JPH06256193A - Oral sustained release preparation of danazol - Google Patents
Oral sustained release preparation of danazolInfo
- Publication number
- JPH06256193A JPH06256193A JP3017793A JP3017793A JPH06256193A JP H06256193 A JPH06256193 A JP H06256193A JP 3017793 A JP3017793 A JP 3017793A JP 3017793 A JP3017793 A JP 3017793A JP H06256193 A JPH06256193 A JP H06256193A
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- Prior art keywords
- danazol
- granules
- enteric
- gastric
- soluble
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Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、初回通過効果の高いス
テロイド剤であるダナゾ−ル(化学名:17α−プレグ
ナ−2,4−ジエン−20−イノ[2,3−d]イソキ
サゾール−17−オール)の経口投与可能な持続性製剤
に関する。FIELD OF THE INVENTION The present invention relates to danazol (chemical name: 17α-pregna-2,4-diene-20-ino [2,3-d] isoxazole-17, which is a steroid drug having a high first-pass effect. -Ol) orally administrable sustained release formulation.
【0002】[0002]
【従来の技術】ダナゾールは、下垂体前葉でのゴナドト
ロピン分泌抑制とそれに基づく卵巣でのエストロゲン産
生低下を主な作用機序とし、もっぱら子宮内膜症治療の
経口剤として市販されている薬物であり、経口製剤とし
ての吸収性または生物学的利用率を改善する技術に関し
ては、特開昭61−1613号公報、特開平01−28
7094号公報、特開平02−42020号公報、特開
平02−282330号公報あるいは特開平04−14
9132号公報に報告がなされている。しかしながら、
何れの場合も持続性は認められていない。BACKGROUND OF THE INVENTION Danazol is a drug marketed mainly as an oral agent for the treatment of endometriosis, whose main mechanism of action is suppression of gonadotropin secretion in the anterior pituitary gland and the resulting decrease in estrogen production in the ovary. Regarding techniques for improving absorption or bioavailability as an oral preparation, JP-A-61-1613 and JP-A-01-28
7094, JP 02-42020, JP 02-283230, or JP 04-14.
It is reported in Japanese Patent No. 9132. However,
No persistence was observed in either case.
【0003】一方,持続性経口投与剤としては、マトリ
ックスを通して主薬を徐々に放出させる製剤や複放出型
の製剤が知られ、例えば、US4783337−Aには
浸透圧を利用した薬物放出制御製剤が記載されている。
しかしながら,ダナゾールを用いた経口用持続性製剤
は、未だ知られていない。On the other hand, as sustained oral administration agents, preparations for gradually releasing the main drug through the matrix and multiple-release preparations are known. For example, US Pat. No. 4,783,337-A describes a drug release controlling preparation using osmotic pressure. Has been done.
However, an oral sustained-release preparation using danazol is not yet known.
【0004】[0004]
【発明が解決しようとする課題】現在、臨床で使用され
ているダナゾ−ル製剤は経口の速放錠またはカプセル剤
であり、1日量200〜400mgで、1日に2回服用
しなければならない。また、本薬剤は作用を発現するま
で少なくとも4カ月継続して服用しなければならず、長
期間の服用による煩わしさと共に、コンプライアンスの
低下が問題となっている。The danazol preparations currently used clinically are oral immediate release tablets or capsules, and the daily dose is 200 to 400 mg, which must be taken twice a day. I won't. In addition, this drug must be continuously taken for at least 4 months until its action is exhibited, and there is a problem that compliance is deteriorated as well as bothersome due to long-term administration.
【0005】市販のダナゾ−ル製剤(商品名:ボンゾ−
ルカプセル、東京田辺製薬株式会社)について、第12
改正日本薬局方(一般試験法51項、B、458)に準
拠した溶出試験を行ったところ、ダナゾ−ルを75%溶
出する時間(以下、T75%という。)は30分未満であ
り持続性を示さなかった。また、この製剤を経口投与し
た場合の生物学的半減期(T1/2)はイヌで1時間、ヒ
トで3.3時間であり、持続性は認められなかった。Commercially available dansole preparation (trade name: Bonzo-
Le Capsule, Tokyo Tanabe Seiyaku Co., Ltd.)
