanthan gum, locust bean gum, carrageenan, and the like, and combinations thereof. These ingredients are mixed and then hydrated in warm water, preferably deionized water until a gel is formed which may take from about 30 to about 48 hours. The water is preferably heated to a temperature of from about 20° C. to about 40° C. to promote hydration. The amount of water is typically from about 40% to about 80% by weight of the gel. The resulting hydrated gel is then chilled to a temperature of from about 20° C. to about 30° C. for about 1 hour to about 48 hours.

[0051] The aqueous phase may, in addition to the antitussive agent and the mucosa coating effective amount of the mucosa-coating agent such as pectin, include additives such as coloring agents, copper gluconate and sweetener. Typically the aqueous phase contains from about 5% to about 80% by weight based on the total weight of the final gel mixture.

[0052] If sodium saccharin as a selected sweetener and copper gluconate as a selected sulfur precipitating agent are used in the formulation, it is preferable to dissolve them separately in solution to avoid precipitation.

[0053] In another embodiment of the present invention, the water soluble polymer is in the form of a powder which is added to the aqueous phase to form a hydrated polymer gel. The resulting hydrated polymer gel is thoroughly stirred at about room temperature for about 30 minutes to about 48 hours, and then deaerated to remove at least substantially all the air bubbles. The uniform mixture is cast on a suitable substrate, and thereafter dried to form the desired film.

[0054] For consumable films containing essential oils, the essential oils are further added to the organic phase and the mixing the organic phase with the hydrated polymer gel. In particular, the essential oils such as menthol and thymol can be mixed optionally in combination with oils to form an oil mixture. Other essentials oils such as methyl salicylate and eucalyptol, and surfactants can then be added to the oil mixture. The oil mixture is then added to the hydrated polymer gel and mixed until a uniform gel is formed. The uniform gel is then cast on a suitable substrate, and thereafter dried to form the consumable film.

[0055] In one embodiment for preparing the consumable film, the water soluble polymer may be hydrated without heating the water to reduce energy costs in the manufacturing process. Moreover, since heating may result in undesirable losses of volatile ingredients to evaporation, it would be preferable to avoid heating during the hydration process. For essential oil-containing films, the heat may also affect the germ killing activity of the composition due to the loss of essential oils.

[0056] While not wishing to be bound by any theory, it is believed that the film forming ingredients such as the water soluble polymers can be hydrated and mixed without heating due to an ionic effect known as the Donnan equilibrium. Hydrating the water soluble polymers in the presence of electrolytes in solution effectively lowers the viscosity of the polymer gel being formed, thus increasing the efficiency of the hydrating process. The water-soluble ingredients of the formulation provide the electrolytes, which are dissolved in the hydration solution prior to addition to the water-soluble polymers. High shear mixing also accelerates hydration, which delumps the powders, providing greater surface area for water contact. In addition, local heating effects, generated in the shear regions, provide energy for hydration without substantially raising the temperature of the mass.

EXAMPLE 1

[0057] The ingredients listed in Table 1 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0058] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP69 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 8020 C. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. Potassium sorbate and dye were then added to the aqueous phase and mixed thoroughly.

[0059] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0060] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a slow rate to provide a hydrated polymer gel.

[0061] D) The flavorants, glycerine, menthol, polysorbate 80 and Atmos 300 were combined and mixed to dissolve in a separate container to yield an organic phase.

