LIQUID PHARMACEUTICAL COMPOSITION COMPRISING CYTISINE

Abstract

The present invention relates to a liquid pharmaceutical composition comprising cytisine, at least one inorganic pH-regulating agent selected from the group consisting of inorganic acids, inorganic buffers, and inorganic acid salts, and water, wherein the liquid pharmaceutical composition has a pH value between 3.0 and 7.5. The present invention furthermore relates to the liquid harmaceutical composition for use in the treatment of tobacco smoking addiction and other forms of nicotine addiction. Additionally, the invention relates to a liquid pharmaceutical composition comprising cytisine for oral use in the treatment of tobacco smoking addiction and other forms of nicotine addiction.

Claims

1. A liquid pharmaceutical composition comprising: cytisine; at least one inorganic pH-regulating agent selected from inorganic acids, inorganic buffers, or inorganic acid salts; and water; wherein the liquid pharmaceutical composition has a pH value between 3.0 and 7.5.

2. The liquid pharmaceutical composition according to claim 1 wherein the at least one inorganic pH-regulating agent is selected from hydrogen phosphate, dihydrogen phosphate, hydrogen phosphate/dihydrogen phosphate buffer, hydrochloric acid, phosphoric acid, or mixtures thereof.

3. The liquid pharmaceutical composition according to claim 2 wherein the at least one inorganic pH-regulating agent is selected from hydrogen phosphate, dihydrogen phosphate, or hydrogen phosphate/dihydrogen phosphate buffer.

4. The liquid pharmaceutical composition according to claim 1 wherein the liquid pharmaceutical composition comprises at least one viscosity agent.

5. The liquid pharmaceutical composition according to claim 4 wherein the liquid pharmaceutical composition comprises at least one viscosity agent in the amount of 0.01-3% wt.

6. The liquid pharmaceutical composition according to claim 5 wherein the viscosity agent is sodium hyaluronate or carboxymethylcellulose sodium.

7. The liquid pharmaceutical composition according to claim 6 wherein the viscosity agent is sodium hyaluronate.

8. The liquid pharmaceutical composition according to claim 1 wherein the liquid pharmaceutical composition comprises at least one co-solvent.

9. The liquid pharmaceutical composition according to claim 8 wherein the liquid pharmaceutical composition comprises at least one co-solvent present in the amount of 5-50% wt.

10. The liquid pharmaceutical composition according to claim 9 wherein the co-solvent is glycerol or propylene glycol, or mixture thereof.

11. The liquid pharmaceutical composition according to claim 1 wherein the liquid pharmaceutical composition comprises a sweetener selected from a sugar, an artificial sweetener, or mixtures thereof.

12. The liquid pharmaceutical composition according to claim 11 wherein the sugar or the artificial sweetener is selected from xylitol, mannitol, maltitol, sucrose, acesulfame K, aspartame, or mixtures thereof.

13. A method for the treatment of addiction comprising administering the liquid pharmaceutical composition according to claim 1 12 1 to a patient in need thereof.

14. The method of claim 13, wherein the liquid pharmaceutical composition is administered into the oral cavity of a subject by mist or aerosol.

15. A method of treating addiction comprising orally administering an aqueous pharmaceutical composition comprising cytisine to a patient in need thereof.

16. The method of claim 13, wherein the addiction is nicotine addiction.

17. The method of claim 16, wherein the nicotine addiction is tobacco smoking addiction.

18. The method of claim 15, wherein the addiction is nicotine addiction.

19. The method of claim 18, wherein the nicotine addiction is tobacco smoking addiction.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0023] As mentioned above, not only does the liquid pharmaceutical composition of the invention provide a stable composition comprising cytisine, but also the resulting composition has an acceptable taste.

[0024] The present invention relates to a liquid pharmaceutical composition comprising: [0025] cytisine [0026] at least one inorganic pH-regulating agent selected from the group consisting of inorganic acids, inorganic buffers, and inorganic acid salts, [0027] water,

[0028] wherein the liquid pharmaceutical composition has a pH value between 3.0 and 7.5. Preferably, however, the pH value is between 5.0 and 7.0, most preferably, the pH value is between 5.4and 7.0.

