RU2377989C2 - Trimetazidine preparation as matrix tablet of prolonged action and method for making thereof - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine and chemical-pharmaceutical industry. Trimetazidine preparation as a matrix tablet of prolonged action contains an active substance, montanic glycolic wax, polymer of methacrylic acid, hydrophilic polymer representing hydroxypropyl methylcellulose, microcrystalline cellulose, mannitol and adjuvants, in amounts specified in the patent claim. There is also disclosed method for making Trimetazidine preparation as a matrix tablet.

EFFECT: invention provides controlled prolonged release of Trimetazidine that leads to stable concentration level of the active substance.

10 cl, 2 tbl, 4 ex

Description

The invention relates to medicine and the pharmaceutical industry, in particular to the creation, production and use of a cardiovascular drug, trimetazidine, in the form of tablets with controlled release of a medicinal substance for a long time, which, taking into account the kinetics of biotransformation, provides a stable concentration level active substance.

Trimetazidine dihydrochloride has the formula:

This is a white microcrystalline powder, well soluble in water up to 80% and that is why it is quickly absorbed by the body and supports energy metabolism in cells, increases the level of adenosine triphosphate, protecting cells from hypoxia. Trimetazidine dihydrochloride is used for the prevention of angina pectoris, for the treatment of ischemia, dizziness of vascular origin.

Patent FR 2 490 963 shows that a daily dose of 60 mg trimetazidine should be divided into three times a day. However, this does not achieve uniform release of trimetazidine during the day, especially before morning use, and at this time critical moments of cardiac activity most often occur.

Therefore, it is relevant to create a drug with prolonged release of the active substance.

From patent EP 1 108 424 A1 from 12/15/2000, a method for producing a matrix tablet for the prolonged release of trimetazidine after oral administration is known. Controlled release prolongation is achieved by the use of cellulose derivatives. This patent is protected in Ukraine under No. 200275914. According to this patent, a polymer that provides controlled release of trimetazidine is used in a dose of 25 to 50% of the total weight of the tablet. Hydroxypropyl methylcellulose (HPMC), which have a viscosity of 100 cP to 100,000 cP, can be used as the polymer. The advantage is provided with a viscosity of 4000 cP. The process of manufacturing a matrix tablet, characterized in that:

- wet granulation is performed by mixing trimetazidine, polyvinylpyrrolidone and diluent, followed by wetting the resulting mixture;

- the granulate obtained in this way is mixed with a cellulose derivative;

- then add a lubricating agent and an agent that increases the fluidity;

- then the resulting mixture is pressed.

This patent does not show the release of 60 mg of trimetazidine within 12 hours. Thus, the disadvantage of this invention is that it is impossible to create tablets with a single composition of excipients that would provide a one-time use of this drug. A significant drawback of this composition is that it uses as an excipient an insoluble filler - calcium dihydrogen phosphate - instead of mannitol, which is used in the known instant form of trimetazidine.

Mannitol in this composition is not an inert substance, and due to the formation of high osmotic pressure when dissolved, it contributes to the action of the drug substance.

In addition, the used gel-forming polymers create a gel matrix in which the prolongation of release depends on the viscosity of the gel formed and its strength. In the practical use of such a pill, these indicators will depend on the time of use, food, and its composition. Solid matrices that withstand mechanical loads without being deformed are more independent from food and intestinal tract motility, and the active substance and some soluble components gradually dissolve and, due to diffusion through the pores of the tablets, are released from the dosage form or by gradual erosion of the tablet surface.

In such matrix tablets, the rate of release depends on the nature of the pores of the matrix and the conditions of its formation. One of the conditions for achieving the necessary release is to reduce the solubility of the active substance.

Patent EP 1 195 160 A Gidwani, Suresh Kumar and other firms of USV Ltd. the use of a hydrocolloid material, for example, cellulose derivatives, alginates, carbomers, guar or xanthan gums, a hydrophobic polymer, for example, fatty acids, alcohols, esters, some waxes, or a combination of a hydrophobic polymer with a hydrophilic material, granulation of trimetazidine dihydrochloride with a mixture, for example, stearic acid with glyceryl palmitates, shellac, polyvinyl chloride, polyethylene powders, varnishes and others to create a prolonged release of trimetazidine. Using methods of wet granulation or granulation by melting, followed by extrusion and sieving, tablets that contain 60 mg of trimetazidine can be obtained. This method makes it possible to obtain the release of trimetazidine in vitro. The release program is adjusted in 1 hour at pH 1.2 30-34%, and then in phosphate buffer pH 6.8 in 2 hours 42-48%, in 3 hours 52-58%, in 4 hours 62-68%, in 5 hours 72- 78%, for 6 hours 78-82%, for 7 hours 82-86%, for 8 hours 85-88%, for 9 hours 87-92%, for 10 hours 91-94%, for 11 hours 93-96% , in 12 hours 95-99%.