When an elution test was conducted according to the revised Japanese Pharmacopoeia (general test method 51, B, 458), the time for elution of 75% of danazol (hereinafter referred to as T 75% ) was less than 30 minutes and continued. Showed no sex. In addition, the biological half-life (T 1/2 ) of this preparation when administered orally was 1 hour in dogs and 3.3 hours in humans, and persistence was not observed.
【0006】ダナゾ−ルは難溶性で、初回通過効果が高
く、生物学的相対利用率はイヌで約3%と低いことか
ら、持続性を持たせるには、服用回数の増加や服用量の
増量等が考えられ、それに伴う副作用が懸念された。[0006] Danazol is poorly soluble, has a high first-pass effect, and has a low relative bioavailability of about 3% in dogs. Therefore, in order to maintain its durability, the number of doses and the dose should be increased. The dose may be increased, and there was a concern about the side effects.
【0007】従って、本発明は、子宮内膜治療薬物であ
るダナゾ−ルの経口用持続性製剤を提供することを目的
とする。Therefore, an object of the present invention is to provide an oral sustained-release preparation of danazol, a drug for treating endometrial cells.
【0008】持続性製剤の具備すべき条件としては、速
放性製剤に比べて1日の服用回数が少ないこと、最高血
中濃度(以下Cmaxという。)が速放性製剤と同程度
であること、薬物の有効血中濃度を長時間維持するこ
と、生物学的利用率が高いこと、長期間保存しても物理
的化学的に安定であり放出性に変動が少ないこと、及び
服用しやすい大きさの剤形であること等が挙げられる。As conditions for the sustained-release preparation, the number of doses per day is smaller than that of the immediate-release preparation, and the maximum blood concentration (hereinafter referred to as Cmax) is similar to that of the immediate-release preparation. That the effective blood concentration of the drug is maintained for a long period of time, that the bioavailability is high, that it is physically and chemically stable even after storage for a long period of time, its release is stable, and it is easy to take. Examples include a dosage form having a size.
【0009】ダナゾ−ル持続性製剤を得るために、放出
が時間に依存する、例えば、マトリックス型とした場合
と、放出がpHの変化に依存して起こる、例えば、複合
顆粒型及び有核型を想定して検討したが、前者の場合は
in vitroで持続性を示しても生物学的相対利用
率が低くなり,また後者の場合はその溶解性がpH依存
性を示し、in vivoで血中濃度の立ち上がりにラ
グタイムが認められるにもかかわらず生物学的相対利用
率が低くなり、あるいは血中濃度推移のバラツキが大き
くなり、満足できる結果は得られなかった。In order to obtain a danazol sustained-release preparation, the release is time-dependent, for example, in the case of matrix type, and the release occurs depending on the change of pH, for example, complex granular type and nucleated type. However, in the case of the former, the relative bioavailability was low even if it was persistent in vitro, and in the case of the latter, its solubility was pH-dependent, and Satisfactory results could not be obtained because the relative bioavailability was low or the variation in blood concentration was large, although lag time was observed at the rise of the medium concentration.
【0010】[0010]
【課題を解決するための手段】本発明者らは、上記の問
題点に鑑み、ダナゾ−ル持続性製剤について鋭意研究を
行なったところ、吸収改善したダナゾール組成物を用い
て素顆粒(胃溶性顆粒)を製造し、さらにこの顆粒に腸
溶性剤皮を施し、これらの胃溶性顆粒と腸溶性顆粒を配
合することにより調製した複合顆粒剤が、溶出試験で優
れた放出性を示し、イヌの血中動態においても良好な持
続性を示すことを見出し、本発明を完成させた。[Means for Solving the Problems] In view of the above problems, the present inventors have conducted diligent research on a danazol sustained-release preparation. As a result, a danazol composition with improved absorption was used to produce elementary granules (stomach-soluble). Granules) were produced, and the granules were coated with an enteric coating, and the composite granules prepared by mixing these gastric and enteric coated granules showed excellent release in the dissolution test, and The present invention has been completed by finding that it also exhibits good sustainability in blood kinetics.