[0029] The present inventors have found that the stability of cytisine in liquid compositions depends strongly on the pH value of its solution and on the type of the pH-regulating agent used. Surprisingly, it was found that the liquid pharmaceutical composition of the invention is stable when the liquid pharmaceutical composition has a pH value between 3.0 and 7.5, and when an inorganic pH-regulating agent was used. Furthermore, it turned out that with pH values below 3.0.the taste of the composition was unacceptable. Preferably, however, the liquid pharmaceutical composition has a pH value between 5.0 and 7.0.

[0030] Cytisine is usually present in the amount of 0.1-10% wt. Cytisine can be obtained from commercial sources such as Shaanxi The River Pharmaceutical Co., Ltd.

[0031] The at least one inorganic pH-regulating agent is used to maintain an approximately constant pH value of the liquid pharmaceutical composition of the invention over time. Preferably, at least one inorganic pH-regulating agent should be present in the amount of 0.5-10% wt.

[0032] The at least one inorganic pH-regulating agent is selected from the group consisting of inorganic acids, inorganic buffers, and inorganic acid salts. Of course, the inorganic pH-regulating agent is pharmaceutically acceptable, which means that it is non-toxic and can be used in pharmaceutical compositions.

[0033] Cytisine has a strong basic nature, therefore it can be used with an inorganic acid and an inorganic acid salt to provide a buffering system itself. Alternatively, cytisine can be used with an inorganic buffer.

[0034] In the present invention, the inorganic acids are typical mineral, pharmaceutically acceptable acids. Preferably, the inorganic acid is selected from hydrochloric acid, hydrobromic acid, sulfuric acid, or phosphoric acid.

[0035] In the present invention, the inorganic buffers are one of the following pairs: acid/hydrogen salt of an acid, hydrogen salt/dihydrogen salt, acid/dihydrogen salt of an acid. Preferably, the inorganic buffer is selected from phosphoric acid/dihydrogen phosphate, dihydrogen phosphate/hydrogen phosphate, or phosphoric acid/phosphate. Examples of such buffers are Na.sub.2HPO.sub.4/NaH.sub.2PO.sub.4, H.sub.3PO.sub.4/Na.sub.2HPO.sub.4, H.sub.3PO.sub.4/NaH.sub.2PO.sub.4. The most preferable buffer is Na.sub.2HPO.sub.4/NaH.sub.2PO.sub.4, or its potassium equivalent such as K.sub.2HPO.sub.4/NaH.sub.2PO.sub.4, or Na.sub.2HPO.sub.4/KH.sub.2PO.sub.4, K.sub.2HPO.sub.4/KH.sub.2PO.sub.4.

[0036] In the present invention, inorganic acid salt is a salt obtained by a partial neutralisation of inorganic diprotic or polyprotic acids. Preferably, the inorganic diprotic or polyprotic acids are sulfuric acid and phosphoric acid. More preferably, the inorganic acid salt is selected from potassium dihydrogen phosphate, dipotassium hydrogen phosphate, sodium dihydrogen phosphate, sodium hydrogen phosphate, and sodium hydrogen sulfate.

[0037] Of course, the at least one inorganic pH-regulating agent is selected and used in such an amount as to assure the desirable pH value of the liquid pharmaceutical composition of the invention. The pH value of the liquid pharmaceutical composition can be measured using a potentiometric pH meter apparatus. A more detailed method for pH value measurement is provided in the Examples.

[0038] Preferably, the liquid pharmaceutical composition of the invention does not comprise any organic salts, buffers, or acids as pH-regulating agents. Preferably, the liquid pharmaceutical composition does not comprise citric acid, or a salt thereof, succinic acid, or a salt thereof, tartaric acid, or a salt thereof, acetic acid, or a salt thereof, as a pH-regulating agent.

[0039] The liquid pharmaceutical composition of the invention, as specified above, exhibits high stability, for example, under accelerated conditions (40° C./75% RH), and/or under normal conditions (25° C./65% RH). Preferably, the liquid pharmaceutical composition of the invention, as specified above, exhibits high stability under normal conditions. Preferably, the liquid pharmaceutical composition of the invention exhibits high stability under accelerated conditions.

[0040] The liquid pharmaceutical composition of the invention can also contain customary additives that can be used in a pharmaceutical composition suitable for oral administration.