[0062] E) Mannitol and sucralose were mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0063] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

2TABLE 1% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.73227.728938.6447HBrAmberlite IRP6916.000024.24778.244241.2211Xanthan Gum0.07690.11650.03960.1981Locust Bean Gum0.09010.13650.04640.2321Carrageenan0.38610.58510.19890.9947Pullulan20.591931.206610.610253.0512Potassium sorbate0.07720.11700.03980.1989Purified water——66.0000330.0000Menthol2.57403.90081.32636.6314Peppermint Flavor0.25790.39080.13290.6644Cherry Flavor0.25790.39080.13290.6644(Givudan)Sour Cherry (IFF)2.23503.38711.15165.7581Warm Sensation0.55180.83620.28431.4216(Mane)Artificial Masking0.41390.62730.21331.0663Agent Flavor(Robertet)Succulence (IFF)0.25790.39080.13290.6644FD&C Red #400.00980.01490.00500.0252Polysorbate 80 NF0.45040.68260.23211.1604Atmos 3000.45040.68260.23211.1604Glycerine1.93052.92560.99474.9736Mannitol USP2.57403.90081.32636.6314Sucralose1.80002.72790.92754.6374Total65.9857100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 2

[0064] The ingredients listed in Table 2 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0065] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP64 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 80° C. Pectin was mixed with glycerine and the mixture was added very slowly to the aqueous phase and then mixed thoroughly at a high rate. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. Potassium sorbate and dye were then added to the aqueous phase and mixed thoroughly.

[0066] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0067] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a slow rate to provide a hydrated polymer gel.

[0068] D) The flavorants and menthol were combined and mixed to dissolve in a separate container to yield an organic phase.

[0069] E) Mannitol and sucralose were mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0070] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

3TABLE 2% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.92357.835339.1765HBrAmberlite IRP6416.000024.45188.357641.7882Pectin USP0.35000.53490.18280.9141Xanthan Gum0.07690.11750.04020.2008Locust Bean Gum0.09010.13770.04710.2353Carrageenan0.38610.59010.20171.0084Pullulan20.591931.469310.756253.7812Potassium sorbate0.07720.11800.04030.2016Purified water——65.8199329.0995Menthol2.57403.93371.34456.7227Peppermint Flavor0.25790.39410.13470.6736Cherry Flavor0.25790.39410.13470.6736(Givudan)Sour Cherry (IFF)2.23503.41561.16755.8373Warm Sensation0.55180.84330.28821.4412(Mane)Artificial Masking0.41390.63250.21621.0810Agent Flavor(Robertet)Succulence (IFF)0.25790.39410.13470.6736FD&C Red #400.00980.01500.00510.0256Glycerine1.93052.95031.00845.0420Mannitol USP2.57403.93371.34456.7227Sucralose1.80002.75080.94024.7012Total65.4349100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 3

[0071] The ingredients listed in Table 3 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0072] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP69 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 80° C. Pectin was added to the aqueous phase very slowly and mixed at high speed. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. Potassium sorbate, sweeteners and dye were then added to the aqueous phase and mixed thoroughly.

[0073] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0074] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a slow rate to provide a hydrated polymer gel.

[0075] D) The flavorants, glycerine, menthol, and surfactants were combined and mixed to dissolve in a separate container to yield an organic phase.

[0076] E) Mannitol was mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0077] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

4TABLE 3% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.61237.728938.6445HBrAmberlite IRP6916.000024.11978.244241.2208Pectin USP0.35000.52760.18030.9017Xanthan Gum0.07690.11590.03960.1981Locust Bean Gum0.09010.13580.04640.2321Carrageenan0.38610.58200.19890.9947Pullulan20.591931.042010.610253.0509Potassium sorbate0.07720.11640.03980.1989Purified water——65.8199329.0995Menthol2.57403.88031.32636.6314Peppermint Flavor0.25790.38880.13290.6644Cherry Flavor0.25790.38880.13290.6644(Givudan)Cherry Flavor Blend2.23503.36921.15165.7580(IFF)Warm Sensation0.55180.83180.28431.4216(Mane)Artificial Masking0.41390.62390.21331.0663AgentFlavor (Robertet)Succulence (IFF)0.25790.38880.13290.6644FD&C Red #400.00980.01480.00500.0252Polysorbate 80 NF0.45040.67900.23211.1604Atmos 3000.45040.67900.23211.1604Glycerine1.93052.91020.99474.9735Mannitol USP2.57403.88031.32636.6314Sucralose1.80002.71350.92754.6373Total66.3357100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 4

[0078] The ingredients listed in Table 4 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0079] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP64 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 80° C. Pectin was added to the aqueous phase very slowly and mixed at a high mixing rate. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. Potassium sorbate and dye were then added to the aqueous phase and mixed thoroughly.

