BE897221A - LONG-TERM PRODUCTS CONTAINING SULOCTIDIL - Google Patents

Abstract

Extended release products suitable for oral administration and containing suloctidil. Tablets characterized in that the quick-release portion contains about 12 to about 25% suloctidil based on the total weight of the tablet and about 10 to about 30% inert pharmaceutical excipients based on this total weight, while the portion to slow release contains 27 to about 55% suloctidil based on the total weight of the tablet and approximately 8 to about 16% inert pharmaceutical excipients based on this total weight.

Description

       

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     DESCRIPTIVE MEMORY filed in support of a request for
PATENT OF INVENTION formed by
GRUPPO LEPETIT S. p. A. for: "Products with prolonged effect, containing suloctidil" Priority of a patent application in Italy filed on July 6, 1982, under number 22246 A / 82.



  Inventors: Alberto GIOIA
Fabio GALBIATI

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 "Long-acting products containing suloctidil"
The present invention relates to products with sustained release or effect, containing suloctidil.



   Suloctidil, i.e. l-Ep- (isopro-py1thio) -phenylJ-2-octy1amino-1-propanol, is an agent that activates central and peripheral arterial microcircles, which is used in treatment chronic cerebral circulatory insufficiencies.



   This product has recently been put on the market in several countries, notably in Italy, where it is sold under different brands, notably under the brand Locton (Lepetit).



   After-sales surveillance studies have confirmed that this product is effective and well tolerated. However, this drug has the disadvantage that it inherently has a fairly high rate of elimination from the body. Thus by graphing the concentration of the drug in the blood over time, the curve obtained after a single administration shows that the concentration of the drug drops to a level below the desired therapeutic level in a short period of time. This problem is now partly avoided by administering this medication several times a day (a dosage

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 three times a day is the number of administrations generally prescribed by doctors and suggested in the packaging brochure).



   The object of the present invention is to provide a product with prolonged effect, containing suloctidil, suitable for administration by the oral route. The term "long-acting product" or "sustained-release product" refers to a product in which a drug is initially made available in the body in an amount sufficient to cause the desired pharmacological action or in an amount which does not advantageously exceed the quantity necessary to provoke this action, and this as quickly as compatible with the properties of the drug determining its intrinsic availability for absorption, while maintaining activity within the limits of the desired therapeutic rate-for an advantageous number of 'hours, which is greater than that obtained with the usual single dose.



   The main advantage of this long-acting product is that it ensures a slow and constant supply of the drug to the body. In addition, another advantage of this product is that the daily dosages can be reduced to two, namely one dose in the morning and the other in the evening, thereby limiting the number of doses "lost" due to forgetting the patient. This advantage should not be overlooked as the missed doses, especially in elderly patients who generally need this medication, are a real problem. The present invention provides in particular a tablet containing two par-

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 separate and distinct parts, namely a quick release part and a slow release part.



  The two parts of the tablet can be combined in many different ways to give a dosage form which ensures rapid levels of suloctidil at the start and the desired continuous levels of this suloctidil.



   A preferred tablet is in the form of what is called "bull's-eye", that is to say a tablet of slow release product with insertion of a much smaller tablet of a quick release formulation , which is located along a surface of the tablet (see Figure 1 of the accompanying drawings, where the hatched portions correspond to the portion of the quick-release tablet). This tablet could possibly be coated with sugar.

   However, one can also make a "layered" tablet (see Figures 2 and 3 of the drawings), two or three separate layers of granulation, which can be prepared to release the drug quickly or slowly, being incorporated into a single tablet, or also in the form of an internal slow-release part, forming a core, surrounded by an external quick-release component, the latter possibly being in the form of a coating shell (see Figure 4 of the drawings). The quick-release granules and the slow-release granules are preferably, but obviously not necessarily, of different colors.

   The amount of suloctidil in the two-part tablet, as well as the final dimensions of the tablet, can vary widely

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 limits compatible, however, with an appropriate dosage and obviously within acceptable limits of dimensions for the tablet. Generally, tablets containing approximately 100 to approximately 400 mg of suloctidil are preferred, but more particularly preferred are tablets containing approximately 200 to approximately 350 mg of active ingredient. Typically, the quick release portion is formulated to disintegrate quickly after ingestion, providing the initial dose of drug, while the slow release portion is formulated to make the drug available for absorption at a slow rate and more or less constant.

   The quick release portion of the tablet includes about 12 to about 25% suloctidil based on the total weight of the tablet. The remaining rapid release portion comprises 10-30% of inert pharmaceutical excipients, based on the total weight of the tablet.



