CN112516097A - Levamlodipine besylate composition - Google Patents

Abstract

The invention relates to a levamlodipine besylate tablet composition, and belongs to the technical field of pharmaceutical preparations. The technical scheme of the invention is as follows: a levamlodipine besylate composition comprises 3.5% of levamlodipine besylate, 2-8% of taurine, 70-90% of a filler, 3-9% of propylene glycol, 5-10% of a disintegrant and 0.5-2% of a lubricant. The invention provides the levamlodipine besylate medicinal composition which can be quickly released in a human body after being taken and has excellent stability.

Description

Levamlodipine besylate composition

Technical Field

The invention relates to a levamlodipine besylate tablet composition, and belongs to the technical field of pharmaceutical preparations.

Background

Amlodipine besylate is a third-generation 1, 4-dihydropyridine calcium ion antagonist successfully developed by the U.S. feverfew pharmaceutical company Limited in the middle of the 80 th century, has the action mechanism of relaxing vascular smooth muscle, expanding coronary artery, improving collateral circulation and improving myocardial ischemia and anoxia, has mild and lasting action, is convenient to take and slight in adverse reaction, and is mainly used for treating hypertension, angina pectoris, heart failure complicated with hypertension or coronary heart disease and the like clinically. The calcium antagonistic activity of the amlodipine besylate levorotatory body is 1000 times that of a dextrorotatory body and 2 times that of a racemic body. Levamlodipine besylate can be used as an antianginal drug and is also effective on coronary artery spastic angina. Racemic tablets typically are administered orally at a starting dose of 5mg (in amlodipine) once daily; while the levorotatory tablets are usually administered orally at a starting dose of 2.5mg (calculated as levamlodipine) once a day.

Levamlodipine besylate is almost insoluble in water, is slowly absorbed by a human body, generally reaches the peak value of blood concentration 6 to 12 hours after being taken, has low total level of the blood concentration, and particularly has very low blood concentration at the initial stage after being taken. Therefore, people need to improve the dissolution behavior of the preparation by technical means to meet the requirement of lowering blood pressure, and meanwhile, the levamlodipine besylate has poor stability, so that impurities grow rapidly after the preparation is prepared, and the problem needs to be solved in the preparation process.

Patent document CN101947210A discloses a levamlodipine besylate liposome tablet and its application in preparing a medicament for treating essential hypertension, which is mainly prepared from levamlodipine besylate, egg yolk lecithin, cholesterol, poloxamer and pharmaceutically acceptable excipients. The levamlodipine besylate liposome tablet improves the dissolution rate and increases the stability, but the process is complex, and a large amount of lipid materials are added, so that great potential safety hazard can be brought to patients with high cholesterol when the tablet is taken.

Patent document CN1686121A discloses a method for preparing amlodipine besylate dispersible tablets, which is prepared from amlodipine, lactose, microcrystalline cellulose, carboxymethyl starch sodium, aerosil and magnesium stearate, and the dispersible tablets can be dispersed in water for administration, so as to improve the convenience of administration.

Although the prior literature discloses a preparation method of various dosage forms containing levamlodipine besylate, the levamlodipine besylate belongs to an insoluble drug, so that the levamlodipine besylate is slowly absorbed after being taken, has long time to peak and very low blood concentration at the initial stage of taking, and cannot play a role in controlling blood pressure immediately after taking. Through the change of the dosage form, the hydrophilicity of the medicine is only improved, the disintegration time of the medicine in vivo is shortened, no evidence shows that the solubility in digestive juice can be increased, and in order to promote the disintegration of the medicine, a large amount of disintegrant components are added in the prescription, so that the medicine is easy to absorb moisture in the storage process, the stability of the preparation is reduced, and the packaging cost is increased.

Disclosure of Invention

The invention aims to provide the levamlodipine besylate medicinal composition which can be quickly released in a human body after being taken and has excellent stability.