[0080] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0081] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer gel.

[0082] D) The flavorants, glycerine, menthol, and surfactants were combined and mixed to dissolve in a separate container to yield an organic phase.

[0083] E) Mannitol and sucralose were mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0084] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

5TABLE 4% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.61237.728938.6445HBrAmberlite IRP6416.000024.11978.244241.2208Pectin USP0.35000.52760.18030.9017Xanthan Gum0.07690.11590.03960.1981Locust Bean Gum0.09010.13580.04640.2321Carrageenan0.38610.58200.19890.9947Pullulan20.591931.042010.610253.0509Potassium sorbate0.07720.11640.03980.1989Purified water——65.8199329.0995Menthol2.57403.88031.32636.6314Peppermint Flavor0.25790.38880.13290.6644Cherry Flavor0.25790.38880.13290.6644(Givudan)Sour Cherry (IFF)2.23503.36921.15165.7580Warm Sensation0.55180.83180.28431.4216(Mane)Artificial Masking0.41390.62390.21331.0663Agent Flavor(Robertet)Succulence (IFF)0.25790.38880.13290.6644FD&C Red #400.00980.01480.00500.0252Polysorbate 80 NF0.45040.67900.23211.1604Atmos 3000.45040.67900.23211.1604Glycerine1.93052.91020.99474.9735Mannitol USP2.57403.88031.32636.6314Sucralose1.80002.71350.92754.6373Total66.3357100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 5

[0085] The ingredients listed in Table 5 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0086] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP69 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 80° C. Pectin was added to the aqueous phase very slowly and mixed at a high mixing rate. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. Potassium sorbate and dye were then added to the aqueous phase and mixed thoroughly.

[0087] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and PURE-COTE B793 were mixed together in a separate container to form a film forming mixture.

[0088] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer gel.

[0089] D) The flavorants, glycerine, olive oil, menthol, and surfactants were combined and mixed to dissolve in a separate container to yield an organic phase.

[0090] E) Mannitol and sucralose were mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0091] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

6TABLE 5% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000019.574010.6759106.7593HBrAmberlite IRP6916.000120.879011.3877113.8771Pectin USP0.34990.45660.24902.4905Xanthan Gum0.07690.10030.05470.5470Locust Bean Gum0.09010.11750.06410.6409Carrageenan0.38600.50370.27472.7474PURE-COTE B79320.591926.871114.6559146.5586Potassium sorbate0.07720.10080.05500.5498Purified water——45.4586454.5856Menthol2.57403.35891.832018.3202Peppermint Flavor0.25790.33660.18361.8357Cherry Flavor0.25790.33660.18361.8357(Givudan)Sour Cherry (IFF)2.23502.91651.590715.9070Warm Sensation0.55180.72000.39273.9270(Mane)Artificial Masking0.41400.54020.29462.9463Agent Flavor(Robertet)Succulence (IFF)0.25790.33660.18361.8357FD&C Red #400.00990.01290.00700.0704Polysorbate 80 NF0.45050.58780.32063.2060Atmos 3000.45050.58780.32063.2060Glycerine8.733511.39666.215862.1585Olive Oil3.499344.55862.486324.8634Mannitol USP2.57403.35891.832018.3202Sucralose1.80012.34901.281212.8116Total76.6324100.0000100.00001000.0000*Assuming that all water is evaporated

EXAMPLE 6

[0092] The ingredients listed in Table 6 were combined to provide a consumable film of the present invention in accordance with the procedure example 5 with Amberlite IRP64 being substituted by Amberlite IRP69.