  These pharmaceutical excipients can comprise diluents, i.e. inert substances added to increase the mass of the tablet, for example calcium phosphate, calcium sulphate, calcium carbonate, kaolin, mannitol, corn starch, silicon dioxide, and similar diluents;

   binders, i.e. agents used to give cohesive qualities to the pulverulent material, for example starch, gelatin, sugars, natural and synthetic gums, and similar agents, lubricants, i.e. ingredients added to the tablet to prevent adhesion of the material

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 this tablet on the surface of the punches during compression, for example precipitated silica, magnesium stearate, calcium stearate, stearic acid, calcium phosphate, sodium bicarbonate, etc., and agents disintegration, i.e. substances added to facilitate the disintegration of the tablet after administration, for example corn or potato starches, methylcellosolve,

   carboxymethylcellulose, alginic acid, polyvinylpyrrolidone, sodium laurylsulfate, polyoxyethylene sorbitan derivatives, esters, lecithins, etc. The particular excipients, which are used in the quick release formulation containing suloctidil, as well as their respective amounts, are not critical and any of the formulations containing suloctidil and currently on the market can be used.



  However, lubricants are generally used in concentrations ranging from 0.5 to 6% of the weight of the quick-release part, while, considering that rapid disintegration is desirable, disintegrating agents are used in concentrations of 10 to 50% of the weight of the quick-release tablet.



   The slow release portion of the tablet comprises from about 27 to about 55% suloctidil based on the total weight of the tablet and from about 8 to about 36% inert pharmaceutical excipients based on this total weight. A nonionic or anionic surfactant, which promotes bioerosion

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 of the slow-release tablet, should be included in the pharmaceutical excipients contained in the slow-release part of the tablet.

   Among the preferred surfactants, mention may be made of sorbitol fatty acids, copolymerized with ethylene oxide, for example polyoxyethylene sorbitan mono-oleate, sold under the brand Tween 80, lauryl sulfates and dioctylsulfosuccinates, for example sodium laurylsulfate and sodium dioctylsulfosuccinate, as well as lecithins. Such a surfactant is used in an amount ranging from about 0.1 to about 2% of the weight of the slow release portion, preferably in an amount of from about 0.3 to about 0.8%. In addition, it is necessary to include, in the slow release part of the tablet, a couple of additives determining the release of the active ingredient.

   One is a water-soluble cellulose derivative, for example methylcellulose, hy-, droxyethylcellulose, hydroxypropylcellulose and hydroxypropylmethylcellulose, while the other is a slow solubilizing agent. polymer molecules, generally polyethylene glycol having a molecular weight greater than 1000, promoting bio-erosion of the surface of the tablet. The cellulose derivative is generally used in an amount between about 2 and about 30% of the weight of the slow-release part, preferably at a rate of 2 to 10%, while the Polyethylene glycol can be used in an amount between 2 and 15% of the weight of this slow-release part, preferably in an amount of 2 to 8%.

   According to the derivative

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 of particular cellulose used, it may be necessary to add a water-soluble dehydrating agent to prevent a possible swelling effect from this cellulose derivative.



   Generally, in such cases, a sugar is preferably used. It can be used in an amount varying from 0% (when the cellulose derivative does not give rise to any swelling effect and, therefore, no dehydrating agent must be added) and 20% by weight of the slow release part. For practical reasons, among the sugars which can be used for this purpose, sucrose, lactose and galactose are preferably used.

   In addition to the above additives, the slow release portion of the tablet may contain diluents which are insoluble and do not swell, for example calcium sulfate, calcium phosphate, silicon dioxide, talc, etc., kaolin, and non-stick substances, for example precipitated silica, calcium phosphate, etc., as well as certain hydrophobic lubricants, such as magnesium stearate, calcium stearate, stearic acid, castor oil and esters of hydrogenated fatty acids.



   Finally, if desired, either or both formulations may contain a coloring agent known in the art. If a tablet such as that of Figure 4 is desired, in which the rapid release layer which coats the inner slow release core is in the form of a sugar coating, it can be prepared by techniques

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 usual by alternating layers of coating sugar syrup with mixtures of the active ingredient and one or more inert excipients, such as silicon dioxide, talc, calcium carbonate, kaolin, etc. The tablets according to the present invention are prepared by techniques well known in the industrial pharmaceutical field. The quick release formulation and the slow release formulation are normally prepared and granulated separately.