【0011】本発明の複合顆粒型持続性製剤はダナゾー
ルを50〜400mg、好ましくは100〜200mg
を含み、腸溶性顆粒は素顆粒に対して腸溶性基剤を3〜
30%含有することが好ましい。腸溶性基剤としてはオ
イドラギット(レーム・ファーマ社製:メタアクリル酸
メチル・メタアクリル酸ブチル・メタアクリル酸ジメチ
ルアミノエチル・コポリマー、メタアクリル酸・アクリ
ル酸エチル・コポリマー、メタアクリル酸・メタアクリ
ル酸メチル・コポリマー)、Aqoat(信越化学社
製:ヒドロキシプロピルメチルセルロースアセテートサ
クシネート)またはHPMCP(信越化学社製:ヒドロ
キシプロピルメチルセルロースフタレート)が挙げられ
る。The complex granule type sustained-release preparation of the present invention contains danazol in an amount of 50 to 400 mg, preferably 100 to 200 mg.
The enteric coated granules contain the
It is preferable to contain 30%. As an enteric base, Eudragit (manufactured by Rohm Pharma: methyl methacrylate / butyl methacrylate / dimethylaminoethyl methacrylate copolymer, methacrylic acid / ethyl acrylate copolymer, methacrylic acid / methacrylic acid) Methyl copolymer), Aquot (manufactured by Shin-Etsu Chemical Co., Ltd .: hydroxypropylmethylcellulose acetate succinate) or HPMCP (manufactured by Shin-Etsu Chemical Co., Ltd .: hydroxypropylmethylcellulose phthalate).
【0012】本発明持続性製剤は,必要に応じて、胃溶
性顆粒にヒドロキシプロピルメチルセルロース(HPM
C),ヒドロキシプロピルセルロース(HPC)等の胃
溶性フィルムコーティング基剤を用いて、剤皮を施すこ
とが出来る。あるいは、胃溶性及び腸溶性剤皮に通常医
薬用に使用されている色素を添加することが出来る。更
に、本発明持続性製剤は、気密瓶中、高温・高湿の条件
で長期間保存してもダナゾールの分解物が生ぜず、放出
性も変化せず、保存安定性も良好であり、極めて優れた
ダナゾール持続性製剤である。The sustained-release preparation of the present invention contains hydroxypropylmethyl cellulose (HPM) in gastric soluble granules, if necessary.
C), a gastrosoluble film coating base such as hydroxypropyl cellulose (HPC) can be used to apply the coating. Alternatively, a dye usually used for medicine can be added to the gastric and enteric coatings. Furthermore, the sustained-release preparation of the present invention does not produce a decomposition product of danazol even if it is stored in an airtight bottle at high temperature and high humidity for a long period of time, does not change the release property, and has good storage stability. Excellent long-acting danazol preparation.
【0013】本発明を実験例並びに実施例によって説明
する。The present invention will be described with reference to experimental examples and examples.
【0014】[方法] 1)溶出試験 第12改正日本薬局方の溶出試験方法を準用し、溶出液
に界面活性剤を含有した0.1N塩酸溶液(pH1.
2)または界面活性剤を含有したリン酸緩衝液(pH
7.0又はpH8.0)900mlを用い、ダナゾ−ル
として100mgまたは、200mg相当の試料を添加
し、パドル法にて100rpmで試験した。溶出液中の
ダナゾール量の測定は吸光度法にて行った。[Method] 1) Dissolution test The dissolution test method of the 12th revised Japanese Pharmacopoeia was applied correspondingly, and a 0.1N hydrochloric acid solution (pH 1.
2) or a phosphate buffer containing a surfactant (pH
Using 900 ml of 7.0 or pH 8.0, 100 mg or 200 mg of a sample corresponding to danazol was added, and a test was conducted at 100 rpm by the paddle method. The amount of danazol in the eluate was measured by the absorbance method.
【0015】2)血液中のダナゾ−ル濃度の測定 ダナゾ−ルとして100mgまたは200mg相当をイ
ヌに経口投与して静脈から一定量採血した後、血漿中の
ダナゾ−ル量を高速液体クロマトグラフ法により微量分
析した。2) Measurement of the concentration of danazol in blood After the oral administration of 100 mg or 200 mg of danazol to dogs and collecting a certain amount of blood from the vein, the amount of danazol in plasma was measured by high performance liquid chromatography. Microanalysis by.