7TABLE 6% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000018.540910.3611103.6107HBrAmberlite IRP6916.000119.777111.0519110.5186Pectin USP0.34990.43250.24172.4170Xanthan Gum0.07690.09500.05310.5309Locust Bean Gum0.09010.11130.06220.6220Carrageenan0.38600.47710.26662.6664PURE-COTE B79320.591925.452914.2236142.2363Potassium sorbate0.07720.09550.05340.5335Purified water——44.1179451.1788Menthol2.57403.18171.778017.7799Peppermint Flavor0.25790.31880.17821.7816Cherry Flavor0.25790.31880.17821.7816(Givudan)Sour Cherry (IFF)2.23502.76261.543815.4379Warm Sensation0.55180.68200.38113.8112(Mane)Artificial Masking0.41400.51170.28592.8594Agent Flavor(Robertet)Succulence (IFF)0.25790.31880.17821.7816FD&C Red #400.00990.01220.00680.0684Polysorbate 80 NF0.45050.55680.31113.1114Atmos 3000.45050.55680.31113.1114Glycerine11.644614.39358.043480.4337Olive Oil4.85195.99733.351433.5140Mannitol USP2.57403.18171.778017.7799Sucralose1.80012.22501.243412.4337Total80.9021100.0000100.00001000.0000Assuming that all water is evaporated

EXAMPLE 7

[0093] The ingredients listed in Table 7 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0094] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Amberlite IRP69 was added to the aqueous phase and stirred for about 4 to 5 hours at about 70° C. to 80° C. Pectin dispersed in glycerine was added very slowly to the aqueous phase and mixed at a high mixing rate. The aqueous phase was allowed to cool to about 50° C. and q.s. with water to replace loss due to evaporation. The dye was then added to the aqueous phase and mixed thoroughly.

[0095] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0096] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer gel.

[0097] D) The flavorants, menthol, and surfactants were combined and mixed to dissolve in a separate container to yield an organic phase.

[0098] E) Mannitol and sucralose were mixed together in the remaining 10% water in a separate container. Succulence was then added to the resulting mixture and dissolved.

[0099] F) The mixtures of steps D) and E) were added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

8TABLE 7% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.55107.708019.2699HBrAmberlite IRP6416.000024.05448.221820.5545Pectin USP0.35000.52620.17990.4496Xanthan Gum0.07690.11560.03950.0988Locust Bean Gum0.09010.13550.04630.1157Carrageenan0.38610.58050.19840.4960Pullulan20.591930.957910.581426.4536Potassium sorbate0.07720.11610.03970.0992Purified water——65.8199164.5498Menthol2.57403.86981.32273.3067Peppermint Flavor0.25790.38770.13250.3313Cherry Flavor0.25790.38770.13250.3313(Givudan)Sour Cherry (IFF)2.23503.36011.14852.8712Warm Sensation0.55180.82960.28350.7089(Mane)Artificial Masking0.41390.62230.21 270.5317Agent Flavor(Robertet)Succulence (IFF)0.25790.38770.13250.3313Carmine0.19000.28560.09760.2441Polysorbate 80 NF0.45040.67710.23140.5786Atsurf 596K0.45040.67710.23140.5786Glycerine1.93052.90230.99202.4800Mannitol USP2.57403.86981.32273.3067Sucralose1.80002.70610.92502.3124Total66.5159100.0000100.0000250.0000*Assuming that all water is evaporated

EXAMPLE 8

[0100] The ingredients listed in Table 8 were combined to provide a consumable film of the present invention in accordance with the procedure described in Example 7.

