Influence of Internal Structure on Kinetics of Drug Release from Wax Matrix Tablets
スポンサーリンク
概要
- 論文の詳細を見る
To examine the influence of the internal structure of a wax matrix tablet on in vitro drug release, the release rates of several tablets consisting of various proportions of drug and wax were compared with the water penetration rates from the compressed and lateral surfaces of the tablets. The penetration rates from the lateral surface were found to be much faster than those from the compressed surface in all cases. A theoretical equation involving a two-dissolving-direction was derived on the basis of the boundary retreating concept. The retreating rate constants deduced from the dissolution results were well coincident with the values directly determined by the needle penetration method, suggesting good applicability of the proposed equation. The results suggest that the tortuosity of the water channels created in a tablet during dissolution is generally smaller in the horizontal direction than that in the vertical direction. This would be caused by the drug particles or granules being elongated in the horizontal direction by compression.
- 社団法人日本薬学会の論文
- 1990-12-25
著者
-
野田 和夫
Pharmaceutics Research Laboratory, Tanabe Seiyaku Co., Ltd.,
-
吉野 廣祐
Pharmaceutics Research Laboratory Tanabe Seiyaku Co. Ltd.
-
吉野 広祐
田辺製薬
-
平川 善行
Pharmaceutics Research Laboratory Tanabe Seiyaku Co. Ltd.
-
平川 善行
Faculty Of Pharmaceutical Sciences Kyushu University
-
石野 隆三
Pharmaceutics Research Laboratory, Tanabe Seiyaku Co., Ltd.,
-
野田 和夫
Pharmaceutics Research Laboratory Tanabe Seiyaku Co. Ltd.
-
石野 隆三
Pharmaceutics Research Laboratory Tanabe Seiyaku Co. Ltd.
関連論文
- Enhancement of Bioavailability of Dopamine via Nasal Route in Beagle Dogs
- Kinetics of Conversion of Diacetylacetone in Aqueous Solution
- Factors Effecting Spherical Granulation of Drugs by Tumbling Granulation Method
- Estimation of Polymorphic Transition Degree of Pharmaceutical Raw Materials
- Porosity-Controlled Ethylcellulose Film Coating. V. Mechanism of Drug Release from Beads Coated with Porous Ethylcellulose Film
- Porosity-Controlled Ethylcellulose Film Coating. IV. Evaluation of Mechanical Strength of Porous Ethylcellulose Film
- Porosity-Controlled Ethylcellulose Film Coating. III. Application of Porous Ethylcellulose Film Coating to Capsule-Type Controlled Release Preparation of Theophylline
- Porosity-Controlled Ethylcellulose Film Coating. I.Formation of Porous Ethylcellulose Film in the Casting Process and Factors Affecting Film-Density
- Influence of Compression Force on Consolidation Behavior and Drug Release Property of Wax Matrix Tablets
- Influence of Internal Structure on Kinetics of Drug Release from Wax Matrix Tablets
- Influence of Tabletting Speed on Compactibility and Compressibility of Two Direct Compressible Powders under High Speed Compression
- Influence of Fatty Acid Composition on the Properties and Polymorphic Transition of Fatty Suppository Bases
- Influence of the Liquid Phase Coexisting in Fatty Suppository Bases on the Polymorphic Transition Rate
- The Influence of Drugs on the Physical Stability of Fatty Suppositories
- Polymorphic Transition Rate of Semisynthetic Fatty Suppository Bases
- Laser Diffraction Estimation of Particle Size Distribution of Slightly Water-Soluble Drugs Coexisting with Additives : Application to Solid Dosage Forms
- Absorption of Diltiazem in Beagle Dog from Pulsatile Release Tablet
- Design and Preparation of Pulsatile Release Tablet as a New Oral Drug Delivery System
- Adsorption of Amino-acetamide Derivatives from 1-Octanol Solution by Silica Gel
- Improvement of Drugs by Molecular Modification Method. I. Synthesis and Biological Activity of Testosterone L-Aspartates
- Studies on Application of Wax Matrix System for Controlled Drug Release
- Influence of Drug Solubility and Matrix Structure on Release Rate of Drugs from Wax Matrix Tablets
- A Saturable Tissue-Angiotensin I Converting Enzyme (ACE) Binding Model for the Pharmacokinetic Analysis of Imidapril, a New ACE Inhibitor, and Its Active Metabolite in Human
- Sustained Release Mechanisms of Wax Matrix System for Controlled Release