Program Schedule
Thursday, 14 May 2015
Registration
8:30-10:00 |
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Opening Remarks
10:00-10:20 | Hidetoshi Arima (Kumamoto University, Japan) |
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Keynote Lecture (Chair: Hidetoshi Arima)
10:20-11:00 | KL-01 Kaneto Uekama (Sojo University, Japan) Cyclodextrin-based Pharmaceutical Formulation of Super-generic Drugs |
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11:00-11:15 | Tea/Coffee Break |
Invited Lecture I (Chair: Koji Kano)
11:15-11:45 | IL-01 Akira Harada (Osaka University, Japan) Macroscopic Self-Assembly and Self-Healing through Molecular Recognition |
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11:45-12:00 | Tea/Coffee Break |
Luncheon Seminar I (Chair: Tsukasa Ikeda)
12:00-13:00 | LS-01 Jeffrey Tate (CTD Holdings, Inc., USA) Formulation of Pharmaceuticals with Cyclodextrin-based Active Pharmaceutical Ingredients |
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Poster Session I
13:00-14:20 |
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Special Session (Chair: Hidetoshi Arima, Wenting Liang)
“Potential use of cyclodextrins as active pharmaceutical Ingredients (API)”
14:30-14:50 | SS-01 Shinya Kimura (Saga University, Japan) 2-Hydroxypropyl-β-cyclodextrin acts as a novel anticancer agent |
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14:50-15:10 | SS-02 Keiichi Motoyama (Kumamoto University, Japan) Folate-appended Methyl-β-cyclodextrin as a Novel Autophagic Cell Death Inducer |
15:10-15:30 | SS-03 Tetsumi Irie (Kumamoto University, Japan) Hydroxypropyl-cyclodextrins as pharmacologically active ingredients to treat Niemann-Pick disease Type C -Translational research cycling between bench and bedside- |
15:30-15:50 | SS-04 Hirofumi Jono (Kumamoto University Hospital, Japan) Novel cyclodextrin-based therapeutic approaches for refractory Amyloidosis |
15:50-16:10 | SS-05 Ken J. Ishii (National Institute of Biomedical Innovation, Health and Nutrition (NIBIOHN), Japan) Re-positioning Hydroxypropyl-β-cyclodextrin into a potent influenza vaccine adjuvant by unique local innate immune mechanisms |
16:10-16:30 | SS-06 Hatsuo Yamamura (Nagoya Institute of Technology, Japan) Antimicrobial Cyclodextrin Bearing Polyamino Groups for Bacterial Membrane Disruption |
16:30-16:45 | Tea/Coffee Break |
Student Session (Chair: Kenjirou Higashi, Daisuke Iohara)
16:45-17:55 |
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Welcome Banquet at “Ginnan” in Sakura-No-Baba JOSAIEN.
19:00-21:00 |
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Friday, 15 May 2015
Registration
8:00-9:00 |
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Invited Lecture II (Chair: Yu Liu)
9:00-9:30 | IL-03 Keiko Takahashi (Tokyo Polytechnic University, Japan) Comparison of the properties of cyclodextrins and other cyclic oligoglucosides |
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9:30-10:00 | IL-04 Won Jong Kim (Pohang University of Science and Technology,Korea) Poly-cyclodextrin and poly-paclitaxel nano-assembly for anticancer therapy |
Educational Lecture
10:00-10:30 | EL-01 Kenjiro Hattori (NanoDex Inc., Japan) Active targeting drug delivery systems for anti-cancer drugs |
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10:30-10:45 | Tea/Coffee Break |
Invited Lecture III (Chair: Akira Harada)
10:45-11:15 | IL-05 Kohzo Ito (The University of Tokyo, Japan) Slide-Ring Materials: Tough Polymers from Cyclodextrins |