9TABLE 8% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000022.57727.716938.5846HBrAmberlite IRP6416.000024.08238.231441.1569Pectin USP0.35000.52680.18010.9003Xanthan Gum0.07690.11570.03960.1978Locust Bean Gum0.09010.13560.04640.2318Carrageenan0.38610.58110.19860.9932Pullulan20.591930.993810.593752.9686Carmine0.19000.28600.09770.4887Purified water——65.8199329.0995Menthol2.57403.87421.32426.6211Peppermint Flavor0.25790.38820.13270.6634Cherry Flavor0.25790.38820.13270.6634(Givudan)Sour Cherry (IFF)2.23503.36401.14985.7491Warm Sensation0.55180.83050.28391.4194(Mane)Artificial Masking0.41390.62300.21291.0647AgentFlavor (Robertet)Succulence (IFF)0.25790.38820.13270.6634Polsorbate 80 NF0.45040.67790.23171.1586Atmos 3000.45040.67790.23171.1586Glycerine1.93052.90570.99324.9658Mannitol USP2.57403.87421.32426.6211Sucralose1.80002.70930.92604.6301Total66.4387100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 9

[0101] The ingredients listed in Table 9 were combined to provide a consumable film of the present invention in accordance with the procedure described in Example 7 absent the resin.

10TABLE 9% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan10.990018.34605.503827.5189(Spectrum)Pectin USP0.52500.87640.26291.3146Carmine0.19000.31720.09520.4758Xanthan Gum0.11540.19260.05780.2888Locust Bean Gum0.13520.22560.06770.3384Carrageenan0.57920.96680.29001.4502Pullulan30.887951.562115.468677.3431Purified water——70350.0000Menthol2.57404.29691.28916.4453Peppermint Flavor0.80001.33550.40062.0032Cherry Flavor0.80001.33550.40062.0032(Givudan)Sour Cherry (IFF)2.23503.73101.11935.5964Warm Sensation0.80001.33550.40062.0032(Mane)Artificial Masking0.80001.33550.40062.0032Agent Flavor(Robertet)Succulence (IFF)0.25790.43050.12920.6458Polysorbate 80 NF0.45040.75190.22561.1278Atmos 3000.45040.75190.22561.1278Glycerine2.04003.40541.02165.1082Sucralose2.70004.50721.35226.7608Mannitol USP2.57404.29691.28916.4453Total59.9042100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 10

[0102] The ingredients listed in Table 10 were combined to provide a consumable film of the present invention in accordance with the procedure described in Example 7.

11TABLE 10% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan10.990026.61579.269518.5390(milled)Amberlite IRP692.40005.81232.02434.04486Pectin USP0.26980.65340.22760.4551Carmine0.14640.35460.12350.2470Xanthan Gum0.05940.14390.05010.1002Locust Bean Gum0.06940.16810.05850.1171Carrageenan0.29750.72050.25090.5019Pullulan15.869438.432713.385026.7701Purified water——65.1728130.3456Menthol2.57406.23372.17104.3421Peppermint Flavor0.19870.48120.16760.3352Cherry Flavor0.19870.48120.16760.3352(Givudan)Sour Cherry (IFF)1.72254.17161.45282.9057Warm Sensation0.42521.02980.35860.7173(Mane)Artificial Masking0.31900.77260.26910.5381Agent Flavor(Robertet)Succulence IFF0.19870.48120.16760.3352Polysorbate 80 NF0.34700.84040.29270.5854Atmos 3000.34700.84040.29270.5854Glycerine1.48773.60291.25482.5096Mannitol USP1.98374.80411.67323.3463Sucralose1.38733.35981.17012.3402Total41.2914100.0000100.0000200.0000*Assuming that all water is evaporated

EXAMPLE 11

[0103] The ingredients listed in Table 11 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0104] A) Potassium sorbate and dye were mixed in 80% water.

[0105] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and Pure-Cote B793 were mixed together in a separate container to form a film forming mixture.

[0106] C) The film-forming mixture was slowly added to the mixture of A), followed by overnight mixing at a low mixing rate to form a hydrated polymer gel.

[0107] D) Mannitol and sucralose were mixed together with remaining 20% of water in a separate container, and then added to the hydrated polymer gel and mixed well.

[0108] E) Milled famotidine HCl was added to the hydrated polymer gel and mixed thoroughly.