The applicant finds that the solubility of the levamlodipine besylate in digestive juice can be obviously improved by adding the filler after grinding and mixing the taurine and the levamlodipine besylate, granulating by using a propylene glycol aqueous solution and tabletting.

In-vitro dissolution experiments with artificial gastric juice and artificial intestinal juice as media prove that the solubility of the tablet obtained by the scheme in digestive juice is obviously improved, the stability of the medicine can be obvious due to the addition of the propylene glycol, moisture-absorbable components do not exist in the prescription, and the risk of medicine moisture absorption is greatly reduced.

Analyzing the principle, it may be: taurine is taken as free amino acid widely existing in human tissues, has strong hydrophilicity and wettability, can obviously reduce the hydrophobicity of the medicament after being fully combined with levamlodipine besylate, changes the solubility of the medicament in digestive juice, increases the concentration of the medicament in the digestive juice, and has strong affinity to human cells, thereby further promoting the absorption of human bodies, improving the blood concentration at the initial stage of administration and achieving the purpose of quick response. And the propylene glycol is used as a plasticizer, has excellent hydrophilicity, and is combined with the taurine, so that the release capacity of the medicine is further enhanced. During the stability investigation process, we have unexpectedly found that the addition of propylene glycol can significantly improve the stability of the drug.

The technical scheme of the invention is as follows: a levamlodipine besylate composition comprises 3.5% of levamlodipine besylate, 2-8% of taurine, 70-90% of a filler, 3-9% of propylene glycol, 5-10% of a disintegrant and 0.5-2% of a lubricant.

The filler is selected from lactose and mannitol.

The disintegrant is selected from carboxymethylcellulose calcium and microcrystalline cellulose.

The lubricant of the invention is selected from magnesium stearate and stearic acid.

Preferably, the levamlodipine besylate composition disclosed by the invention comprises 3.5% of levamlodipine besylate, 5-6% of taurine, 76.5-82.5% of a filler, 5-7% of propylene glycol, 7-8% of a disintegrant and 1% of a lubricant.

Preferably, the levamlodipine besylate composition disclosed by the invention comprises 3.5% of levamlodipine besylate, 5% of taurine, 77% of a filler, 6% of propylene glycol, 7% of a disintegrant and 1% of a lubricant.

Preferably, the levamlodipine besylate composition disclosed by the invention comprises 3.5% of levamlodipine besylate, 6% of taurine, 79.5% of a filler, 7% of propylene glycol, 7.5% of a disintegrant and 1% of a lubricant.

The preparation method of the levamlodipine besylate composition comprises the following steps:

the first step is as follows: weighing levamlodipine besylate and taurine according to the prescription amount, grinding and mixing;

the second step is that: adding the filler and the mixed material prepared in the first step into a wet mixing granulator, mixing for 5min, and adding 20% (w/w) propylene glycol aqueous solution to prepare a proper soft material;

the third step: sieving the soft material with 24 mesh sieve, and drying at 50 deg.C to water content of less than 5%;

the fourth step: adding a disintegrating agent and a lubricating agent into the dried granules, and uniformly mixing by using a three-dimensional motion mixer;

the fifth step: the granules are compressed by using a 6mm shallow concave die, and the hardness of the tablets is 50-60N.

Has the advantages that: the invention provides the levamlodipine besylate medicinal composition which can be quickly released in a human body after being taken and has excellent stability.

Examples and comparative examples

Example 1. recipe:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Example 2. recipe:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Example 3. recipe:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Example 4. prescription:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Example 5. recipe:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Comparative example 1. taurine was not present in the formulation, as follows:

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the first step is as follows: weighing lactose and levamlodipine besylate with the formula amount, adding into a wet mixing granulator, mixing for 5min, and adding 20% (w/w) propylene glycol aqueous solution to prepare a proper soft material; (ii) a

The second step is that: sieving the soft material with 24 mesh sieve, and drying at 50 deg.C to water content of less than 5%;

the third step: adding the carboxymethyl cellulose and the magnesium stearate in the prescription amount into the dried granules, and uniformly mixing by using a three-dimensional motion mixer;

the fourth step: the granules are compressed into tablets, 6mm shallow concave dies are adopted, and the hardness of the tablets is 50-60N, so that 1000 tablets are prepared.