This patent provides several methods for producing tablets:

a) granulation of trimetazidine dihydrochloride with filler, hydrocolloid materials and other excipients by melting or extrusion methods, drying, calibration, mixing with other excipients that are fed into the intergranulation phase, tableting and polymer coating;

b) granulation of trimetazidine dihydrochloride with filler, hydrophobic materials and other excipients by melting or extrusion methods, drying, calibration, mixing with other excipients that are fed into the intergranulation phase, tableting and polymer coating;

c) granulation of trimetazidine dihydrochloride with a filler, a part of the hydrophobic material and other excipients by wet granulation or melting, granulation of the second part of the hydrophobic material is possible by the same methods, extrusion, drying, calibration, mixing with other excipients that are fed into the intergranulation phase, tableting and polymer coating.

According to this patent, for wet granulation it is required to use organic solvents, for which special technological equipment is needed, which domestic pharmaceutical enterprises are not equipped with and which are very few at foreign enterprises.

This also applies to the granulation method by fusion and extrusion. From the materials of this patent, the possibility of its use for the manufacture of a dosage form with various exemption programs for use two or once a day is not known.

The closest prototype of the claimed drug is a matrix tablet with controlled release of trimetazidine, which includes a polymer of methacrylic acid, montan glycol wax and excipients in the following ratio, wt.%:

trimetazidine 15-30 methacrylic acid polymer 20-31 montan glycol wax 20-31 Excipients up to 100

[UA No. 12297 U, A61K 31/495, 2005].

The method of obtaining these matrix tablets, which is closest to the claimed method, is carried out by wet granulation. To do this, a methacrylic acid polymer, for example, RS PO eudragit, is dissolved in an organic solvent and moistened with this solution is a mixture of trimetazidine, filler (mannitol, lactose, hydrogen calcium), montan glycol wax, baking powder (microcrystalline cellulose). The wet mixture is granulated, dried, dusted with magnesium stearate, pressed and the tablets coated with a solution of Opadry in water.

To obtain these tablets, you must have equipment that is used to work with organic solvents (ethyl alcohol or isopropyl alcohol). Such equipment exists, but is rarely used in industry because of its high cost, providing special production conditions, and minimizing environmental impact.

The basis of the invention is the task of creating a drug trimetazidine in the form of a matrix tablet with a prolonged action by selecting the composition of the components and their quantity to ensure its lower mass and depending on the dose of trimetazidine 80% release of the active substance for at least 8 hours to obtain the drug in the manufacture of it without the use of alcohol on conventional modern equipment for the pharmaceutical production of solid dosage forms.

The second task, which is the basis of the invention, is to create by selecting the modes and components of a method for producing the specified medicinal product, which would have lower costs in the manufacture of an industrial batch of tablets and would allow to use the usual modern equipment for the pharmaceutical production of solid dosage forms.

The problem is also solved in that the drug trimetazidine in the form of a matrix tablet with a prolonged action, which includes the active substance, montan glycol wax, methacrylic acid polymer, mannitol, excipients, according to the invention additionally contains microcrystalline cellulose, hydrophilic polymer, which is hydroxypropyl cellulose, in the following ratio of components,% wt .:

trimetazidine 17.5-25 montan glycol wax 20-31 methacrylic acid polymer 15-27 hydroxypropyl cellulose 3-10 microcrystalline cellulose 12-14 mannitol 2,5-10 Excipients up to 100

Eudragits NE 30D or RS 30D, or mixtures thereof, can be used as the methacrylic acid polymer.

As excipients, glidants can be used. As glidants, magnesium stearate or calcium stearate are used.

The amount of glidants is 0.8-1% of the total weight of the tablet core.