   Although both compositions can be processed using the wet granulation methods and the dry granulation methods, wet granulation is much preferred in both cases. With regard to the slow-release formulation, the suloctidil is preferably first mixed with a binder solution for tablets, for example a gelatin solution, glycerol gelatin, starch paste or other similar binders. .



   Then all the other desired excipients are added and mixed thoroughly. When the formulation process is complete, the composition is granulated by passing it through a sieve of suitable dimensions. The granules thus obtained are dried until they contain the desired residual moisture content. This granulated material can then be sprayed to an even smaller particle size suitable for compression, and suitable excipients can be added to prevent the granules from sticking to the punches

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 or dies during compression. This operating phase can be carried out by dusting or dry mixing with adsorbents, such as precipitated silica, dibasic or tribasic calcium phosphate, talc, etc.

   Finally, the granulated material is appropriately lubricated and optionally added with disintegrating agents.



   Also for the slow-release formulation, the various excipients are gradually added to the active ingredient. If the formulation is too wet to the point of giving a flattening mass, the excess water is removed before the granulation phase by the addition of an inert highly absorbent diluent, for example silicon dioxide. Granulation can then be carried out, either by passing the mixture through an appropriate sieve, or through a plate having holes of desired dimensions. In this case also, after drying of the granules thus obtained, it may be necessary to reduce their particle sizes to improve the compression. One or more release agents and one or more lubricants are then added, and mixed well to obtain the final granules.

   These granules, like those of the rapid-release formulation, are used to feed a compression press and give the tablets in two parts, illustrated by the appended drawings, and this according to the traditional techniques known in practice.



   The following nonlimiting examples illustrate the invention even more completely.

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   Example 1
Preparation of quick release granules
The following composition is used to prepare the granules forming the rapid release portion of 25,000 tablets: Ingredients Grams Suloctidil 2500 Ca Phosphate Aerosil V 200 125 Gelatin 75 Glycerin 25 Mannitol 125 Corn starch 1747.5 Precipitated silica 100 Mg 125 stearate Colorant EDC Red 3 (E 127) 2,5
The operating phases are as follows (1) A solution of the gelatin and of the glycerin in distilled water (450 g) with suloctidil is added, with stirring; (2) The product Aerosil V 200, the mannitol and a certain quantity of the corn starch (1672.5 g) are then added to the mixture obtained, and the whole of this mixture is sorted until obtaining a homogeneous mass;

   (3) A starch paste is prepared by mixing the remaining corn starch with the coloring agent and distilled water (675 g). The mixture is heated in a water bath until a red paste is obtained; (4) The starch paste is then added to the mixture prepared according to the preceding phase (2) and

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 the whole is stirred until a homogeneous mass is obtained; (5) this mass is passed through an oscillating granulation apparatus, equipped with a sieve having openings of approximately 3-3.5 mm.



  The granules are then dried at 400C for a few hours; (6) The granules thus obtained are forced to pass through a sieve having openings of less than 1.5 mm; (7) The granules obtained are mixed with tribasic calcium phosphate, magnesium stearate and precipitated silica.



   Example 2
Preparation of slow release granules
The following composition is used to prepare the granules which form the slow release part of 25,000 tablets: Ingredients Grams Suloctidil 5000
 EMI12.1
 Tribasic calcium phosphate 250 Tween 80 30 Polyethylene glycol 6000 265, 75 Sucrose 412, 5 Methocel A 15 300 Aerosil V 200 300 Precipitated silica 550 Mg stearate 166.75
The operating phases are as follows: (1) The product Methocel A 15 is added to a solution of the product Tween 80, sucrose,

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 polyethylene glycol 6000 and distilled water (1675 g), which are heated in a water bath, the product obtained being cooled while stirring;

   (2) The following prepared mixture (1) is added to a mixture of calcium phosphate suloctidilet, while stirring, until a sagging mass is obtained. The product Aerosil V 200 is then added thereto; (3) The mass obtained is passed through an oscillating granulation apparatus, equipped with a screen having openings of approximately 6.0-6.5 mm. The granules obtained are dried at 400C for a few hours, then passed by force through a sieve having openings of less than 1.5 mm and dried again for a few additional hours; (4) The granules obtained according to the preceding phase (3) are mixed with the precipitated silica and the magnesium stearate.