[0109] F) The flavorants, glycerine, olive oil and surfactants were combined and mixed thoroughly in a separate container.

[0110] G) The resulting mixture of step F) was added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

12TABLE 11% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchFamotidine10.000015.20655.3223106.4453Xanthan Gum0.11540.17540.06141.2278Locust Bean Gum0.13520.20550.07191.4386Carrageenan0.57920.88070.30826.1648Pure-Cote B79330.887946.969516.4393328.7865Potassium sorbate0.11580.17610.06161.2326Purified water——65.00001300.0000Vanilla Mint Flavor2.00003.04131.064521.2891(IFF)Polysorbate 80 NF0.67561.02730.35967.1914Atsurf 596K0.67561.02730.35967.1914Glycerine10.000015.20655.3223106.4453Olive oil4.00006.08262.128942.5781FD&C Blue #10.01600.02430.00850.1703Mannitol USP3.86105.87122.054941.0985Sucralose2.70004.10571.437028.7402Total65.7615100.0000100.00002000.0000*Assuming that all water is evaporated

EXAMPLE 12

[0111] The ingredients listed in Table 12 were combined to provide a consumable film of the present invention in accordance with the procedure described in Example 11 with the PURE-COTE B793 substituted by Tapioca Starch J474.

13TABLE 12% w/w*% w/w*Materialmg/dose*Dry FilmActual Batchg/batchFamotidine10.00009.75034.451226.6184Xanthan Gum0.11540.11250.05130.3070Locust Bean Gum0.13520.13180.06020.3597Carrageenan0.57920.56470.25781.5416Tapioca Starch J47467.687065.997030.1291180.1720Potassium sorbate0.11580.11290.05150.3082Purified water——54.3478324.9998Vanilla Mint Flavor2.00001.95010.89025.237(IFF)Polysorbate 80 NF0.67560.65870.30071.7983Atsurf 596K0.67560.65870.30071.7983Glycerine10.00009.75034.451226.6184Olive oil4.00003.90011.780510.6474FD&C Blue #10.01600.01560.00710.0426Mannitol USP3.86103.76461.718610.2774Sucralose2.70002.63261.20187.1870Total102.5607100.0000100.0000598.0000*Assuming that all water is evaporated

EXAMPLE 13

[0112] The ingredients listed in Table 13 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0113] A) The dye, copper gluconate, acesulfame potassium salt, and aspartame were dissolved in water and mixed for about 30 minutes to yield an aqueous phase.

[0114] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0115] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer emulsion.

[0116] D) The mint flavor, Physcool, thymol, methyl salicylate, eucalyptol and menthol were combined and mixed to dissolve in a separate container to yield an organic phase.

[0117] E) The organic phase was added to the hydrated polymer emulsion and mixed uniformly to yield a final polymer emulsion mixture. The final polymer emulsion mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

14TABLE 13% w/w*% w/wMaterialDry FilmActual Batchg/batchXanthan Gum0.13930.03440.1722Locust Bean Gum0.27860.06890.3444Carrageenan1.39290.34441.7222Pullulan66.916516.547582.7374FD&C Green No. 30.01060.00260.0131Copper gluconate1.44590.35751.7877Acesulfame Potassium1.80830.44722.2359Aspartame5.78751.43127.1558Purified water—75.2714376.3571Mint Flavor10.85002.683013.4152Physcool/Mint Flavor0.36250.08960.4482Thymol0.52950.13090.6546Methyl salicylate0.75750.18730.9367Eucalyptol0.75750.18730.9367Menthol8.96352.216511.0827Total100.0000100.0000500.0000*Assuming that all water is evaporated

EXAMPLE 14

[0118] The ingredients listed in Table 14 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0119] A) Dextromethorphan HBr was mixed and dissolved in 90% water at 75° C. to yield an aqueous phase. Sodium bicarbonate was added and mixed for about 1 hour. Amberlite IRP69 was added to the aqueous phase and stirred for about 2 hours at about 70° C. to 80° C. The resulting mixture was allowed to cool to 50° C. and q.s. with water for losses due to evaporation. The dye was then added to the aqueous phase and mixed thoroughly.