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11:15-11:45 | IL-06 Piamsook Pongsawasdi (Chulalongkorn University, Thailand) Tailor-made amylomaltase for synthesis of large-ring cyclodextrins |
11:45-12:00 | Tea/Coffee Break |
Luncheon Seminar II (Chair: Takuro Niidome)
12:00-13:00 | LS-02 Olga Milikofu (RenishawKK Spectroscopy Products Division) Biomedical and pharma chemical applications of Raman spectroscopy |
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Poster Session II/ポスターセッション II (Language: Japanese)
13:00-14:20 |
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General Meeting of Japan Cyclodextrin Symposium/
シクロデキストリン学会総会
14:30-15:00 |
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Special Lecture I/特別講演 I (Language: Japanese)(座長: 高橋圭子)
15:00-15:30 | SL-01 Makoto Komiyama/小宮山 眞(University of Tsukuba/筑波大学) Cyclodextrins as Eminent Sources of Detailed Molecular Information Leading to Precise Design of Highly Advanced Materials |
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Special Lecture II/特別講演 II (Language: Japanese)(座長: 上釜兼人)
15:30-16:00 | SL-02 Keiji Yamamoto/山本 恵司(Chiba University/千葉大学) Cyclodextrin : The Pioneer Molecule in Molecular Pharmaceutics |
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Special Lecture III/特別講演 III (Language: Japanese)(座長: 小宮山 眞)
16:00-16:30 | SL-03 Takashi Hayashita/早下 隆士 (Sophia University/上智大学) Guest-induced Supramolecular Chilarity in Ditopic Azoprobe-Cyclodextrin Complexes in Water |
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16:30-16:45 | Tea/Coffee Break/休憩 |
Oral Presentation/一般講演 (Language: Japanese)(座長: 服部憲治郎, 伊藤耕三)
16:45-17:00 | OP-01 Yosuke Akae/赤江 要祐 (Tokyo Institute of Technology) Synthesis and Structure of Macromolecular [3]Rotaxane using α-Cyclodextrin-based Size-complementary [3]Rotaxane |
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17:00-17:15 | OP-02 Taishi Higashi/東 大志 (Kumamoto University) Thermoresponsive Formation of Dimethyl Cyclodextrin Polypseudorotaxanes and One-pot Synthesis of Polyrotaxanes |
17:15-17:30 | OP-03 Yasuhito Koyama/小山 靖人 (Hokkaido University) Synthesis and Properties of Alternating Copolymer of Oligomaltose and Alkyl Spacer Directed toward Tuning of Amylose-Inherent Properties |
17:30-17:45 | OP-04 Yoshihiro Ishimaru/石丸 雄大 (Saitama University) Design and Evaluation of β-Cyclodextrin Dimers using Sodium 6-(4-tert-Butylaniline)-2-naphthalenesulfonatx |
17:45-18:00 | OP-05 Toshiyuki Kida/木田 敏之 (Osaka University) Molecular Recognition by 6-O-Modified β-Cyclodextrin Dimers in Organic Solvents |
Welcome Reception at “Shiromiyagura”
19:00-21:00 |
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Saturday, 16 May 2015
Invited Lecture IV (Chair: Piamsook Pongsawasdi)
9:00- 9:30 | IL-07 Wenting Liang (Shanxi University, China) Study on the Magnetic Fe3O4 with Cyclodextrin Composite for Drug Delivery |
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9:30-10:00 | IL-08 Tsukasa Ikeda (Utsunomiya University, Japan) The Development of Quorum Quenching Techniques using Cyclodextrins in Gram Negative Bacteria |
10:00-10:30 | IL-09 Yu Liu (Nankai University, China) Nano-Supramolecular Assemblies Mediated by Functional Cyclodextrins |
10:30-10:45 | Tea/Coffee Break |
Invited Lecture V (Chair: Toshihiro Ihara)
10:45-11:15 | IL-10 Koji Kano (Doshisha University, Japan) Supramolecular Chemistry of Methylated Cyclodextrins |
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11:15-11:45 | IL-11 Jun Li (National University of Singapore, Singapore) Cyclodextrin-Based Supramolecular Polymers for Biomedical Applications |
11:45-12:00 | Tea/Coffee Break |