【0016】3)保存安定性 40℃、75%、6箇月間保存した試料について、性
状、分解物の有無及び放出性を検討した。性状は日局の
試験方法に従って肉眼で観察した。分解物の有無の確認
は薄層クロマトグラフ法(TLC)を採用し、薄層板は
シリカゲルを、展開溶媒はシクロヘキサン:酢酸エチル
混液(3:2)を用いた。3) Storage stability The properties, presence / absence of decomposed products, and releasability of the samples stored at 40 ° C. and 75% for 6 months were examined. The properties were visually observed according to the Japanese test method. Thin layer chromatography (TLC) was used to confirm the presence or absence of decomposed products, silica gel was used for the thin layer plate, and cyclohexane: ethyl acetate mixed liquid (3: 2) was used as the developing solvent.
【0017】[実験例1] ダナゾール150g,ショ
糖ステアリン酸エステル15g,カルボキシメチルセル
ロースカルシウム(製品名:ECG505)25g,結
晶セルロース(製品名:アビセル)25g,HPC−L
20g,乳糖265gを混合し、練合水130mlを
添加して練合し、バスケットの穴が1mmの押し出し造
粒機を用いて造粒した後、マルメライザーを用いて重質
化し、50°で乾燥して16〜32メッシュの粒度の素
顆粒(胃溶性顆粒1)を得た。[Experimental Example 1] Danazol 150 g, sucrose stearate 15 g, carboxymethyl cellulose calcium (product name: ECG505) 25 g, crystalline cellulose (product name: Avicel) 25 g, HPC-L
20 g and lactose 265 g were mixed, and kneading was carried out by adding 130 ml of kneading water, and after granulating using an extrusion granulator having a basket hole of 1 mm, it was made heavy using a marumerizer, and at 50 ° It was dried to obtain elementary granules having a particle size of 16 to 32 mesh (stomach-soluble granule 1).
【0018】[実験例2] ダナゾール10部をエタノ
ール420部に溶解した後、これを予め精製水1200
部にショ糖ステアリン酸エステル1部を添加し、冷却し
ておいた調製液に、撹拌しながら滴下した後,この懸濁
液を噴霧乾燥し、ダナゾール組成物を得た。[Experimental Example 2] After dissolving 10 parts of danazol in 420 parts of ethanol, it was previously dissolved in purified water 1200.
1 part of sucrose stearate was added to the mixture, and the mixture was added dropwise to the cooled preparation solution with stirring, and then the suspension was spray-dried to obtain a danazol composition.
【0019】ダナゾール組成物165g,ECG505
25g,アビセル25g,HPC−L 20g,乳糖
265gを混合し、練合水130mlを添加して練合
し、バスケットの穴が1mmの押し出し造粒機を用いて
造粒した後、マルメライザーを用いて重質化し、50°
で乾燥して16〜32メッシュの粒度の素顆粒(胃溶性
顆粒2)を得た。Danazol composition 165 g, ECG 505
25 g, Avicel 25 g, HPC-L 20 g, and lactose 265 g were mixed, and kneading was performed by adding 130 ml of kneading water, and after granulating using an extrusion granulator having a basket hole of 1 mm, a Marumerizer was used. And heavier, 50 °
Then, it was dried to obtain elementary granules (stomach-soluble granules 2) having a particle size of 16 to 32 mesh.
【0020】[実験例3] オイドラギットL100
7部,ポリエチレングリコール6000 0.7部,タ
ルク3.5部をエタノール70部及び精製水18.8部
の混合溶液に溶解し、流動造粒コーティング装置を用い
て固形分濃度として、10%を先の胃溶性顆粒1と胃溶
性顆粒2にコーティングし、腸溶性顆粒1と腸溶性顆粒
2を得た。[Experimental Example 3] Eudragit L100
7 parts, 0.7 parts of polyethylene glycol 6000 and 3.5 parts of talc were dissolved in a mixed solution of 70 parts of ethanol and 18.8 parts of purified water, and a solid content concentration of 10% was obtained using a fluidized granulation coating apparatus. The above-mentioned gastric-soluble granules 1 and 2 were coated to obtain enteric-coated granules 1 and enteric-coated granules 2.