[0041] Preferably, the liquid pharmaceutical composition comprises at least one viscosity agent. The viscosity agent provides the liquid pharmaceutical composition with a desired viscosity on the one hand, and on the other hand, it provides an additional moisturising effect to the oral cavity, when it is orally administered as a mist, a spray or an aerosol.

[0042] In general, at least one viscosity agent is present in the amount of 0.01-5% wt.

[0043] The at least one viscosity agent can be selected from agar, chitosan, carrageenan, tragacanth, xanthan gum, guar gum, alginic acid, propylene glycol alginate, sodium alginate, carboxymethylcellulose calcium, carboxymethylcellulose sodium, colloidal silicon dioxide, ethylcellulose, hydroxyethyl cellulose, hydroxyethylmethyl cellulose, hydroxypropyl cellulose, hypromellose, methylcellulose, gelatin, glycerine, polyvinyl alcohol, povidone, starch, hydroxypropyl. Preferably, however, it is selected from sodium hyaluronate or carboxymethylcellulose sodium.

[0044] Surprisingly, it turned out that remarkably good results were achieved with sodium hyaluronate. It showed not only very good moisturising effect in the oral cavity, but also further improved the stability.

[0045] Furthermore, the liquid pharmaceutical composition can comprise at least one co-solvent. The at least one co-solvent is contained to aid dissolution of additives and/or to modify taste of the liquid pharmaceutical composition (e.g. in order to provide a sweet taste). The presence of a co-solvent is not mandatory; however, it is preferable. When no co-solvent is added, at least one solubiliser can be added to aid dissolution of further additives as specified below. Such solubilisers can be selected from Poloxamers and Tweens, preferably from Poloxamer 407and Tween 80.

[0046] In general, the at least one co-solvent is present in the amount of 5-50% wt.

[0047] The at least one co-solvent can be selected from propylene glycol, polyethylene glycol, glycerine, and ethanol. Preferably, it is selected from propylene glycol or glycerine, or a mixture thereof.

[0048] To improve organoleptic properties and mask the taste of the liquid pharmaceutical composition according to the invention, at least one sweetener and/or at least one flavour can be added.

[0049] The liquid pharmaceutical composition preferably comprises a sweetener.

[0050] The sweetener is selected from a sugar, an artificial sweetener, and mixtures thereof. Furthermore, is can be selected from erythritol, fructose, dextrose, saccharin, sorbitol, xylitol, mannitol, maltose, maltitol, maltitol solution, liquid glucose, inulin, isomalt, saccharin sodium, sodium cyclamate, sucralose, sucrose, acesulfame potassium, or aspartame. Preferably, the sweetener is selected from xylitol, mannitol, acesulfame K, aspartame, erythritol, maltitol, or sucrose. Moreover, at least one flavour can be selected from the group comprising mint flavour, tropical flavour, banana flavour, cherry flavour or orange flavour.

[0051] To prevent decomposition by microbial growth, a preservative can be added.

[0052] The preservative can be selected from benzalkonium chloride, benzalkonium chloride solution, benzethonium chloride, benzoic acid, benzyl alcohol, butylparaben, methylparaben, methylparaben sodium, ethylparaben, propylparaben, propylparaben sodium, cetrimonium bromide, cetylpyridinium chloride, chlorobutanol, chlorocresol, cresol, phenol, potassium benzoate, sodium benzoate, potassium sorbate, sorbic acid, sodium dehydroacetate, sodium propionate or thimerosal.

[0053] Preferably, the preservative is selected from methylparaben, propylparaben, and sodium benzoate.

[0054] The liquid pharmaceutical composition of the invention can be simply obtained by dissolving cytisine in water and at least one pH-regulating agent to yield first solution, adding further additives, and completing with water to final volume.

[0055] Alternatively, when, for example, a co-solvent is used, the liquid pharmaceutical composition of the invention can be simply obtained by dissolving cytisine in the at least one co-solvent, and adding water and at least one pH-regulating agent to yield first solution, followed by adding further additives, and completing with water to final volume.

[0056] Alternatively, when, for example, at least one co-solvent, viscosity agent, preservative, sweetener, and flavour are used, the liquid pharmaceutical composition of the invention can be simply obtained by dissolving all additives in water, followed by dissolving cytisine in such a premix, and completing with water to final volume.

[0057] The liquid pharmaceutical composition thus obtained is used as a mouth spray, aerosol or mist for application of the solution directly to the oral cavity and its mucosal lining.

