JP6382667B2 - L-ascorbic acid sustained release preparation - Google Patents

Description

  The present invention relates to an L-ascorbic acid sustained-release preparation.

  L-ascorbic acid or a salt or derivative thereof (hereinafter referred to as L-ascorbic acid) activates the action of enzymes in the living body and activates the action of corticosteroids, thyroid hormones, choline, and the like. In addition, the blood vessel wall is made dense and strengthened, promotes platelet formation, activates thrombin action, maintains biological homeostasis such as prevention of bleeding and hemostasis, suppresses melanin production and suppresses pigment deposition. It has various effects such as prevention.

  On the other hand, when L-ascorbic acid is deficient in the living body due to various causes, diseases such as scurvy, hormonal dysfunction such as Merler Barlow's disease and Addison's disease in children, malnutrition and weakness occur. It also causes weakening of the blood vessel wall, delay of bone and tooth development, and further reduction of immunity, antibody production ability and resistance to infection, and wound healing ability.

  Specific symptoms include stomatitis, gingivitis, nephritis, renal bleeding, stomach bleeding, intestinal bleeding and other inflammation and bleeding, pulmonary tuberculosis, pneumonia, cold, encephalitis, rheumatism, cancer and other diseases, and allergic poisoning It spans many fields, such as during minor infectious diseases.

However, since L-ascorbic acid cannot be synthesized in vivo in humans, L-ascorbic acid must be taken on a daily basis as food or a preparation in order to prevent these diseases.
On the other hand, L-ascorbic acid does not stay for a long time at a high concentration in the body, and is excreted outside the body without being absorbed even if a certain concentration or more is administered. In particular, administration by injection is generally performed by oral administration of L-ascorbic acid, because the remaining time in the body is shorter than oral administration and the administration method is complicated, etc., unless the immediate effect is expected. ing. However, even in the case of oral administration, when the dose reaches a certain concentration, it is rapidly excreted and no further absorption can be expected, and its bioavailability is reduced. However, by maintaining the blood concentration at a high level, an antioxidant effect or the like has a favorable effect on the living body. Therefore, administration of a high volume is recommended even if the in vivo utilization rate is low.

In recent years, an intestinal transporter involved in the absorption of L-ascorbic acid has been discovered, and based on this result, a substance that promotes the production of L-ascorbic acid transporter and L-ascorbic acid are simultaneously administered to improve the absorption. Proposals have been made (see Patent Document 1 and Patent Document 2).
Moreover, there exists a proposal (patent document 3) which improves the sustainability of L-ascorbic acid by the combination of vegetable oil or sucrose fatty acid ester, and corn protein.
Attempts to improve the absorption of L-ascorbic acid from the gastrointestinal tract with these proposals and pharmaceutical formulations are not necessarily effective.
The present applicant has found a phenomenon in which, when a fat-soluble L-ascorbic acid derivative and a water-soluble L-ascorbic acid derivative are used in combination, the absorption is improved compared to administration of each of them alone, and the absorbency is good by applying this phenomenon. An L-ascorbic acid preparation has been proposed (Patent Document 4).
In addition, the present inventors have proposed an L-ascorbic acid preparation having improved absorbability by using a pharmaceutical method (Patent Document 5). This L-ascorbic acid preparation is a tablet obtained by mixing L-ascorbic acid, L-ascorbic acid palmitate, and an L-ascorbic acid granule oil coating, and tableting. This formulation has been confirmed to increase absorption (AUC) by more than twice as compared to administration alone.
On the other hand, L-ascorbic acid fatty acid ester is blended in oily foods for the purpose of inhibiting lipid oxidation, and is hydrolyzed by esterase in the digestive tract and absorbed as L-ascorbic acid, but the absorption rate is not necessarily high. . For this reason, the technique for improving the absorptivity of L-ascorbic-acid fatty acid ester is calculated | required.

WO 2007/094312 Special table 2008-533078 gazette JP-A-6-271465 JP 2013-49670 A JP 2014-34529 A

  This invention makes it a subject to provide the L-ascorbic-acid fatty acid ester formulation by which the absorptivity and the sustainability at the time of oral administration of L-ascorbic acid were improved.

  As a result of intensive studies to solve the above problems, the present inventors have found that a composition containing L-ascorbic acid fatty acid ester and hyaluronic acid has a high L-ascorbic acid absorbability and blood during oral administration. Based on this finding, the inventors have found that the medium L-ascorbic acid concentration has persistence.