【0021】[0021]
【表1】 [Table 1]
【0022】これらの試料(表1)について溶出試験を
した結果、pH1.2の溶出試験溶液では腸溶性顆粒
1,腸溶性顆粒2からダナゾールは溶出せず,一方、胃
溶性顆粒2は、胃溶性顆粒1の溶出パターンよりはるか
に溶出速度は速くなり、溶出性が改善された(表2)。As a result of the dissolution test for these samples (Table 1), in the dissolution test solution of pH 1.2, danazol was not eluted from enteric-coated granule 1 and enteric-coated granule 2, while gastric-soluble granule 2 was The dissolution rate was much faster than that of soluble granule 1 and the dissolution property was improved (Table 2).
【0023】[0023]
【表2】 [Table 2]
【0024】pH7における腸溶性顆粒2の溶出性は、
腸溶性顆粒1と同様、剤皮が溶解するまでラグタイムが
見られるが、腸溶性顆粒1よりはるかに溶出速度は速く
なり,溶解度も改善され,しかも、胃溶性顆粒1の溶出
速度及び溶出量に比べて、著しく改善された(表3)。The dissolution property of enteric coated granules 2 at pH 7 is
Similar to enteric-coated granule 1, lag time is seen until the skin is dissolved, but the dissolution rate is much faster than enteric-coated granule 1 and the solubility is improved, and the dissolution rate and amount of gastric-soluble granule 1 are improved. It was significantly improved as compared with (Table 3).
【0025】[0025]
【表3】 [Table 3]
【0026】更に、胃溶性顆粒1,胃溶性顆粒2及び腸
溶性顆粒1,腸溶性顆粒2について、ビーグル犬に経口
投与し、血中濃度の挙動を検討した結果、胃溶性顆粒
2,腸溶性顆粒1,腸溶性顆粒2の薬物速度論的パラメ
ータは,胃溶性顆粒1よりCmaxはそれぞれ2倍,
0.2倍,0.9倍、血中濃度下面積AUCは2.9
倍,0.3倍,0.9倍となり、またTmaxは1.5
倍,1.9倍,1.8倍と遅くなり、胃溶性顆粒2及び
腸溶性顆粒2は良好な生物学的利用性を示し、腸溶性顆
粒1では著しく利用率が低かった(表4)。Furthermore, gastric-soluble granule 1, gastric-soluble granule 2 and enteric-coated granule 1, enteric-coated granule 2 were orally administered to beagle dogs and the behavior of blood concentration was examined. The pharmacokinetic parameters of granule 1 and enteric-coated granule 2 were as follows:
0.2 times, 0.9 times, area under blood concentration AUC is 2.9
Times, 0.3 times, 0.9 times, and Tmax is 1.5
2 times, 1.9 times, and 1.8 times slower, gastric-soluble granule 2 and enteric-coated granule 2 showed good bioavailability, and enteric-coated granule 1 had a significantly low utilization rate (Table 4). .
【0027】[0027]
【表4】 [Table 4]
【0028】このように、吸収改善された素顆粒に腸溶
性剤皮を施すことにより、通常の胃溶性顆粒と同等の生
物学的利用率が得られ、しかも、Tmaxの遅延をもた
らし、放出がpH依存的に繰り返される顆粒に、初めて
なりうることを見いだした。胃溶性顆粒2及び腸溶性顆
粒2を気密瓶に入れ、保存安定性(40℃、湿度75
%、6か月間)を検討したところ、いずれの試料も性状
に変化が見られず、分解物も認められず(表5)、ま
た、T75%に変化が認められず、極めて安定な製剤であ
ることを確認した。As described above, by applying enteric coating to the granules with improved absorption, the bioavailability equivalent to that of the normal gastric-soluble granules can be obtained, and further, the Tmax is delayed and the release is suppressed. It has been found for the first time that the granules repeat in a pH-dependent manner. Put gastric-soluble granules 2 and enteric-coated granules 2 in an airtight bottle and store them at a storage stability (40 ° C, humidity of 75).