[0058] The liquid pharmaceutical composition of the present invention thus obtained can be transferred to a bottle equipped with an atomiser adjusted to dosing 1.5 mg of cytisine. One dose can be simply administered into the oral cavity of a person in the treatment of tobacco smoking addiction and other forms of nicotine addiction, according to the established dosing regimen, as disclosed, for example, in the Recigar® tablet leaflet.

[0059] The present invention provides in general a liquid pharmaceutical composition comprising cytisine for oral use in the treatment of tobacco smoking addiction and other forms of nicotine addiction. Such a liquid pharmaceutical composition comprising cytisine for oral use is very beneficial from the point of view of a patient. It can be administered without the need of taking a dose of cytisine (in the form of a tablet or capsule) with a sufficient amount of liquids (water, juice). Furthermore, in a preferable embodiment such as a liquid pharmaceutical composition comprising cytisine also contains a viscosity agent, as defined above. In this embodiment, the viscosity agent provides a moisturising effect in the oral cavity. In the most preferable embodiment, the viscosity agent is hyaluronate such as sodium hyaluronate. This is very important, as a very common side effect is dry mouth, which also enhances unpleasant feeling of lack of freshness in the oral cavity. To make the administration process easy, in general, a liquid aqueous pharmaceutical composition comprising cytisine for oral use is preferably administered as an aerosol, spray or mist using a suitable device such as an atomiser (for example, one manufactured by Aeropump).

EXAMPLES

[0060] The present invention is illustrated by the following examples of preparation.

[0061] Method for measuring the pH

[0062] The pH is measured according to the European Pharmacopoeia 2.2.3 at room temperature (20-25° C.) and atmospheric pressure using a potentiometric pH meter apparatus (such as 913.pH Meter Lab, LL-Unitrode easy Clean 1m) calibrated using pH 2.00, 4.01and 7.00.buffer solutions.

Example 1

Preparation of exemplary compositions

[0063] Composition 1. Preparation of liquid formulation of cytisine at pH 6.0

[0064] The quantitative composition of this formulation is disclosed in the table below. Cytisine was dissolved in water together with NaH.sub.2PO.sub.4 dihydrate and Na.sub.2HPO.sub.4 anhydrous to create the first solution. Further, the remaining components xylitol, sodium hyaluronate, mint flavour, paraben M, glycerol anhydrous, paraben M and propylene glycol were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

[0065] The final pharmaceutical composition is transferred into a HDPE bottle equipped with an atomiser (for example, as manufactured by Aeropump).

TABLE-US-00001 Component Amount Cytisine 0.75% Xylitol 10.00% Sodium hyaluronate 0.04% Mint flavour 0.075% NaH.sub.2PO.sub.4 dihydrate 3.00% Na.sub.2HPO.sub.4 anhydrous 0.30% Paraben M 0.20% Glycerol anhydrous 21.00% Propylene glycol 21.00% Water ad 100%

[0066] Composition 2. Preparation of liquid formulation of cytisine at pH 7.0

[0067] The identical procedure as in Composition 1.was used but the ratios of the ingredients were changed accordingly. NaH.sub.2PO.sub.4 dihydrate was substituted with NaH.sub.2PO.sub.4 monohydrate and xylitol was substituted with mannitol.

TABLE-US-00002 Component Amount Cytisine 1.50% Mannitol 5.00% Sodium hyaluronate 0.10% Tropical flavour 0.075% NaH.sub.2PO.sub.4 monohydrate 2.00% Na.sub.2HPO.sub.4 anhydrous 0.30% Paraben M 0.10% Glycerol anhydrous 11.00% Propylene glycol 11.00% Water ad 100%

[0068] Composition 3. Preparation of liquid formulation of cytisine at pH 6.8

[0069] Cytisine was dissolved in water together with NaH.sub.2PO.sub.4.to create the first solution. Further, xylitol, sodium carboxymethylcellulose, glycerol anhydrous and propylene glycol were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00003 Component Amount Cytisine 3.00% Xylitol 5.00% Sodium carboxymethylcellulose 0.50% NaH.sub.2PO.sub.4 dihydrate 4.00% Glycerol 85% wt. 11.00% Propylene glycol 25.00% Water ad 100%