Luncheon Seminar III (Chair: Fumitoshi Hirayama)
12:00-13:00 | LS-03 Ralf Mezger (Wacker Chemie AG, Germany) The Use of α-Cyclodextrin for Tasty Food Applications |
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13:00-13:15 | Tea/Coffee Break |
Young Scientist Session
13:15-13:30 | YS-01 Thanyada Rungrotmongkol (Chulalongkorn University, Thailand) Molecular modeling of flavonoid/cyclodextrin inclusion complexes |
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13:30-13:45 | YS-02 Kuakarun Krusong (Chulalongkorn University, Thailand) Production of Large-ring Cyclodextrins by Amylomaltase |
13:45-14:00 | YS-03 Ying-Ming Zhang (Nankai University, China) Binding Affinity of Drug Molecules by Cyclodextrin Derivatives Bearing Negative Charges |
14:00-14:15 | YS-04 Yoshinori Takashima (Osaka University, Japan) Stimuli Responsive Supramolecular Hydrogels Formed by Cyclodextrins and Hydrophobic Guest Groups and its functional properties |
14:15-14:30 | YS-05 Kazuaki Kato (The University of Tokyo, Japan) Diversity of Chemical Structures and Mechanical Properties in Polyrotaxane-based Materials |
14:30-14:45 | YS-06 Hiroaki Kitagishi (Doshisha University, Japan) Non-covalent Intracellular Delivery by an Oligoarginine-conjugated Cyclodextrin |
14:45-15:00 | YS-07 Atsushi Tamura (Tokyo Medical and Dental University, Japan) Polyrotaxane-based Intracellular Delivery of Cyclodextrins for the Therapy of Intractable Diseases |
Closing Remarks
15:00-15:45 | Hidetoshi Arima (Kumamoto University, Japan) |
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Poster Session I, Thursday, 14 May 2015, 13:00-14:20
Poster, language : English Underline : Poster award applicant
PA-01 | Yuriko Takayama (Utsunomiya University, Japan) Inhibitory Effects of Fiber Gel Bundle Immobilized with Cyclodextrins on Prodigiosin Production in Serratia marcescens AS-1 due to Intercepting Cell-Cell Communication |
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PA-02 | Erma Fatiha Muhammad (Universiti Sains Malaysia, Malaysia) Molecular modeling of insulin-β-cyclodextrin and insulin-hydroxylpropyl-β-cyclodextrin complexes |
PA-03 | Yuya Egawa (Josai University, Japan) Complexation of Phenylboronic Acid–Modified Polyethylene Glycol with Native γ–Cyclodextrin for Sugar–Responsive Molecular Necklace |
PA-04 | Srikanya Thongyai (Prince of Songkla University, Thailand) Effect of Polyvinylpyrrolidone K-30 on Tetrahydrocurcumin Complexation with Hydroxypropyl β-Cyclodextrin |
PA-05 | Takato Kusakabe (National Institute of Biomedical Innovation, Japan) Application of HP-β-CD for mucosal adjuvant |
PA-06 | Bang-Jing Li (Chengdu Institute of Biology, Chinese Academy of Sciences, China) pH-Responsive Dendritic Polyrotaxane drug-polymer conjugates forming nanoparticles as efficient drug delivery system for cancer therapy |
PA-07 | Tomohiro Seki (Josai University, Japan) Preparation of a Sugar-Responsive Polypseudorotaxane Having a Directly Sugar-Binding Sensor |
PA-08 | Wasinee Khuntawee (Chulalongkorn University, Thailand) Replica Exchange Molecular Dynamics Studies on LR-CDs Conformations |
PA-09 | Yu Kojima (Josai University, Japan) Preparation of a Sugar-Responsive Gel Using Rotaxane Structures as Cross-Linkers |
PA-10 | Wiparat Hotarat (Chulalongkorn University, Thailand) Enhanced stability of alpha-mangostin by inclusion complexes with β-CDs: A MD simulation study |
PA-11 | Chigusa Okano (Utsunomiya University, Japan) Suppressive Effects of Cyclodextrin-Immobilized Core/shell Polymeric Microspheres on Quorum Sensing-Dependent Antibacterial Production |