%, For 6 months), no change was observed in the properties of any of the samples, no degradation products were observed (Table 5), and no change was observed in T 75% , indicating an extremely stable formulation. Was confirmed.
【0029】[0029]
【表5】 [Table 5]
【0030】[0030]
[実施例1] 表1に示した胃溶性顆粒1と腸溶性顆粒
2を3:7,7:3あるいは胃溶性顆粒2と腸溶性顆粒
2を3:7,5:5,7:3の比率で混合し、複合顆粒
剤を調製した。[Example 1] Gastric-soluble granules 1 and enteric-coated granules 2 shown in Table 1 were 3: 7, 7: 3 or gastric-soluble granules 2 and enteric-coated granules 2 were 3: 7, 5: 5, 7: 3. Mixed in a ratio to prepare a composite granule.
【0031】ダナゾールとして100mgになるように
調製した各複合顆粒剤をイヌに投与し、血中濃度の挙動
を検討したところ、胃溶性顆粒1及び吸収改善した腸溶
性顆粒2を用いた複合顆粒剤の場合には持続性を示さな
いのに比べ、吸収改善した胃溶性顆粒2及び吸収改善し
た腸溶性顆粒2を用いた複合顆粒剤は持続性製剤の特徴
を示した(表6)。Each composite granule prepared to 100 mg as danazol was administered to dogs, and the behavior of blood concentration was examined. As a result, a composite granule using gastric-soluble granule 1 and enteric-coated granule 2 with improved absorption was obtained. In contrast, in the case of No. 3, the absorption-improved gastric-soluble granules 2 and the complex granules using the absorption-improved enteric-coated granules 2 exhibited the characteristics of a sustained-release preparation (Table 6).
【0032】[0032]
【表6】 [Table 6]
【0033】また、イヌの血中濃度パラメーターから本
持続性製剤複合顆粒剤では1回100mgの服用で、通
常の顆粒の2倍のAUC及び2.5倍の有効濃度維持時
間を示し、通常の持続性製剤は200mgになるところ
を、半量で済み、投与量の減量にもつながり、良好な持
続性製剤である。From the blood concentration parameters of dogs, the sustained-release composite granules of the present invention showed a 2-fold AUC and 2.5-fold effective concentration maintenance time of the usual granules when the dose of 100 mg was taken once. The sustained-release preparation required a half dose of 200 mg, leading to a reduction in the dose, which is a good sustained-release preparation.
【0034】[実施例2] 実験例3と同様の方法で、
胃溶性顆粒2に固形分濃度として30%コーティングし
た腸溶性顆粒3を得た。胃溶性顆粒2及び腸溶性顆粒3
をそれぞれのダナゾール比率が3:7になるように量っ
た後、よく混合し、この複合顆粒から更にダナゾールと
して200mgになるように秤量、分包し、持続性製剤
を調製した。Example 2 In the same manner as in Experimental Example 3,
Enteric coated granules 3 were obtained by coating gastric soluble granules 2 with a solid content of 30%. Gastric soluble granule 2 and enteric soluble granule 3
Were weighed so that the respective danazol ratio was 3: 7, mixed well, and further weighed and packaged to 200 mg as danazol from the composite granules to prepare a sustained-release preparation.
【0035】[実施例3] 実験例3のオイドラギット
L100に代えて、オイドラギットS100を用い、同
様の操作で、胃溶性顆粒2に固形分濃度として20%を
コーティングした腸溶性顆粒4を得た。胃溶性顆粒2及
び腸溶性顆粒4をそれぞれのダナゾール比率が4:6に
なるように量った後、よく混合し、この複合顆粒から更
にダナゾールとして100mgになるように秤量、分包
し、持続性製剤を調製した。[Example 3] In place of Eudragit L100 of Experimental Example 3, Eudragit S100 was used, and by the same operation, enteric coated granules 4 obtained by coating gastric soluble granules 2 with a solid content concentration of 20% were obtained. Stomach-soluble granules 2 and enteric-coated granules 4 were weighed so that the respective danazol ratio was 4: 6, mixed well, and the composite granules were further weighed and packaged to 100 mg as danazol, and continuously A sex preparation was prepared.