The present invention has the following configuration.
(1) An oral preparation containing 0.1 to 10 parts by mass of high molecular hyaluronic acid having an average molecular weight of 200,000 to 500,000 per 1 part by mass of L-ascorbyl palmitate.
(2) The oral preparation according to (1), which is a liquid preparation.
(3) The oral preparation according to (1), which is a tablet or capsule.

  The preparation of the present invention exhibits high absorbability and durability by oral administration compared to L-ascorbic acid alone.

It is a graph which shows the result of the elution test of the various capsule formulation containing L-ascorbic acid and L-ascorbic-acid palmitic acid ester. L-ascorbic acid palmitic acid ester, hyaluronic acid (present invention), L-ascorbic acid palmitic acid ester alone (Comparative Example 1), L-ascorbic acid and hyaluronic acid (Comparative Example 2), L-ascorbic acid alone (Comparative Example) 3) It is a graph which shows the change of the blood L-ascorbic acid density | concentration of the administered guinea pig.

The L-ascorbic acid preparation of the present invention is a preparation containing L-ascorbic acid fatty acid ester and hyaluronic acid.
The L-ascorbic acid fatty acid ester used in the present invention is obtained by condensing various fatty acids at the C6 position of L-ascorbic acid. As such a fatty acid ester of L-ascorbic acid, JP-A-5-208968 discloses a product obtained by condensing a saturated or unsaturated linear or branched fatty acid having 2 to 38 carbon atoms. Yes. Moreover, the manufacturing method is also disclosed and it can manufacture based on this description. In the present invention, a linear saturated fatty acid ester having about 6 to 22 carbon atoms is preferred. Moreover, what is marketed can also be used. Examples of commercially available L-ascorbic acid fatty acid esters include L-ascorbic acid stearic acid ester (food additive) and L-ascorbic acid palmitic acid ester (food additive). In particular, in the present invention, L-ascorbyl palmitate is preferably used.

  Hyaluronic acid used in the present invention is a water-holding polysaccharide having a structure in which disaccharide units of N-acetylglucosamine and glucuronic acid (GlcNAcβ1-4GlcAβ1-3) are linked. It is extremely high molecular weight and is said to have a molecular weight of 1 million or more. Unlike other glycosaminoglycans such as chondroitin sulfate, it does not bind to sulfate groups and does not bind to core protein called core protein. Usually, those isolated from chicken crowns, umbilical cords, etc. are readily available. Hyaluronic acid produced by microorganisms can also be used. In order to obtain the effects of the present invention, the molecular weight of hyaluronic acid is preferably 100,000 or more, and particularly preferably 200 to 500,000.

  A pharmaceutically acceptable carrier can be blended with the preparation of the present invention as long as the properties required by the target preparation are not impaired. Examples of the pharmaceutically acceptable carrier include oily components, lubricants, excipients, binders, disintegrants and the like. Further, an appropriate amount of additives such as a sweetening agent, a sour agent, a flavoring agent, a coloring agent, and a pigment may be appropriately contained.

  Examples of the oil component include various fatty acid esters, hydrocarbons, higher fatty acids, higher alcohols and the like. Examples of the lubricant include magnesium stearate, stearic acid, sodium stearyl fumarate, sucrose fatty acid ester, polyethylene glycol (macrogol), talc and the like.

  As binders, hydroxypropylcellulose, hydroxypropylmethylcellulose, methylcellulose, gelatin, starch, dextrin, gum arabic, sodium alginate, tragacanth, purified gelatin, polyvinyl alcohol, polyvinylpyrrolidone, methylcellulose, polyvinyl alcohol (partially saponified product), ethylcellulose, Examples include pullulan and polyethylene glycol (macrogol).

  Disintegrants include carboxymethylcellulose calcium (carmellose calcium), carboxymethylcellulose sodium (croscarmellose sodium), low-substituted hydroxypropylcellulose, carboxymethylcellulose, carboxymethylstarch sodium, cross-linked carboxymethylcellulose sodium (croscarmellose sodium) Examples thereof include powdered cellulose, cellulose or derivatives thereof, cross-linked polyvinyl pyrrolidone (crospopidone), starch, carboxymethyl starch, hydroxypropyl starch, agar and the like.