PA-12 | Suthipapun Tumhom (Chulalongkorn University, Thailand) Alteration of activities and cyclodextrin profile by Corynebacterium glutamicum amylomaltase mutated at Y418 and H461 |
PA-13 | Kyoko Umeno (Akita University, Japan) Chiral discrimination using terahertz spectroscopy and chiral MOF |
PA-14 | Pitchanan Nimpiboon (Chulalongkorn University, Thailand) Mutation at Ala-406 in Amylomaltase from Corynebacterium glutamicum leads to changes in thermostability and cyclodextrin product profile |
PA-15 | Kengo Suzuki (Josai University, Japan) Examination of physical properties and antioxidative of Caffeic acid with γ-Cyclodextrin |
PA-16 | Jintawee Kicuntod (Chulalongkorn University, Thailand) Computational and experimental investigations of pinostrobin/β-CD inclusion complexes |
PA-17 | Mitsuki Sugahara (Josai University, Japan) Characterization of α-glucosidase inhibitor with cyclodextrin |
PA-18 | Yuki Maeda (Kumamoto University, Japan) Effects of Cyclodextrins on GM1-gangliosides in Fibroblasts from GM1-gangliosidosis Patients |
PA-19 | Takashi Ikeda (Josai University, Japan) Solid dispersion of duloxetine hydrochloride with cyclodextrins |
PA-20 | Heng-Yi Zhang (Nankai University, China) Light-Controlled Reversible Formation and Dissociation of Nanorods Mediated by Cyclodextrin/azobenzene Complex |
PA-21 | Rina Suzuki (Josai University, Japan) Evaluation of antimicrobial activity of hinokitiol with γ-cyclodextrin derivatives |
PA-22 | Yong Chen (Nankai University, China) Cyclodextrin/Polysaccharide/Porphyrin Supramolecular Conjugate as a Photo-driven DNA Cleavage Reagent |
PA-23 | Saika Minegishi (Doshisha University, Japan) Removal of CO from the Blood of Mice by an Iron(II)porphyrin/Cyclodextrin Supramolecular Complex |
PA-24 | He-Lue Sun (Nankai University, China) Construction of Supramolecular Vesicle via Induced Aggregation of Cationic Gust with Anionic Cyclodextrin |
PA-25 | Tomomasa Wada (Tokyo University of Agriculture and Technology, Japan) Spectroscopic Studies of Photomerocyanine Produced from Spiropyran Included in Cyclodextrin |
PA-26 | Qian Zhao (Nankai University, China) Supramolecular Assembly Fabricated by TPE-briged β-Cyclodextrins and Adamantane-Modified Hyaluronic Acids for Drug Delivery |
PA-27 | Keisuke Iijima (Tokyo Institute of Technology, Japan) Structural Analysis and Property Control of Rotaxane Cross-Linked Polymers Using Vinylic Supramolecular Cross-Linker |
PA-28 | Jian-Guang Cheng (Nankai University, China) Supramolecular Nanoparticle Based on Per-6-thiolated β-Cyclodextrin Sodium Salt and Cationic Ferrocene |
PA-29 | Masaki Nakahata (Osaka University, Japan) Redox-Responsive Macroscopic Gel Assembly Based on Host-Guest and Ionic Interactions |
PA-30 | Xiao-Fang Hou (Nankai University, China) Supramolecular Nanoparticles Based on Sulfato-β-Cyclodextrin and Chitosan |
PA-31 | Tatsuya Takeshita (Fukui University of Technology, Japan) Photochromic Control of benzothiophene base Diarylethene in the presence of Cyclodextrin Using Three-Color Three-Laser Irradiation |
PA-32 | Li-Xia Chen (Nankai University, China) Selective Binding of Bile Salts with L-tyrosine and Tyramine-Modified β-Cyclodextrins |
PA-33 | Shogo Iida (Tokyo Polytechnic University, Japan) Synthesis and structural analysis of modified cyclodextrin both comprising both with sugar and hydrophobic groups |
PA-34 | Waratchada Sangpheak (Chulalongkorn University, Thailand) Investigations on inclusion complexes of cyclodextrins and flavonoids regarding to physicochemical properties and bioactivities |