[0120] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were added slowly and rapidly mixed together in a separate container to form a film forming mixture. The mixture was mixed overnight at a low speed. Pectin dispersed in glycerine was added very slowly to the film forming mixture and mixed at a high mixing rate.

[0121] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer gel.

[0122] D) In another container the remaining 10% water was added to dissolve mannitol and sucralose. Succulence was then added and mixed to dissolve. The resulting mixture was added to the hydrated polymer gel.

[0123] E) The flavorants, menthol, and surfactants were combined and mixed to dissolve in a separate container to yield an organic phase.

[0124] F) The mixtures of steps D) and E) were added together and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

15TABLE 14% w/w*% w/wActualMaterialmg/dose*Dry FilmBatchg/batchDextromethorphan15.000027.32199.6903484.5135HBrAmberlite IRP698.000014.57175.1681258.4072Pectin USP0.26980.49140.17438.7148Sodium bicarbonate4.00007.28582.5841129.2036anhydrousCarmine0.14640.26670.09464.7289Xanthan Gum0.05940.10820.03841.91187Locust Bean Gum0.06940.12640.04482.2417Carrageenan0.29750.54190.19229.6095Pullulan15.869028.904710.2517512.5830Purified water——64.53293226.6450Menthol2.57404.68841.662983.1425Peppermint Flavor0.19870.36190.12846.4182Cherry Flavor0.19870.36190.12846.4182(Givudan)Cherry Flavor Blend1.72253.13751.112855.6383(IFF)Warm Sensation0.42520.77450.274713.7343(Mane)Artificial Masking0.31900.58100.206110.3040Agent Flavor(Robertet)Succulence (IFF)0.19870.36190.12846.4182Polysorbate 80 NF0.34700.63200.224211.2084Atmos 3000.34700.63200.224211.2084Glycerine1.48772.71000.961148.0573Mannitol USP1.98373.61321.281564.0753Sucralose1.38732.52690.896244.8110Total54.9011100.0000100.000050000.0000*Assuming that all water is evaporated

EXAMPLE 15

[0125] The ingredients listed in Table 15 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0126] A) Dextromethorphan HBr was mixed and dissolved in water at 50° C. to yield an aqueous phase. Potassium sorbate and the sweeteners were added to the aqueous phase and stirred. Titanium dioxide was then added and the mixture was further stirred.

[0127] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were mixed together in a separate container to form a film forming mixture.

[0128] C) The film forming mixture was slowly added to the aqueous phase of A) while mixing rapidly. The resulting mixture was mixed overnight at a low mixing rate to provide a hydrated polymer gel.

[0129] D) Glycerin and olive oil were mixed in a separate container. Menthol and mono ammonium glycyrrhizinate were added to the glycerin/olive oil mixture and heated to dissolve at 45° C. Physcool, polysorbate 80 and Atmos 300 were then added to the resulting mixture and further mixed to yield an organic phase.

[0130] E) The mixture of step D) was added to the hydrated polymer gel and mixed uniformly to yield a final polymer gel mixture. Cherry flavor was then added to the polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

16TABLE 15% w/w% w/w*ActualMaterialmg/dose*Dry FilmBatchg/batchDextromethorphan Coated25.000027.77788.45150.2770(60% dex)Xanthan Gum0.16250.18050.05490.0018Locust Bean Gum0.18960.21060.06410.0021Carrageenan0.81240.90270.27460.0090Pullulan43.328648.142914.64780.4800Potassium Sorbate0.16250.18050.05490.0018Acesulfame Potassium Salt1.35401.50450.45770.0150Aspartame NF3.79134.21251.28170.0420Purified water——69.57442.2799Physcool0.27080.30090.09150.0030Menthol2.70803.00890.91550.0300Cherry Flavor (Givudan)0.13540.15040.04580.0015Mono ammoniumglycyrrhizinate (MAG)0.02710.03010.00920.0003Polysorbate 80 NF0.94781.05310.32040.0105Atmos 3000.94781.05310.32040.0105Glycerine8.12419.02682.74650.0900Olive Oil1.35401.50450.45770.0150FD&C green #30.00700.00780.00240.0001Titanium Dioxide0.67700.75220.22890.0075Total90.0000100.0000100.00003.2770*Assuming that all water is evaporated