  Excipients include polysaccharides such as crystalline cellulose, sodium alginate, xanthan gum, pregelatinized starch, hydroxypropyl starch, corn starch, potato starch and other derivatives, sucrose, glucose, xylitol, erythritol, sorbitol, lactitol, Sugars and sugar alcohols such as trehalose, palatinose, palatinose (reduced palatinose), mannitol, maltitol, lactitol, lactose, fructose, powdered reduced maltose starch syrup, cellulose such as powdered cellulose, partially pregelatinized starch, ethylcellulose and derivatives thereof, light Silicic anhydride, titanium oxide, aluminum hydroxide gel, synthetic aluminum silicate, aluminum trisilicate, silicon dioxide, kaolin, cocoa butter, citric acid or its salt, stearic acid Or the salt, calcium hydrogenphosphate, sodium hydrogenphosphate, etc. can be illustrated.

  Examples of the sweetener include aspartame, acesulfame potassium, saccharin sodium, sucralose, stevia, thaumatin and the like. Examples of the sour agent include citric acid, succinic acid, tartaric acid, malic acid, fumaric acid and the like. Examples of the flavoring agent include monoterpenes such as menthol, camphor, borneol and limonene, and various fragrances.

The dosage form of the various preparations relating to the preparation containing the L-ascorbic acid fatty acid ester and hyaluronic acid of the present invention is not particularly limited, and can be appropriately selected depending on the dosage form. In the case of oral administration, tablets, capsules, granules, powders, fine granules, liquids, syrups, tablets, chewing tablets, or drops are included.
Moreover, there is no restriction | limiting in particular in the manufacturing method of the formulation of this invention, The manufacturing method and manufacturing apparatus of a well-known formulation can be selected according to a final formulation.

  The preparation of the present invention contains 0.1 to 10 parts by mass, preferably 0.5 to 5 parts by mass of hyaluronic acid per 1 part by mass of L-ascorbic acid fatty acid ester. L-ascorbic acid preparation excellent in

  When ingesting the L-ascorbic acid fatty acid ester and hyaluronic acid-containing preparation of the present invention for the purpose of strengthening vitamin C, the concentration of L-ascorbic acid in the blood can be stabilized by ingesting it once or twice a day. Can be maintained.

Examples Hereinafter, the present invention will be described more specifically based on examples and test examples, but the present invention is not limited thereto.

Example 1
<Production of L-ascorbic acid fatty acid ester and hyaluronic acid-containing preparation>
(1) Raw material 1) L-ascorbic acid palmitic acid ester (manufactured by DSM Nutrition Japan)
2) Hyaluronic acid: average molecular weight 200,000 to 500,000 (manufactured by Kewpie Corporation)
3) Crystalline cellulose cell powder (Asahi Kasei Chemicals Corporation)
4) Hard capsule made of hydroxypropylmethylcellulose (manufactured by Capsugel Japan)
(2) Production method 47 parts by mass of L-ascorbic acid palmitic acid ester, 20 parts by mass of hyaluronic acid, and 113 parts by mass of crystalline cellulose powder were powder-mixed, and then this mixture was filled into capsules so as to be 180 mg per capsule.
This capsule contains 20 mg in terms of L-ascorbic acid (vitamin C).

Example 2
<L-ascorbic acid dissolution test using capsules>
(1) Test sample An elution test was performed using the L-ascorbic acid-containing capsule preparation prepared in Example 1. As a comparative control, the following capsule preparation prepared in the same manner as in Example 1 was used.
Comparative Example 1: 20 parts by mass of L-ascorbic acid and 160 parts by mass of crystalline cellulose powder.
Comparative Example 2: L-ascorbic acid palmitate 47 parts by mass, crystalline cellulose powder 133 parts by mass.
Comparative Example 3: 20 parts by mass of L-ascorbic acid, 20 parts by mass of hyaluronic acid, 140 parts by mass of crystalline cellulose powder.
Each comparative example contains 20 mg per capsule as L-ascorbic acid.

(2) Test method The dissolution test of the capsule preparations of Example 1 and Comparative Examples 1 to 3 was performed under the following conditions according to the dissolution test method of the Japanese Pharmacopoeia.
・ Tester: Elution tester Toyama Sangyo NTR-6100A
Detector Shimadzu UV-1800
Test liquid: Purified water (surfactant TWEEN 80 0.2%, ascorbic acid stabilizer 0.05% metharic acid)
-Temperature: adjusted to 37 ° C.
Measurement absorption wavelength: 254 nm (maximum absorption of ascorbic acid)
・ Paddle rotation speed: 50rpm
・ Elution observation time: Continuous observation for 12 hours