The second task is solved in that in the method for producing a drug of trimetazidine in the form of a sustained release matrix tablet, characterized in any one of claims 1 to 5, according to the invention, trimetazidine is loaded into a high-speed granulator mixer together with microcrystalline cellulose, mannitol and wax montan, mix the ingredients at an impeller speed of 100-200 rpm, a boiler wall temperature of 34-40 ° C and a vacuum of 900 mbar, moisten with a 12.5% dispersion of eudragit at an impeller speed of 100-200 rpm in and vacuum 900 mbar in parts 6-8 times, between the moistening cycles give time to dry the mass, the moistened mass is dried at a wall temperature of the mixer 35-40 ° C, the dried granulate with a moisture content of 1.2-1.6% is transferred to the calibration stage with a mesh hole size of 0.8-1.2 mm, then mixed with hydroxypropylmethyl cellulose for 10-20 minutes, the resulting mass was dusted with magnesium stearate and tabletted.

A mixture of Methocel K4 M hydroxypropyl methylcellulose and Methocel K100 LV CR Premium hydroxypropyl methylcellulose can also be loaded into the granulator mixer.

Methocel K4 M hydroxypropyl methylcellulose may additionally be charged into a granulator mixer.

The resulting core tablets were coated with an Opadry II film.

The amount of Opadry II film is 3-5% by weight of the tablet core.

The technical result, which is obtained thanks to the proposed solution, is that without the use of an organic solvent, the kinetics of the release of trimetazidine with a two-time consumption and a dose of 35 mg has the following characteristics: one hour after taking 25-45%, after 3 hours - 43-63%, after 8 hours - not less than 80%. This dissolution kinetics corresponds to theoretically calculated pharmacokinetic parameters for a tablet with 35 mg of trimetazidine: plasma concentration C _ss = 84 ng / ml, half-life - 6 hours, T _max = 1.8 ± 0.7 hours.

The technical result, which is obtained thanks to the proposed solution, lies in the fact that it becomes possible to use mannitol as a filler.

An effect was obtained that caused an increase in the composition of microcrystalline cellulose in closed-cell matrices, which are created due to the use of hydrophobic plastic polymers such as waxes. The loosening effect known to specialists for microcrystalline cellulose in such systems does not work, with a low content of this substance it does not exist, with a significant amount, the matrix increases in size without losing physical and mechanical characteristics: strength, geometric structure. The use of a hydrophilic polymer - Methocel K4 M hydroxypropyl methyl cellulose or its mixture with Methocel K100 LV CR Premium hydroxypropyl methyl cellulose together with the already formed granulate structure leads to an increase in the release time of trimetazidine. This fact is not intended for specialists and is obtained experimentally.

The results obtained suggest that the proposed composition of the tablet with technical solutions for its production creates a new type of solid matrix, which occupies an intermediate place between the solid matrix, which releases the active substance by erosion from the surface of the tablet, and the gel matrix, which releases the substance by diffusion through a viscous layer swollen polymer. Due to the closed pore system and uniform distribution of the lyophilic particles of hydroxypropyl methylcellulose, the created matrix forms a solid porous matrix, the pores of which formed hydroxypropyl methylcellulose particles, which absorb the solution of the substance and then gradually release it. The invention is illustrated by the examples shown in Table 1.

Table 1 Tablet composition Example 1 Example 2 Example 3 Example 4 Trimetazidine dihydrochloride 23.33 23.33 23.33 23.33 Mannitol 9.3 9.3 9.3 9.3 Eudragit NE 30D 17.0 15.0 3.0 22 Eudragit RL 30D - 8.5 19.5 - Wax montan glycol 25.5 20,0 22.0 21 Microcrystalline cellulose 14.0 14.0 12.0 14.0 Hydroxypropyl methylcellulose Methocel K4 M 10.0 9.0 10.0 6.0 Hydroxypropyl methylcellulose Methocel K100 LV CR Premium - - 3,5 Magnesium stearate 0.87 0.87 0.87 0.87 Tablet core mass 150 mg 150 mg 150 mg 150 mg Opadry Coating 6 mg 10 mg 10 mg 6 mg

Purified water is used and evaporates in the technological process, therefore it is not included in the composition of the final product and the total weight of the tablet.

The method is as follows.

