日野 知証 | Gifu Pharmaceutical University
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概要
関連著者
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川島 嘉明
Gifu Pharmaceutical University
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竹内 洋文
Gifu Pharmaceutical University
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丹羽 敏幸
岐阜薬科大学製剤学教室
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日野 知証
Gifu Pharmaceutical University
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丹羽 敏幸
Gifu Pharmaceutical University
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小澤 博
Research Laboratories Of Pharmaceutical Development Eisai Co. Ltd.
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栢野 正則
Tokyo Research Laboratories, Eisai Co., Ltd.,
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佐野 昭光
Pharma Research & Development Division Hoechst Japan Ltd.
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栢野 正則
Eisai Co., Ltd.
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栗木 武男
Pharma Research Laboratories, Hoechst Japan Limited
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栗木 武男
ヘキストジャパン(株)
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栢野 正則
Tokyo Research Laboratories Eisai Co. Ltd.
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栗木 武男
Laboratory For Chemistry Hoechst Japan Limited
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栗木 武男
Pharma Research And Development Division Hoechst Japan Limited
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上杉 恵三
エーザイ株式会社臨床研究センター薬物応用研究部臨床分析室:(現)エーザイ株式会社品質保証部品質保証室
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上杉 恵三
エーザイ株式会社薬物応用研究部臨床分析室
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関川 富士夫
Shin-etsu Chemical Co. Ltd.
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林 紫朗
Gifu Pharmaceutical University
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佐々木 秀人
Gifu Pharmaceutical University
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上杉 恵三
Research Laboratories, Eisai Co., Ltd.
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川勝 英次
Gifu Pharmaceutical University
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井田 勝三
Eisai Co., Ltd.
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井田 勝三
Department Of Pharmaceutical Research Eisai Co. Ltd.
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三宅 康夫
Honjo Factory Eisai Co. Ltd.
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岩本 太郎
Gifu Pharmaceutical University Pharmaceutical Engineering Department
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小沢 博
Research Laboratories Of Pharmaceutical Development Eisai Co. Ltd.
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山本 浩充
愛知学院大学 薬学部 製剤学講座
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山本 浩充
Gifu Pharmaceutical University
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大脇 孝行
Research Laboratories of Pharmaceutical Development, Eisai Co., Ltd.
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中村 正宏
Research Laboratories of Pharmaceutical Development, Eisai Co., Ltd.
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小澤 博
Eisai Co., Ltd.
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小沢 博
Eisai Co., Ltd.,
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坂本 浩
Powrex Co., Ltd.,
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伊藤 洋治
Showa Yakuhin Kako Co.,
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森 章一
Technology Development Laboratories Takeda Chamical Industries Ltd.
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大脇 孝行
Research Laboratories Of Pharmaceutical Development Eisai Co. Ltd.
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伊藤 洋治
Showa Yakuhin Kako Co.
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杉森 健一
Technology Development Laboratories, Takeda Chemical Industries Ltd.,
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丹波 敏幸
Gifu Pharmaceutical University
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大野 早百合
Gifu Pharmaceutical University
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中村 正宏
Research Laboratories Of Pharmaceutical Development Eisai Co. Ltd.
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坂本 浩
Powrex Co. Ltd.
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杉森 健一
Technology Development Laboratories Takeda Chemical Industries Ltd.
著作論文
- Preparation of a Directly Tabletable Controlled-Release Matrix Filler with Microcrystalline Cellulose Modified with Hydroxypropymethylcellulose
- Preparation of a Sustained-Release Matrix Tablet of Acetaminophen with Pulverized Low-Substituted Hydroxypropylcellulose via Dry Granulation
- Preparation of Powdered Redispersible Vitamin E Acetate Emulsion by Spray-Drying Technique
- Size Control of Ibuprofen Microspheres with an Acrylic Polymer by Changing the pH in an Aqueous Dispersion Medium and Its Mechanism
- MUCOADHESION OF POLYMER-COATED LIPOSOMES TO RAT INTESTINE IN VITRO
- Drug Release from the Water-in-Oil-in-Water Multiple Emulsion in Vitro. II. Effects of the Addition of Hydrophilic Surfactants to the Internal Aqueous Compartment on the Release Rate of Secretin
- Particle Design of Tolbutamide by the Spherical Crystallization Technique. V. Improvement of Dissolution and Bioavailability of Direct Compressed Tablets Prepared Using Tolbutamide Agglomerated Crystals
- Preparation of Powdered Phospholipid Nanospheres by Spray Drying in an Aqueous System with Sugars
- Particle Design for Antidiabetic Drugs by the Spherical Crystallization Technique. IV. Assessment of Compressibility of Agglomerated Tolbutamide Crystals Prepared by Crystallization Technique
- Stabilization of Water/Oil/Water Multiple Emulsion with Hypertonic Inner Aqueous Phase
- Preparation of Powdered Phospholipid Nanospheres by Fluidized-Bed Granulating in an Aqueous System with Sugars
- Control of Prolonged Drug Release and Compression Properties of Ibuprofen Microsponges with Acrylic Polymer, Eudragit RS, by Changing Their Intraparticle Porosity
- Redispersible Dry Emulsion System as Novel Oral Dosage form of Oily drugs : In vivo Studies in Beagle Dogs
- Particle Design of Tolbutamide by the Spherical Crystallization Technique. III. : Micromeritic Properties and Dissolution Rate of Tolbutamide Spherical Agglomerates Prepared by the Quasi-Emulsion Solvent Diffusion Method and the Solvent Chenge Method
- Effects of Granulation Method and Drug Dissolved in Binder Solution on Compressibility of Granules