(3) Results FIG. 1 shows the results of an elution test for L-ascorbic acid measured over time. The preparation of Comparative Example 1 consisting of L-ascorbic acid and crystalline cellulose was quickly eluted, and the entire amount was eluted in the test solution in about 10 minutes. Further, most of the preparation of Comparative Example 3 comprising L-ascorbic acid, hyaluronic acid and crystalline cellulose powder eluted after 3 hours.
Further, Comparative Example 2 composed of L-ascorbic acid palmitic acid ester and crystalline cellulose powder was gradually eluted, about 50% was eluted after 3 hours, and 90% or more was eluted after 12 hours. On the other hand, in the preparation of Example 1, L-ascorbic acid was hardly eluted until 3 hours after the start of the test and then gradually eluted, but remained in the preparation without being eluted after 12 hours.
From the above test results, it was found that when L-ascorbic acid palmitic acid ester and hyaluronic acid were used in combination, elution of L-ascorbic acid was delayed and a sustained-release preparation was obtained. That is, the preparation of Example 1 was considered to release L-ascorbic acid palmitate in the small intestine through the stomach.

Example 3
<Absorption and blood concentration change test using animals>
(1) Test sample 470 mg of L-ascorbic acid palmitate (hereinafter referred to as AP) corresponding to 10 tablets of Example 1 was dissolved and suspended in 2 ml of an aqueous solution containing 1% by mass of hyaluronic acid (product of the present invention). , L-ascorbic acid palmitic acid ester 470 mg dissolved and suspended in 2 ml of water (Comparative Example 1), L-ascorbic acid 200 mg dissolved and suspended in 2 ml of an aqueous solution containing 2% by mass of hyaluronic acid (Comparative Example 2), L -A sample in which 200 mg of ascorbic acid was dissolved and suspended in 2 ml of water (Comparative Example 3) was prepared, this was administered to an animal, blood was collected after a certain period of time, and the blood concentration of L-ascorbic acid was measured to -The absorbability of ascorbic acid was evaluated.

(2) Test method 1) Experimental animal: Hartley guinea pig (7-week-old male), weighing 300 to 450 grams, 4 in each group.
2) Animal breeding: For experimental animals, carry them in at least one week before the start of the experiment and conduct habituation breeding. Take measures to prevent food droppings during breeding. Fast from 24 hours before the start of administration.
3) Administration method: Forced oral administration using a sonde 4) Blood collection method: After puncture of the hindlimb vein, about 150 μL is collected with a heparin-coated capillary tube.
5) Blood collection points: 7 points 0, 1, 2, 4, 8, 12, 24 hours after administration 6) Blood treatment method The obtained blood is centrifuged (5000 rpm, 10 min, 4 ° C.) to collect plasma.
II. Four times the amount of 20% metaphosphoric acid is added to the plasma, stirred, and then centrifuged (10000 g, 15 min, 4 ° C.).
III. The supernatant is transferred to a separate tube and stored frozen at -20 ° C or lower until measurement.
7) L-ascorbic acid analysis:
L-ascorbic acid is measured by the DNPH method using a vitamin C quantification kit (SHIMA Laboratories Co., LTD: Cosmo Bio).

(3) Results The measurement results are shown in FIG.
In the case of L-ascorbic acid alone (Comparative Example 3), the blood concentration shows the maximum value after 1 hour, and then decreases rapidly. On the other hand, L-ascorbic acid palmitate is gently absorbed, reaches a peak after 8 hours, and then gradually decreases (Comparative Example 1). In this case, the half-life of L-ascorbic acid alone is about 6 hours, whereas the half-life of L-ascorbic acid palmitate and hyaluronic acid is 15 hours or more. Can be read.
In addition, when L-ascorbyl palmitate and hyaluronic acid were administered, the intermediate behavior of Comparative Example 1 and Comparative Example 3 was exhibited, and the blood concentration reached the maximum after 4 to 5 hours, and then 24 hours later. Gradually declined. Moreover, AUC rose by 352.7% or more to 582.7, while Comparative Example 1 was 428.2.
From the results of this test, it was revealed that the combined use of L-ascorbyl palmitate and hyaluronic acid increased the blood concentration of L-ascorbic acid and the half-life. Therefore, it was clarified that the preparation of the constitution of the present invention improves both the absorption rate and the sustainability.

Claims (3)

An oral preparation containing 0.1 to 10 parts by mass of high molecular hyaluronic acid having an average molecular weight of 200,000 to 500,000 per 1 part by mass of L-ascorbyl palmitate.   The oral preparation according to claim 1, which is a liquid preparation. The oral preparation according to claim 1, which is a tablet or a capsule.