【0036】[実施例4] 実験例2のダナゾール組成
物165g,ECG505 25g,アビセル25g,
HPC−L 20g,乳糖65gを混合し,練合水10
0mlを添加して練合し、バスケットの穴が1mmの押
し出し造粒機を用いて造粒した後,マルメライザーを用
いて重質化し、50°で乾燥して16〜32メッシュの
粒度の素顆粒(胃溶性顆粒3)を得た。Example 4 165 g of the danazol composition of Experimental Example 2, 25 g of ECG505, 25 g of Avicel,
20g of HPC-L and 65g of lactose are mixed, and kneading water 10
After adding 0 ml and kneading, granulating using an extrusion granulator with a hole in the basket of 1 mm, it was made heavy using a marumerizer, dried at 50 ° and dried to a particle size of 16-32 mesh. Granules (gastric soluble granules 3) were obtained.
【0037】冷却した水にクエン酸トリエチル3部を溶
解し、次いでAquat微粉末(グレードAS−M)1
0部及びタルク3部を分散し、最終的に水を加えて10
0部としたコーティング用液を用い、胃溶性顆粒3に固
形分濃度として25%コーティングし、腸溶性顆粒5を
得た。3 parts of triethyl citrate were dissolved in chilled water, then Aquat fine powder (grade AS-M) 1
Disperse 0 parts and 3 parts of talc, and finally add water to add 10 parts.
Gastric-soluble granules 3 were coated with 25% as a solid content concentration using 0 part of the coating solution to obtain enteric-coated granules 5.
【0038】胃溶性顆粒3及び腸溶性顆粒5をそれぞれ
のダナゾール比率が4:6になるように量った後、よく
混合し、この複合顆粒から更にダナゾールとして200
mgになるように秤量、分包し、持続性製剤を調製し
た。Gastric-soluble granules 3 and enteric-soluble granules 5 were weighed so that the respective danazol ratio was 4: 6, and mixed well, and the composite granules were further mixed with danazol 200
A continuous preparation was prepared by weighing and packaging so as to have mg.
【0039】[実施例5] 実施例4のAquatのグ
レードAS−MをAS−Hに変えたコーティング用液を
調製し、胃溶性顆粒2に固形分濃度として5%コーティ
ングし、腸溶性顆粒6を得た。[Example 5] A coating solution in which the Aqua grade AS-M of Example 4 was changed to AS-H was prepared, and 5% of gastric-soluble granules 2 was coated as a solid content concentration to prepare enteric-coated granules 6. Got
【0040】胃溶性顆粒2及び腸溶性顆粒6をそれぞれ
のダナゾール比率が3:7になるように量った後、よく
混合し、この複合顆粒から更にダナゾールとして100
mgになるように秤量、分包し、持続性製剤を調製し
た。The gastric-soluble granules 2 and the enteric-coated granules 6 were weighed so that the respective danazol ratio was 3: 7 and mixed well, and the composite granules were further mixed with 100 danazol.
A continuous preparation was prepared by weighing and packaging so as to have mg.
【0041】[実施例6] エタノール54.7部、ジ
クロロメタン27.4部、精製水9.1部に、HPMC
P(HP−55)6.3部、タルク0.9部、酸化チタ
ン1部及びマイバセット0.6部を加えてよく撹拌し、
コーティング用液を調製し、これを用いて胃溶性顆粒2
に固形分濃度として20%コーティングし、腸溶性顆粒
7を得た。[Example 6] HPMC was added to 54.7 parts of ethanol, 27.4 parts of dichloromethane, and 9.1 parts of purified water.
Add 6.3 parts of P (HP-55), 0.9 parts of talc, 1 part of titanium oxide, and 0.6 parts of mybaset and stir well,
Prepare a coating liquid and use it to prepare gastric soluble granules 2
Was coated with 20% as a solid content concentration to obtain enteric coated granules 7.
【0042】胃溶性顆粒3及び腸溶性顆粒7をそれぞれ
のダナゾール比率が4:6になるように量った後、よく
混合し、この複合顆粒から更にダナゾールとして200
mgになるように秤量、分包し、持続性製剤を調製し
た。The gastric-soluble granules 3 and the enteric-coated granules 7 were weighed so that the respective danazol ratio was 4: 6 and mixed well, and the composite granules were further mixed with 200 danazol.