PA-35 | Akari Hosaka (Tokyo Polytechnic University, Japan) Molecular level investigation of γ-Cyclodextrin-Victoria blue complex |
PA-36 | Tewodros Getachew Bekele (Sophia University, Japan) Design and Function of Sugar Adsorption Gels Based on Phenylboronic Acid Azoprobe/cyclodextrin Complexes |
PA-37 | Keisuke Yoshikiyo (Shimane University, Japan) Regioselective sulfonylation and protection of the primary hydroxy groups of α-cyclodextrin |
PA-38 | Sachuronggui (Utsunomiya University, Japan) Quorum Quenching Activities of Anionic Moiety Modified Cyclodextrins against Gram Negative Bacteria |
PA-39 | Yoshitaka Umezaki (Sojo University, Japan) Preparation of Hydrophilic C60(OH)10/2-Hydroxypropyl-β-cyclodextrin Nanoparticles for the Treatment of a Liver Injury Induced by an Overdose of Acetaminophen |
PA-40 | Nan Liu (Chiba University, Japan) Control of drug dissolution rate by crystalline ternary γ-cyclodextrin complex formation |
PA-41 | Shoko Mori (Osaka University, Japan) Self-healing Materials Cross-linked between Polyrotaxane and Polymer with Phenylboronic Acid |
PA-42 | Xi Huang (Kobe Gakuin University, Japan) γ-Cyclomannin: Synthesis and 2:1 Inclusion Complex Formation |
PA-43 | Hidetaka Yoshimoto (Kumamoto University, Japan) Methyl-β-cyclodextrin recovered the fertilizing ability of the cold-stored mouse sperm |
PA-44 | Nasrul Wathoni (Kumamoto University, Japan) Fabrication and Characterization of Novel Sacran Films Containing Cyclodextrins |
PA-45 | Kazuhisa Iwaso (Osaka University, Japan) Preparation and evaluation of supramolecular actuator driven by the sliding motion of [c2]daisy chain |
PA-46 | Yuka Horikoshi (Kumamoto University, Japan) Mechanisms of sperm activation by various cyclodextrins in mice |
PA-47 | Yuya Hayashi (Kumamoto University, Japan) Hepatocyte Targeted Delivery of siRNA Complex with PEG-appended Lactosylated Dendrimer/Cyclodextrin Conjugate for Treatment of Hereditary Amyloidosis |
PA-48 | Yehong Zhou (Shanxi University, China) β-Cyclodextrin Assembled Fe3O4 Nanohybrids as the Vehicle for Selective Delivery of Stereoisomeric Doxorubicin and Epirubicin |
PA-49 | Apinan Soottitantawat (Chulalongkorn University, Thailand) Encapsulation of Lemongrass Oil with Cyclodextrins by Spray Drying |
PA-50 | Frederic Bounoure (Rouen University, France) The use of insoluble cyclodextrin polymers to remove pharmaceutical residues from aqueous solution |
PA-51 | Yuichi Tozuka (Osaka University of Pharmaceutical Sciences, Japan) Stabilizing effect of cyclodextrins on the water-soluble nanocomposite formulation of curcumin and transglycosylated additives |
PA-52 | Cheng Yang (Sichuan University, China) Cyclodextrin-mediated Chiral Photochemistry |
PA-53 | Tooru Ooya (Kobe University, Japan) Synergistic Effect of Hydrotropic Solubilization and Inclusion Complexation by Hyperbranched Polyglycerol-Modified β-Cyclodextin |
PA-54 | István Puskás (CycloLab Research and Development Laboratory Ltd., Hungary) Aggregation of cyclodextrin solubilized cholesterol in simulated human cerebrospinal fluid |
PA-55 | Yukiko Uekaji (CycloChem Bio Co., Ltd., Japan) Reduction of Oxidized Form of Coenzyme Q10/γ-Cyclodextrin Inclusion Complex to the Reduced Form by Vitamin C |
PA-56 | Tamás Sohajda (CycloLab Research and Development Laboratory Ltd., Hungary) Meeting USP Specs and beyond: A case study of developing Betadex Sulfobutyl Ether Sodium |
PA-57 | Takahiro Furune (Kobe University, Japan) A Study on Decreasing Effects of α-Cyclodextrin on the Micellar Solubilities of Fatty Acids |
PA-58 | Sheng Zhang (Sichuan University, China) Self-healing Semi-conductive Composites |