[0070] Composition 4. Preparation of liquid formulation of cytisine at pH 5.9

[0071] Cytisine was dissolved in water together with potassium phosphate monobasic, sodium chloride and methylcellulose to create the first solution. Further, tween 80, glycerol anhydrous and paraben P were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00004 Component Amount Cytisine 1.00% Potassium phosphate monobasic 4.00% Methylcellulose 1.0% Glycerol anhydrous 11.00% Tween 80 0.05% Sodium chloride 0.5% Paraben P 0.05% Water ad 100%

[0072] Composition 5. Preparation of liquid formulation of cytisine at pH 3

[0073] Cytisine was dissolved in water together with xylitol, sodium hyaluronate and sodium benzoate to create the first solution. Further, banana flavour and glycerol anhydrous were added. The solution was stirred until complete dissolution. Then hydrochloric acid was added to obtain pH 3.0. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00005 Component Amount Cytisine 0.50% Xylitol 15.00% Sodium hyaluronate 0.10% Banana flavour 0.10% Sodium benzoate 0.10% Glycerol anhydrous 11.00% Hydrochloric acid q.s. to obtain pH 3.0 Water ad 100%

[0074] Composition 6. Preparation of liquid formulation of cytisine at pH 4.5

[0075] Cytisine was dissolved in water together with xylitol, sodium hyaluronate and sodium benzoate to create the first solution. Further, banana flavour and glycerol anhydrous were added. The solution was stirred until complete dissolution. Then diluted phosphoric acid was added to obtain pH 4.5. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00006 Component Amount Cytisine 0.50% Xylitol 15.00% Sodium hyaluronate 0.50% Banana flavour 0.10% Sodium benzoate 0.10% Glycerol anhydrous 11.00% Phosphoric acid diluted q.s. to obtain pH 4.5 Water ad 100%

[0076] Composition 7. Preparation of liquid formulation of cytisine at pH 7.5

[0077] Cytisine was dissolved in water together with xylitol, sodium hyaluronate and NaH.sub.2PO.sub.4. dihydrate to create the first solution. Further, mint flavour, propylene glycol with paraben M and glycerol anhydrous were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00007 Component Amount Cytisine 0.70% Xylitol 7.00% Sodium hyaluronate 0.05% Mint flavour 0.10% NaH.sub.2PO.sub.4 dihydrate 0.55% Glycerol anhydrous 20.00% Propylene glycol 20.00% Paraben P 0.06% Water ad 100%

[0078] Composition 8. Preparation of liquid formulation of cytisine at pH 6.9

[0079] Cytisine was dissolved in water together with acesulfame K, phosphoric acid and NaH.sub.2PO.sub.4 dihydrate to create the first solution. Further, propylene glycol with paraben M, glycerol anhydrous and mint flavour were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00008 Component Amount Cytisine 1.00% Acesulfame K 0.10% Mint flavour 0.05% NaH.sub.2PO.sub.4 dihydrate 1.00% Phosphoric acid 0.10% Glycerol anhydrous 11.00% Propylene glycol 11.00% Paraben M 0.10% Water ad 100%

[0080] Composition 9. Preparation of liquid formulation of cytisine at pH 6.9

[0081] Cyti sine was dissolved in water together with aspartam, NaH.sub.2PO.sub.4 dihydrate and hydroxypropylmethylcellulose to create the first solution. Further, orange flavour and propylene glycol were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00009 Component Amount Cytisine 0.30% Aspartam 0.20% Hydroxypropylmethylcellulose 0.50% Orange flavour 0.05% NaH.sub.2PO.sub.4 dihydrate 3.00% Propylene glycol 15.00% Water ad 100%

[0082] Composition 10. Preparation of liquid formulation of cytisine at pH 5.9

[0083] Propylene glycol and paraben M was dissolved in some water together with erythritol, hydroxyethylcellulose and NaH.sub.2PO.sub.4 dihydrate to create the first solution. Further, cytisine and cherry flavour were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00010 Component Amount Cytisine 0.50% Erythritol 1.00% Hydroxyethylcellulose 0.50% Cherry flavour 0.05% NaH.sub.2PO.sub.4 dihydrate 3.00% Paraben M 0.10% Glycol propylene 5.00% Water ad 100%