Comparative example 2 formulation without propylene glycol, formulation was as follows:

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preparation process

The first step is as follows: weighing levamlodipine besylate and taurine according to the prescription amount, grinding and mixing;

the second step is that: adding lactose in a prescription amount and the mixed material prepared in the first step into a wet mixing granulator, mixing for 5min, and adding a proper amount of purified water to prepare a proper soft material;

the third step: sieving the soft material with 24 mesh sieve, and drying at 50 deg.C to water content of less than 5%;

the fourth step: adding the carboxymethyl cellulose calcium and the magnesium stearate with the prescription amount into the dried granules, and uniformly mixing by using a three-dimensional motion mixer;

the fifth step: the granules are compressed into tablets, 6mm shallow concave dies are adopted, and the hardness of the tablets is 50-60N, so that 1000 tablets are prepared.

Comparative example 3. example 2 formulation 1000 tablets were prepared as follows

The first step is as follows: adding the levamlodipine besylate, taurine and lactose in the prescribed amount into a wet mixing granulator, mixing for 5min, and adding 20% (w/w) propylene glycol aqueous solution to prepare a proper soft material;

the second step is that: sieving the soft material with 24 mesh sieve, and drying at 50 deg.C to water content of less than 5%;

the third step: adding the carboxymethyl cellulose calcium and the magnesium stearate with the prescription amount into the dried granules, and uniformly mixing by using a three-dimensional motion mixer;

the fourth step: the granules are compressed into tablets, 6mm shallow concave dies are adopted, and the hardness of the tablets is 50-60N, so that 1000 tablets are prepared.

Comparative example 4

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1000 tablets are prepared according to the preparation method of the technical scheme.

Comparative example 5 formulation:

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1000 tablets are prepared according to the preparation method of the technical scheme.

Test example 1: the release rates of the products of examples 1-5 and comparative examples 1-5 in artificial gastric juice and artificial intestinal juice were measured, respectively, and the results are reported in table 1.

The instrument name: full-automatic dissolution test system

Instrument brand: sotax

The test method comprises the following steps: the method is characterized by referring to dissolution determination method of United states Pharmacopeia, flow cell method and ring opening.

Dissolution medium: artificial gastric juice and artificial intestinal juice.

Taking 16.4 mL of dilute hydrochloric acid, adding 800 mL of water and 10g of pepsin, and adding water to dilute the mixture to 1000 mL; wherein the dilute hydrochloric acid is 234mL of concentrated hydrochloric acid, and water is added to dilute the concentrated hydrochloric acid to 1000mL to obtain 9.5% -10.5% dilute hydrochloric acid.

Dissolving potassium dihydrogen phosphate 6.8g in water 500 mL, and adjusting pH to 6.8 with 0.1mol/L sodium hydroxide solution; taking 10g of pancreatin, adding a proper amount of water for dissolving, mixing the solution 2, and adding water for diluting to 1000mL to obtain the finished product.

Sampling time: 1h, 2h, 4h, 6h and 8h (artificial gastric juice test 1-2h, artificial intestinal juice test 3-8 h).

Rotating speed: 50rpm

The test method comprises the following steps: HPLC chromatography.

Detection wavelength: 237 nm.

Preparation of a reference solution: taking a proper amount of a levamlodipine besylate reference substance, precisely weighing, adding a proper amount of methanol for dissolving, and quantitatively diluting with a hydrochloric acid solution with the pH of 1.0 to prepare a solution containing 5 mu g of levamlodipine per 1 ml.

