2nd
International Technical Forum Inspiring Powder Technology Date:
November9(Thu.),2006 Session1: 13:00-14:00, Venue: Makuhari Messe International
Conference Hall Room 201 |
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A (drug
design) |
B (nanotechnology) |
C (crystallization) |
D (others) |
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A01 |
Design of Rapid disintegrating tablets formulated silica
composite particle with drying method |
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Yohei Hoashi1), Ayako Ban2), Yuichi Tozuka2),Hirofumi
Takeuchi2), Toshiya Kai1), Makoto Sato2) |
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1)NIPROCORPORATION, 2)GifuPharmaceutical
University |
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A02 |
Design of submicron sized W/0/W emulsion for pharmaceutical
application |
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Fujita Naomi1),
Tozuka Yuichi1), Takeuchi Hirohumi2), Nagahama Tohru2),
AketoTakao1) |
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1)GifuPharmaceuticalUniversity, 2)TaishoPharmaceuticalCo.Ltd, |
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A03 |
Evaluation of adhesive property of pharmaceuticals by
surface free energy analysis |
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Yonemochi
Etsuo |
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Toho
Univeristy |
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A04 |
Evaluation of dispersive state of drug in the tablet using
NIR chemical imaging and their quantitative precision |
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Asuka Ozawa1),
Yasuo Yoshihashi1), Etsuo Yonemochi1), Tatsuo Koide2), |
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1) |
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A05 |
Application of mechano-fusion method for improvement of
inhalation characteristic of drug. |
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Satoshi
Machida |
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Toho
Univeristy |
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A06 |
Study on functions of super disintegrant "Kollidon CL
grades" and the application to pharmaceutical solid dosage form |
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Mitsunori
Tanabe |
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BASF Japan
Ltd. |
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A07 |
Use of Spouted Bed Binderless Granulation to Design PLGA Nanocomposite Particles for Dry Powder Inhalation |
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K.Hara,
H.Tsujimoto, Y.Tsukada, S.Hatano, Y.Kawashima |
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Hosokawa
Particle Technology Research Institute |
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A08 |
The developments of NFκB Decoy
Oligodeoxynucleotides loaded PLGA nanosphere and the applications for atopic
dermatitis |
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Y.Tsukada,
H.Tsujimoto, K.Hara, M.Sakaguchi, M.Aoki, R.Morishita, Y.Kawashima |
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HOSOKAWA
POWDER TECHNOLOGY RESEARCH INSTITUTE |
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A09 |
Grinding-induced solubilization and nanoparticle formation
of poorly-soluble drugs: Clarithromycin and ascorbic acid 2-glucoside binary
system |
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Yutaka Inoue1),
Yuichi Tozuka2), Kunikazu Moribe1), Takuya Kumamoto1), |
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1) |
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A10 |
【New Product】Super High Compactible MCC Ceolus® KG−1000 |
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Kazuhiro
Obae |
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ASAHI KASEI
CHEMICALS CORPORATION |
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A11 |
galenIQTM , A new definition of a
multifunctional excipient |
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Teraoka
Makoto |
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HIGUCHI Inc. |
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A12 |
Preparation of nanoparticles and application to fine particulate
coating by laser ablation method |
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Sanshiro
Nagare |
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Nara
Machinery Co., Ltd. |
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A13 |
Proparation of Sustained Release Fine Particles by the Dry
Coating Method with a Mechanochemical Disporsing Device |
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Hiroshi Yuasa |
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A14 |
Powder surface area, pore size distribution and porosity by
gas adsorption |
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Kouji
Miyazawa |
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Yuasa-Ionics
Co.., Ltd. |
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A15 |
R&D Spray dryer for fine particle |
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Masashi Fujii,
Yukie Takeshita |
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Ohkawara
Kakohki Co., Ltd. |
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A16 |
Percolation Theory and the Role of Maize Starch as a
Disintegrant for a Low Water Soluble Drug |
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Go Kimura1,2),
Maxim Puchkov1), Gabriele Betz1), Hans Leuenberger1,3) |
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1) |
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A17 |
New turret exchangeable application 「AQUARIUS GLOBAL」 |
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Katsuhito
Fujisaki |
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KIKUSUI
SEISAKUSYO LTD. |
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B (nanotechnology) |
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B01 |
Ceramic Powder Spheroidization by Induction Thermal Plasma |
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Yubuta
Kazuhiro |
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Nisshin
Seifun Group Inc. |
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B02 |
Gas-phase dispersion of liquid-phase nanoparticles to
measurement of particle size distribution |
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Wuled
Lenggoro |
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B03 |
Micrometer-Scale Patterning of SnO2 Nano Powders by the
Micromolding in Capillaries (MIMIC) Method |
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Imasu Junko,
Sakka Yoshio, Fudouzi Hiroshi |
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National
Institute for Materials Science |
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B04 |
Synthesis of hollow calcium carbonate particles in a
non-equilibrium processing |
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Watanabe
Hideo |
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Nagoya
Institute of Technology |
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B05 |
An Introduction of Bubble Template Method For Synthesis of
Hollow Particles |
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Han Yong
Sheng |
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Nagoya
Institute of Technology |
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B06 |
Arrangement of particles using capillary electro osmotic
flow. |
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Endo,
Takeshi |
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Nagoya
Institute of Technology |
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B07 |
- |
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Nukanobu
Atsushi |
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NIKKISO
CO.,LTD. |
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B08 |
Evaluation of alumina slurry using capillary
electrophoresis. |
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Yamakawa,
Tomohiro |
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Nagoya
Institute of Technology |
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B09 |
Preparation of Zinc Sulfide Nanoparticles by Colloidal Method
and Their Engineering Application |
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Yasuyuki
Arao, Yasushige Mori |
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B10 |
Raman Spectroscopy and the PAT Initiative |
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Keijiro
Terashita1), Tsuyoshi
Furukawa2), Hiroshi
Hisada2), Shukichi
Ochiai2) |
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1) Osaka
Lifie Science Labo, 2) S.T. Japan Inc. |
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B11 |
Properties Control of Cosmetic Fine Spherical Silica
Particles by Surface Modification |
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Tamonoki
Maki, Tsukada Mayumi, Kani Toshiyuki, Suzuki Takahiro and Kamiya Hidehiro |
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B12 |
Emission Behavior of Condensible
Suspended Particulate Matter from Stationary Combustion Sources |
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Nishikawa Nakaha, Liu Yuyu,
Tsukada Mayumi, Kamiya Hidehiro |
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C01 |
A New Crystallization Method Using Liquid/Liquid Interface
for Fabrication of Asymmetric Particles |
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Kadota
Kazunori |
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C02 |
Application of Microwave Irradiation to Crystallization of
Carbonate Nano-Particles |
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Masakazu
Matsumoto, Souichiro Hirose, Tomohiro Fukunaga, Kaoru Onoe |
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Chiba
Institute of Technology |
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C03 |
Growth Rate Changes of Gypsum |
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Shigehiro
Kagaya 、Akihiro Shiroishi |
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Engineering
Department, |
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C04 |
Fuzzy Logic Control of a Batch Crystallizer |
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Sohrab Rohani |
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The |
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C05 |
Increase in crystal growth rate for production of sodium
chloride |
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Koji Masaoka |
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The |
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C06 |
IN SITU OBSERVATION OF NUCLEATION AND |
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Tatsuya
Okubo |
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The |
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D01 |
Simulation tool for process engineers and researchers |
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Gad Amir |
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VixiMix |
D02 |
Desktop crystallization |
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Hamp Turner |
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Turner Technology |