EXAMPLE 16

[0131] The ingredients listed in Table 16 were combined to provide a consumable film of the present invention in accordance with the following procedure:

[0132] A) Dextromethorphan HBr was mixed and dissolved in water at 75° C. to yield an aqueous phase. Amberlite IRP69 was added to the aqueous phase and stirred for about 2 hours at about 70° C. to 80° C. The resulting mixture was allowed to cool to 5° C. and q.s. with water for losses due to evaporation. The sweeteners and potassium sorbate were then added to the aqueous phase and mixed thoroughly.

[0133] B) The film-forming ingredients, xanthan gum, locust bean gum, carrageenan and pullulan were added slowly into a separate container, and rapidly mixed together to form a film forming mixture. The mixture was mixed overnight at a low speed.

[0134] C) The film forming mixture was slowly added to the aqueous phase of A), followed by overnight mixing at a low mixing rate to provide a hydrated polymer gel.

[0135] D) In another container, the alcohol was mixed with menthol. Physcool was then added to the resulting mixture and mixed. Mono ammonium glycyrrhizinate, polysorbate 80, Atmos 300 and flavors were added to the mixture and further mixed to yield uniformity. Glycerine and mannitol were added to the mixture and mixed.

[0136] E) The mixture of step D) was added to the hydrated polymer gel of step C) and mixed uniformly to yield a final polymer gel mixture. The final polymer gel mixture was poured on a mold and cast to form a film of a desired thickness at room temperature. The film was dried under warm air and cut to a desired dimension (dictated by e.g., dosage and mouthfeel).

17TABLE 16% w/w*% w/wMaterialmg/dose*Dry FilmActual Batchg/batchDextromethorphan15.000021.42869.266611.4615HBrAmberlite IRP6916.000022.85719.884312.2256Xanthan Gum0.09440.13480.04850.0600Locust Bean Gum0.11010.15730.05660.070Carrageenan0.47180.67400.24250.3000Pullulan25.161335.944712.935916.0000Potassium Sorbate0.09440.13480.04850.0600Acesulfame Potassium0.78631.12330.40420.5000SaltAspartame NF2.20163.14521.13191.4000Purified water——56.756170.2000Alcohol USP——4.04255.000Physcool0.15730.22470.08080.1000Menthol2.35893.36981.21271.5000Peppermint Flavor0.15730.22470.08080.1000Raspberry Flavor0.78631.12330.40420.5000(Givudan)Mono ammonium0.01570.02250.00810.0100glycyrrhizinate (MAG)Polysorbate 80 NF0.55040.78630.28300.3500Atmos 3000.55040.78630.28300.3500Glycerine2.35893.36981.21271.5000Mannitol USP3.14524.49311.61702.0000Total70.0000100.0000100.0000123.6872*Assuming that all water is evaporated

[0137] The forgoing discussion discloses and describes merely exemplary embodiments of the present invention. One skilled in the art will readily recognize from such discussion, and from the accompanying claims, that various changes, modifications, and variations can be made therein without departing from the spirit and scope of the invention as defined in the following claims.

	Number	Date	Country
Parent	09395104	Sep 1999	US
Child	10423398	Apr 2003	US

Fast dissolving orally consumable films containing a sweetener

Information

Publication Number

Date Filed

Date Published

Inventors

CPC

US Classifications

International Classifications

Abstract

Description

Claims

Provisional Applications (1)

Continuation in Parts (1)