TABLE 1 results of measuring the degree of release of the products of examples 1 to 5 and comparative examples 1 to 5

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Table 1 the data illustrates:

the release degree of the levamlodipine besylate tablets prepared in the embodiments 1 to 5 by adopting the technical scheme of the invention in the artificial gastric juice and the artificial intestinal juice is obviously higher than that of the levamlodipine besylate tablets obtained in the comparative examples 1 to 5, which shows that the addition of 2 to 8 percent of taurine and 3 to 9 percent of propylene glycol in the technical scheme can obviously promote the release of the drug in the artificial gastric juice and the artificial intestinal juice, improve the blood concentration at the initial administration stage, facilitate the rapid absorption of a human body after the drug administration and achieve the purpose of rapid onset of action. The samples of comparative examples 1 to 5 have low dissolution rate and cannot achieve the purpose of quick response after being taken.

Test example 2 stability study

The products of examples 1 to 5 and comparative examples 1 to 5 were respectively subjected to aluminum-plastic packaging, 10 aluminum-plastic plates for each sample and 12 pieces/plate for packaging specification, and placed in an accelerated stability inspection box under the conditions of 40 ℃ of temperature and 75% of humidity, and sampled at the end of 1 st, 2 nd, 3 th and 6 th months, 2 plates for each time point were sampled, and the relevant substances were measured, and the results are shown in Table 2.

TABLE 2 measurement results of substances involved in product stability tests of examples 1 to 5 and comparative examples 1 to 5

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Table 2 the data illustrates: in an accelerated stability test, the growth rates of related substances of the products of examples 1-5, comparative example 1 and comparative examples 3-4 prepared by the technical scheme of the invention are obviously slower than those of the products of comparative example 2 and comparative example 5, which shows that the stability of the levamlodipine besylate can be obviously improved by adding 3-9% of propylene glycol in the technical scheme, and the adverse effect of impurities generated by drug degradation on the health of patients is reduced.

Claims (5)

1. The levamlodipine besylate composition is characterized by comprising 3.5% of levamlodipine besylate, 2-8% of taurine, 70-90% of a filler, 3-9% of propylene glycol, 5-10% of a disintegrant and 0.5-2% of a lubricant, wherein the filler is selected from lactose and mannitol, the disintegrant is selected from calcium carboxymethylcellulose and microcrystalline cellulose, and the lubricant is selected from magnesium stearate and stearic acid.

2. The levamlodipine besylate composition according to claim 1, comprising 3.5% of levamlodipine besylate, 5-6% of taurine, 76.5-82.5% of a filler, 5-7% of propylene glycol, 7-8% of a disintegrant and 1% of a lubricant.

3. The levamlodipine besylate composition according to claim 1, comprising 3.5% of levamlodipine besylate, 5% of taurine, 77% of a filler, 6% of propylene glycol, 7% of a disintegrant and 1% of a lubricant.

4. The levamlodipine besylate composition according to claim 1, comprising 3.5% of levamlodipine besylate, 6% of taurine, 79.5% of a filler, 7% of propylene glycol, 7.5% of a disintegrant and 1% of a lubricant.

5. The method for preparing levamlodipine besylate composition according to claim 1, comprising the steps of:

the first step is as follows: weighing levamlodipine besylate and taurine according to the prescription amount, grinding and mixing;

the second step is that: adding the filler and the mixed material prepared in the first step into a wet mixing granulator, mixing for 5min, and adding 20% (w/w) propylene glycol aqueous solution to prepare a proper soft material;

the third step: sieving the soft material with 24 mesh sieve, and drying at 50 deg.C to water content of less than 5%;

the fourth step: adding a disintegrating agent and a lubricating agent into the dried granules, and uniformly mixing by using a three-dimensional motion mixer;

the fifth step: the granules are compressed by using a 6mm shallow concave die, and the hardness of the tablets is 50-60N.