A 30% dispersion of eudragit is diluted with purified water to 12.5%. Trimetazidine is loaded into a Bohle high-speed granulator mixer along with microcrystalline cellulose, mannitol and montan wax. The mixing of the ingredients is carried out with an impeller speed of 100-200 rpm and a temperature of the walls of the boiler 34-40 ° C, a vacuum of 900 mbar. Moistening is carried out with a 12.5% dispersion of eudragit at an impeller speed of 100-200 rpm and a vacuum of 900 mbar in parts 6-8 times, between the moistening cycles, time is given for drying the mass, the moistened mass is dried at a temperature of the mixer walls of 35-40 ° C. The dried granulate with a moisture content of 1.2-1.6% is transferred to the calibration stage with a mesh opening size of 0.8-1.2 mm. Next, mixed with hydroxypropylmethyl cellulose for 10-20 minutes, the resulting mass was dusted with magnesium stearate and tabletted on a tablet press. The resulting core tablets were coated with an Opadry II film in a drum type apparatus.

The resulting drug is used in a dose of 35 mg.

The following table 2 shows comparative data on the physico-mechanical properties of the tablets of the prototype and the claimed drug.

The dissolution kinetics of the tablets obtained according to examples 1-4 have the following characteristics: one hour after administration of 25-45%, after 3 hours - 43-63%, after 8 hours - not less than 80%, i.e. complies with the requirements for comparison products manufactured according to the patents EP 1 108 424 A1 of 12.15.2000 and UA No. 12297 U, A61K 31/495, 2005

table 2 Physical and mechanical properties Prototype Claimed drug Average weight, mg 200 150 Hardness, N 120 130 Abrasion,% no more than 0.1 no more than 0.1 Diameter mm 8 7

As can be seen from the table, the physical and mechanical properties are almost the same. But according to the invention, a preparation was obtained which, like UA patent No. 12297 U, contains mannitol as a filler, but contains less wax and methacrylic acid polymers, and most importantly, does not require the use of alcohols in the manufacture of tablets.

Claims (10)

1. The drug trimetazidine in the form of a matrix tablet with a prolonged action, including the active substance, montan glycol wax, methacrylic acid polymer, mannitol, excipients, characterized in that it additionally contains microcrystalline cellulose, hydrophilic polymer, which is hydroxypropylmethyl cellulose, in the following ratio components, wt.%:
trimetazidine 17.5-25 montan glycol wax 20-31 methacrylic acid polymer 15-27 hydroxypropyl methylcellulose 3-10 microcrystalline cellulose 12-14 mannitol 2,5-10 Excipients up to 100 2. The drug according to claim 1, characterized in that as a polymer of methacrylic acid, eudragits NE 30D or RS 30D or a mixture thereof are used. 3. The drug according to claim 1, characterized in that as an auxiliary substance in its composition includes moving substances. 4. The drug according to claim 3, characterized in that as a moving substance use magnesium stearate or calcium stearate. 5. The drug according to claim 3, characterized in that the amount of glidants is 0.8-1% of the total weight of the tablet core. 6. A method for producing a medicament of trimetazidine in the form of a sustained release matrix tablet, characterized in any one of claims 1 to 5, wherein trimetazidine is loaded into a high-speed granulator mixer together with microcrystalline cellulose, mannitol and montan wax, the ingredients are mixed with with an impeller speed of 100-200 rpm, a boiler wall temperature of 34-40 ° C and a vacuum of 900 mbar, moisten with a 12.5% dispersion of eudragit at an impeller speed of 100-200 rpm and a vacuum of 900 mbar in parts of 6-8 times between c the wetting clams give time for drying the mass, the moistened mass is dried at a wall temperature of the mixer of 35-40 ° C and granulated, the dried granulate with a moisture content of 1.2-1.6% is transferred to the calibration stage with a mesh opening size of 0.8-1.2 mm, then mixed with hydroxypropyl methylcellulose for 10-20 minutes, the resulting mass was dusted with magnesium stearate and tabletted. 7. The method according to claim 6, characterized in that a mixture of Methocel K4 M hydroxypropyl methylcellulose with Methocel K 100 LV CR Premium hydroxypropyl methylcellulose is loaded into the granulator-mixer. 8. The method according to claim 6, characterized in that Methocel K4 M hydroxypropyl methylcellulose is loaded into the mixer-granulator. 9. The method according to any one of claims 6 to 8, characterized in that the obtained core tablets are coated with an Opadry II film. 10. The method according to claim 9, characterized in that the amount of Opadry II film is 3-5% by weight of the tablet core.