   Example 3
Preparation of a “bull's-eye” type tablet (1) The granules prepared according to phase (7) of Example 1 are compressed with a rotary Ronchi AM 13/8 tablet manufacturing machine comprising punches of 8 , 5 mm. The tablets obtained, which are pink in color, have a thickness of 4 + 0.1 mm and weigh approximately 195 mg.



   Each tablet prepared according to the preceding phase (1) is placed in the middle of an 11.5 mm punch of a rotary machine for manufacturing

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 award-winning Kilian Prescoter, powered by the granules obtained according to operation (4) of Example 2.



  The two-part tablets thus obtained, in which the small pink tablet prepared according to the preceding operation (1) appears along an area of the final tablet, weigh approximately 486 mg.



   Alternatively, tablets of the "bull's-eye" type can also be prepared by placing the small, quick-release tablet on a layer of the slow-release granulation and compressing. Each tablet thus obtained has the following composition (the weights are in mg): Quick-release part mg Total weight of the quick-release part 195 Suloctidil 100 Inert pharmaceutical excipients 95 Slow-release part Total weight of the slow-release part 291 Suloctidil 200 Surfactant 1.2 Agents determining the release of the active ingredient 22.6 Inert pharmaceutical excipients 67, 2 Total weight of the tablet 486
The tablets thus obtained were tested to determine the rate or speed of dissolution of the active principle using the Diffutest apparatus (registered trademark).

   With this device, which
 EMI14.1
 consists of a thermostatic chamber set to 370C with a wheel carrying clamps, set to rotate at 30 rpm, the tablet undergoes a series

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 chemical and mechanical conditions which simulate physiological conditions and, as these conditions are predetermined, the results of the test are reproducible (Chiaromonte D. et al. - Il Farmaco-Ed. Pratica-XXV / 4, 257; 1970).



   In practice, a carefully weighed tablet (therefore equivalent to an appropriate amount of active ingredient) is placed in a special bottle and a specific amount of gastric juice substitute is added to it. The bottle is placed in a suitable bottle holder inside the thermostatic chamber and rotated at 30 rpm for a determined period of time.



  Then the suspension is poured into a separate container and the amount of active principle released is measured by traditional analysis techniques.



  A determined quantity of gastric juice substitute is added to the tablet remaining in the bottle and it is made to rotate again for a determined time.



  In total, the tablet undergoes the following cycle of treatments: (I) 1 hour in artificial gastric juice, pH 1.5 (II) 1 hour in artificial intestinal juice, pH 4.5 (III) 2 hours in artificial intestinal juice, pH 6.9 (IV) 2 hours in artificial intestinal juice, pH 6.9 (V) 2 hours in artificial intestinal juice, pH 7.2.

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   After each rotation period, the quantity of active principle released into the suspension is measured. The amount of active principle released is reported per gram and the percentage of release is then calculated using the following equation:% of release = K x 100 z in which: K = mg of active ingredient released by the tablet during each rotation period, Z = mg of active ingredient per tablet.



   Example 4
Determination of the percentage of suloctidil released after the different periods of rotation (A) Preparation of artificial gastric juice
118 ml of IN HCl and 700 ml of distilled water are placed in a 1000 ml beaker; 80 ml of NaOH IN are then added with stirring. The pH is checked because it must be 1.5 + 0.05. Then add distilled water to make 1000 ml.



   (B) Preparation of artificial intestinal juice
3.42 g of potassium monophosphate are poured into a 100 ml volumetric flask and distilled water is added to give the volume. 3 parts of 25 ml of this solution are transferred to 3 separate beakers of 1000 ml. To each beaker, 38 ml of IN NaOH and approximately 700 ml of distilled water are added with stirring. The pH is adjusted to 4.5 in the first beaker, to 6.9 in the second and to 7.2 in the third by the addition of IN HCl. Each solution is

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 transferred to a 1000 ml volumetric flask and distilled water is added to make the volume.



   (C) Test process
Appropriate quantities of artificial gastric juice and artificial intestinal juice are prepared and heated to 37 ° C. A long-acting suloctidil tablet from Example 3 is carefully weighed and placed in a 120 ml rotating bottle.



  Artificial gastric juice (75 ml) is added and the rotary bottle is introduced into the appropriate clamp of the thermostatic chamber, previously set at 37 + 0.5 C, and with rotation at 30 revolutions per minute. We proceed to the 5-phase cycle described above.