[0084] Composition 11. Preparation of liquid formulation of cytisine at pH 5.0

[0085] Cytisine was dissolved in water together with maltitol liquid, NaH.sub.2PO.sub.4 dihydrate and carboxymethylcellulose sodium to create the first solution Further, cherry flavour, propylene glycol with paraben M and P were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00011 Component Amount Cytisine 0.50% Maltitol liquid 10.00% Carboxymethylcellulose sodium 0.20% Cherry flavour 0.05% NaH.sub.2PO.sub.4 dihydrate 9.00% Paraben M 0.10% Paraben P 0.05% Propylene glycol 10.00% Water ad 100%

[0086] Composition 12. Preparation of liquid formulation of cytisine at pH 5.4

[0087] Tween 80 and paraben P were dissolved in some water together with sucrose, poloxamer and NaH.sub.2PO.sub.4 dihydrate to create the first solution. Further, cytisine was added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00012 Component Amount Cytisine 0.50% Sucrose 5.00% Poloxamer 407 0.50% NaH.sub.2PO.sub.4 dihydrate 6.00% Paraben P 0.05% Tween 80 0.05% Water ad 100%

[0088] Composition 13. Preparation of liquid formulation of cytisine at pH 6.1

[0089] Propylene glycol and paraben M was dissolved in some water together with xylitol with sodium hyaluronate and NaH.sub.2PO.sub.4 dihydrate to create the first solution. Further, cytisine, glycerol anhydrous and mint flavour were added. The solution was stirred until complete dissolution. Finally, water was added to the resulting mixture to the desired volume.

TABLE-US-00013 Component Amount Cytisine 0.700% Xylitol 7.00% Sodium hyaluronate 0.10% Mint flavour 0.15% NaH.sub.2PO.sub.4 dihydrate 3.00% Paraben M 0.10% Glycerol anhydrous 21.00% Propylene glycol 15.00% Water ad 100% pH = 6.1

Example 2

[0090] Stability of the liquid pharmaceutical composition of the invention

[0091] The liquid pharmaceutical compositions of the invention were stored in a climatic chamber at 40° C./75% Relative Humidity (RH) (accelerated conditions) and 25° C./65% RH (normal conditions), and if necessary at 60° C./75% RH, and 30° C./65% RH , for a specified time. Samples taken at the end of the storage, or at an intermediate time point, were subjected to HPLC analysis to determine known impurities (FO—N-formylcytisine, MO—N-methylcytisine) and unknown impurities. All pharmaceutical compositions of the invention tested were stable and fulfilled the specification for pharmaceutical drug products with cytisine (FO impurity <0.5%, ME impurity <0.5%, max. single unknown impurity <0.2%, total impurities <1.0%).

[0092] A stability comparison of the liquid composition from Example 13.with the representative liquid formulation from publication of Russian patent RU2593585.(example 2) is presented in the Table below.

TABLE-US-00014 Composition 13 RU2593585 (example 2)* Ingredient Amount [%] Ingredient Amount [mg] Cytisine 0.70 Cytisine 10.0 Xylitol 7.00 NaH.sub.2PO.sub.4 dihydrate 250.0 Sodium 0.10 Na.sub.2HPO.sub.4 anhydrous 200.0 hyaluronate Mint flavour 0.15 Paraben M 300.0 NaH.sub.2PO.sub.4 3.00 Paraben P 7.0 dihydrate Paraben M 0.10 EDTA 10.0 Glycerol 21.00 Citric acid 10.0 anhydrous Propylene glycol 15.00 Sodium chloride 8400.0 — — Polysorbate 500.0 Water ad 100% Water Add to obtain 1 litre of solution pH 6.1 pH 7.7 Stability results 40° C./75% RH, 1 month FO <0.03% FO <0.03% ME <0.03% ME <0.03% Total impurities** 0.077% Total impurities** 0.16% 60° C./75% RH, 1 week FO 0.045% FO <0.03% ME 0.041% ME <0.03% Total impurities** 0.15% Total impurities** 0.22% 30° C./65% RH, 1 month FO <0.03% FO <0.03% ME <0.03% ME <0.03% Total impurities** 0.04% Total impurities** 0.11% *Example 2 from RU2593585 was prepared in analogy to Composition 4 **Total impurities include known impurities, FO, ME, as well as all unknown impurities

[0093] As can be seen, the chemical stability profile of the compositions of the invention is significantly better than the representative example 2.from Russian application RU2593585. irrespective of storage conditions. The other two examples from RU2593585.(example 1and example 3.having pH values 9.0 and 9.3, respectively) exhibited much higher pH values, and turned out to have a lower stability (data not shown).