A continuous preparation was prepared by weighing and packaging so as to have mg.
【0043】[実施例7] 実施例6のコーティング用
液を用いて胃溶性顆粒3に固形分濃度として20%コー
ティングし、腸溶性顆粒8を得た。[Example 7] Using the coating solution of Example 6, gastric-soluble granules 3 were coated with 20% as a solid content concentration to obtain enteric-coated granules 8.
【0044】胃溶性顆粒3及び腸溶性顆粒8をそれぞれ
のダナゾール比率が2:8になるように量った後、よく
混合し、この複合顆粒から更にダナゾールとして200
mgになるように秤量、分包し、持続性製剤を調製し
た。The gastric-soluble granules 3 and the enteric-coated granules 8 were weighed so that the respective danazol ratio was 2: 8, and then mixed well to prepare 200 danazol from the composite granules.
A continuous preparation was prepared by weighing and packaging so as to have mg.
Claims (2)
ゾール組成物を用いた胃溶性顆粒と、その胃溶性顆粒に
腸溶性剤皮を施した腸溶性顆粒を混合して得られるダナ
ゾールの経口用持続性複合顆粒製剤1. A continuous oral administration of danazol obtained by mixing gastric-soluble granules using a danazol composition comprising danazol and a surfactant and enteric-coated granules obtained by coating the gastric-soluble granules with an enteric coating. Complex granule formulation
〜7:3である請求項1記載のダナゾール経口用持続性
複合顆粒剤2. The ratio of gastric-soluble granules to enteric-soluble granules is 2: 8.
~ 7: 3 Danazol oral sustained-release complex granules according to claim 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3017793A JPH06256193A (en) | 1993-02-19 | 1993-02-19 | Oral sustained release preparation of danazol |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3017793A JPH06256193A (en) | 1993-02-19 | 1993-02-19 | Oral sustained release preparation of danazol |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH06256193A true JPH06256193A (en) | 1994-09-13 |
Family
ID=12296479
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3017793A Pending JPH06256193A (en) | 1993-02-19 | 1993-02-19 | Oral sustained release preparation of danazol |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH06256193A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2000043041A1 (en) * | 1999-01-22 | 2000-07-27 | Yamanouchi Pharmaceutical Co., Ltd. | Medicinal compositions with improved oral absorption |
WO2003105848A1 (en) * | 2002-06-17 | 2003-12-24 | 興和株式会社 | Controlled-release drug composition |
WO2005053660A3 (en) * | 2003-12-03 | 2005-10-20 | Lifecycle Pharma As | Pharmaceutical compositions comprising danazol |
JP2008024708A (en) * | 2007-08-20 | 2008-02-07 | Euro-Celtique Sa | Controlled release type preparation coated with aqueous dispersion of acrylic polymer and method therefor |
JP2011231121A (en) * | 2011-07-11 | 2011-11-17 | Euro-Celtique Sa | Controlled release preparation coated with aqueous dispersion of acrylic polymer and method therefor |
-
1993
- 1993-02-19 JP JP3017793A patent/JPH06256193A/en active Pending
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2000043041A1 (en) * | 1999-01-22 | 2000-07-27 | Yamanouchi Pharmaceutical Co., Ltd. | Medicinal compositions with improved oral absorption |
WO2003105848A1 (en) * | 2002-06-17 | 2003-12-24 | 興和株式会社 | Controlled-release drug composition |
CN1325053C (en) * | 2002-06-17 | 2007-07-11 | 兴和株式会社 | Controlled-release drug composition |
WO2005053660A3 (en) * | 2003-12-03 | 2005-10-20 | Lifecycle Pharma As | Pharmaceutical compositions comprising danazol |
JP2008024708A (en) * | 2007-08-20 | 2008-02-07 | Euro-Celtique Sa | Controlled release type preparation coated with aqueous dispersion of acrylic polymer and method therefor |
JP2011231121A (en) * | 2011-07-11 | 2011-11-17 | Euro-Celtique Sa | Controlled release preparation coated with aqueous dispersion of acrylic polymer and method therefor |
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