   At the end of each rotation period, the suspension is transferred to a 300 ml volumetric flask. The flask is washed with distilled water (about 10 ml), which is then added to the suspension in the volumetric flask. Then about 175 ml of absolute ethyl alcohol is added to the suspension and the mixture is stirred vigorously for 5 minutes to dissolve the granules of suloctidil. Then absolute ethyl alcohol is added to make up the volume, the mixture is stirred and filtered into a 300 ml Erlenmeyer flask, rejecting the first 50 milliliters of filtered solution. The amount of suloctidil released in these fractions is determined spectrophotometrically at 260 nm.

   Then add artificial intestinal juice of pH 4.5 (75 ml) to the remaining tablet in the rotating bottle and repeat the above operations. The percentages

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 means of release after different hours, which are obtained by the above process, are as follows:
1st hour 33% 2 hour 44% 4 hour 67%
6th hour 86% 8 hour 96%
The disintegration time of the small quick-release tablet of Example 3, phase (1), measured with the device provided by the US Pharmacopoeia XIX, with artificial gastric juice and keeping the temperature at 37 ° C., was <10 minutes.



   Example 5
Tablets having the same composition as in the case of Example 3 and prepared essentially as described in this same example but slightly modifying the formulation process, were coated with sugar using a mixture of sugar syrup and water 1/2 and a slight excess of a powder composed of 20% ground sugar, 60% talc and 20% titanium dioxide. These tablets were tested to determine the rate or rate of dissolution of suloctidil. The release rates determined as described in Example 4 were as follows: 1st hour 34% 2 hours 46% 4 hours 70% 6 hours 86%
8th hour 98%


    

Claims (18)

CLAIMS 1. Prolonged release products suitable for oral administration and containing suloctidil.  2. Extended-release tablets containing suloctifil.  3. Tablets according to claim 2, characterized in that they contain two separate and distinct parts, one of which is a rapid-release part, while the other is a slow-release part.  4. Tablets according to claim 3, characterized in that the rapid-release part contains approximately 12 to approximately 25% of suloctidil relative to the total weight of the tablet, and approximately 10 to approximately 30% of inert pharmaceutical excipients relative to this total weight, while the slow release portion contains 27 to about 55% of suloctidil relative to the total weight of the tablet and about 8 to about 16% of inert pharmaceutical excipients relative to this total weight.  5. Tablets according to claim 4, characterized in that the pharmaceutical excipients of the slow-release part consist of at least one surfactant, synthetic or natural, anionic or nonionic, allowing to promote the bio-erosion of the tablet slow release, and release delaying agents to determine release of the active ingredient.  6. Tablets according to claim 5, characterized in that the agent delaying the release  <Desc / Clms Page number 20>  for the active ingredient consists of a combination of a water-soluble cellulose derivative and an agent for slow solubilization of polymer molecules.  7. Tablets according to claim 6, characterized in that the water-soluble cellulose derivative is chosen from methylcellulose, hydroxymethylcellulose, hydroxypropylcellulose and hydroxypropylmet, iylcellulose, and the slow-dissolving agent for molecules polymers is a polyethylene glycol with a molecular weight greater than 1000.  8. Tablets according to claim 5, in which the anionic or nonionic surfactant is chosen from polyoxyethylene sorbitan derivatives, esters, laurylsulfates, dioctylsulfosuccinates and lecithins.  9. Tablets according to claim 8, characterized in that the surfactant is polyoxyethylene sorbitan mono-oleate.  10. Tablets according to claim 5, characterized in that the surfactant is used in an amount of from about 0.1 to about 2% of the weight of the slow release part.    11. Tablets according to claim 10, characterized in that the surfactant is used in an amount of about 0.3 to about 0.5%.  12. Tablets according to claim 6, characterized in that a water-soluble dehydrating agent is added to prevent a possible swelling effect.  <Desc / Clms Page number 21>    13. Tablets according to claim 12, characterized in that the dehydrating agent is a sugar.  14. Tablets according to claim 13, characterized in that the sugar is chosen from sucrose, galactose and lactose.  15. Tablets according to claim 6, characterized in that the water-soluble cellulose derivative is used in an amount of about 2 to about 30% of the weight of the slow-release part and polyethylene glycol is used in an amount of about 2 to about 15% of the weight of this slow release portion.  16. Tablets according to claim 15, characterized in that the water-soluble cellulose derivative and the polyethylene glycol are used in amounts which are respectively from about 2 to about 10% and from about 2 to about 8% the weight of the slow release part.  17. Tablets according to claim 16, characterized in that the sugar is used in an amount not exceeding 20% of the weight of the slow-release part.  18. Tablets containing suloctidil, as described above and / or illustrated by the accompanying drawings.