[0094] All formulations tested had better stability than example 2.from RU2593585.

Example 3

[0095] Comparison of stability of the liquid pharmaceutical composition of the invention with and without hyaluronate.

[0096] Two additional pharmaceutical compositions (Composition 14and Composition 15) were prepared, analogously to Composition 1.

TABLE-US-00015 Ingredient Composition 14 Composition 15 Cytisine 0.73% 0.73% Xylitol 10.00% 10.00% Sodium hyaluronate 0.04% — Mint flavour 0.075% 0.075% NaH.sub.2PO.sub.4 dihydrate 4.00% 4.00% Na.sub.2HPO.sub.4 anhydrous 0.30% 0.30% Paraben M 0.20% 0.20% Glycerol anhydrous 21.00% 21.00% Propylene glycol 21.00% 21.00% Water Ad 100.00% Ad 100.00% pH = 6.1 pH = 6.1 25° C./ 60% RH, 6 months FO <0.03% <0.03% ME <0.03% <0.03% Total impurities 0.065% 0.122% 40° C./75% RH, 3 months FO 0.064% 0.072% ME <0.03% <0.03% Total impurities 0.33% 0.42%

[0097] As can be seen, the chemical stability profile of the composition with Sodium hyaluronate (Composition 14) is better than the composition without Sodium hyaluronate (Composition 15) irrespective of storage conditions. Both formulations fulfil, however, the specification criteria, but the use of Sodium hyaluronate is particularly preferable in the composition as it improves chemical stability of the drug product, and additionally increases the moisturising effect in the oral cavity.

Example 4

[0098] Comparison of stability of the liquid pharmaceutical composition of the invention and two comparative compositions comprising organic buffer and organic-inorganic buffer.

[0099] A composition of the invention (Composition 16) and two comparative compositions (Comparative composition 1, Comparative composition 2) were prepared by simple mixing the given amounts of ingredients as presented in the table below. The compositions thus obtained were kept at 60° C. for one week. Chemical purity results are also given below.

TABLE-US-00016 Comparative Comparative Composition 16 composition 1 composition 2 Cytisine 0.2 g 0.2 g 0.2 g pH-regulating NaH.sub.2PO.sub.4 sodium citrate sodium succinate agent dihydrate dihydrate 2.6 g 1.2 g 0.8 g pH-regulating Na.sub.2HPO.sub.4 NaH.sub.2PO.sub.4 succinic acid agent 0.4 g dihydrate 0.2 g 0.8 g Water 20 ml 20 ml 20 ml pH 6.0 6.0 6.0 60° C., 1 week FO — <0.03% — ME — — — Total impurities 0.08% 1.08% 0.29%

[0100] The cited results show that the buffer based on inorganic pH-regulating agents provided the best stability when heated at 60° C. for one week.

[0101] Similarly, two further comparative liquid pharmaceutical compositions (Comparative composition 3and Comparative composition 4) at pH 4,5.comprising customary additives were prepared. Their stability were also found to be lower than the stability for Composition 6. according to the invention. For example, in the case of Comparative Composition 4.containing a citrate buffer, after keeping at 60° C., 75% RH, the total impurities reached more than 7 wt. % after 1 month.

TABLE-US-00017 Comparative composition 3 Comparative composition 4 Cytisine 1.00% Cytisine 0.150% Xylitol 10.00% Xylitol 10.00% Sodium hyaluronate 0.10% Sodium 0.50% carboxymeth- ylcellulose Tartaric acid 1.20% Citric acid hydrate 2.00% Sodium dihydrogen 2.00% Sodium citrate 1.25% phosphate dihydrate Menthol flavour 0.25% Menthol flavour 0.15% liquid liquid Paraben M 0.30% Paraben M 0.30% Propylene glycol 21.00% Propylene glycol 21.00% — — Glycerol 21.00% Water Ad 100% Water Ad 100% pH 4.5 pH 4.5

LIQUID PHARMACEUTICAL COMPOSITION COMPRISING CYTISINE

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Abstract

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Description