PA-59 | Naoko Ikuta (Kobe University, Japan) Physicochemical Properties of Ferulic Acid/Cyclodextrin Complexes |
PA-60 | Wenting Liang (Shanxi University, China) Triplet-sensitized Enantiodifferentiating Photoisomerization of Cyclooctene by Using Modified β-Cyclodextrins |
PA-61 | Masao Iijima (National Institute of Technology, Tsuruoka College, Japan) Synethesis of Cyclodextrin-Silk Protein Conjugates |
PA-62 | Kenjirou Higashi (Chiba University, Japan) Solid state NMR study of three polymorphs of SA/(PEG/γ-CD-PPRX) complex |
Poster Session II, Friday, 15 May 2015, 13:00-14:20
Poster : English, Language : Japanese Underline : Poster award applicant
PC-01 | Boui Ikeda (Kumamoto University, Japan) Design of electrochemical molecular beacon and its application to DNA detection |
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PC-02 | Chiaki Sannohe (Akita University, Japan) Synthesis and Gas Adsorption Properties of Hybrid Polymers Consisting of Modified Cyclodextrin and Amorphous Silica |
PC-03 | Keisuke Yoshimura (Kumamoto University, Japan) Electrochemical signal amplification for DNA detection in homogeneous solution |
PC-04 | Tatsunori Hirotsu (Kumamoto University, Japan) Cyclodextrin-based Self-assembly PEGylation Technique Retaining Activity of Protein Drugs |
PC-05 | Takahito Suzuki (Sophia University, Japan) Design of Saccharide Recognition Material Based on Boronic Acid Fluorophore/Cyclodextrin Complex Gel |
PC-06 | Ayumu Ohyama (Kumamoto University, Japan) Potential Use of Folate-PEG-appended Dendrimer (G4) Conjugate with α-Cyclodextrin as a Tumor-targeting siRNA Carrier |
PC-07 | Tatsuru Yamada (Sophia University, Japan) Development of Supramolecular Dipicolylamine-modified Cyclodextrin Complexes |
PC-08 | Naoko Ohshita (Kumamoto University, Japan) Stabilization of Highly-concentrated Human IgG Using Cyclodextrin Polypseudorotaxane Hydrogels |
PC-09 | Naoki Ishiguro (Sophia University, Japan) The Electrochemical Molecular Recognition Using a β-Cyclodextrin Assembled on the Gold Electrode |
PC-10 | Rena Nishiyama (Kumamoto University, Japan) Effects of Lactosylated Cyclodextrin on Free Cholesterol Accumulation in NPC-like Liver Cancer Cells |
PC-11 | Shoji Fujiwara (Sophia University, Japan) Design and Evaluation of dipicolylamine modified β-cyclodextrin for phosphate anion sensing in water |
PC-12 | Kentaro Morita (Kumamoto University, Japan) Potential Use of Polypseudorotaxanes of PEGylated Polyamidoamine Dendrimer/Cyclodextrin Conjugate as a Sustained Release System for siRNA |
PC-13 | Yasuko Torii (Sophia University, Japan) Design and Function of Coumarin Fluorescent Probe Possessing Dipicolylamine as Recognition Site |
PC-14 | Naoya Kitamura (Doshisha University, Japan) An Aqueous Myoglobin Model Having a Polar Functional Group at the Distal Side |
PC-15 | Madoka Fukaura (Kumamoto University, Japan) Efficacy and Safety Evaluation of intracerebroventricular 2-Hydroxypropyl-β-Cyclodextrin in Niemann-Pick Disease Type C Mice |
PC-16 | Ko Sugita (Sophia University, Japan) Design and Function of Fluorinated Boronic Acid Fluorophore/Cyclodextrin Complex for Selective Sugar Recognition |
PC-17 | Yosuke Sugaya (Doshisha University, Japan) Reaction of Hydrogen Peroxide with Iron(III)porphyrin Encapsulated by a Cyclodextrin Dimer in Aqueous Solution |
PC-18 | Ayumi Teragaki (Osaka University, Japan) Chiral-Selective Organogel Formation through the Construction of Cyclodextrin Nanostructures |
PC-19 | Yuya Abe (Kumamoto University, Japan) Preparation and Evaluation of Mannosyloxypropylthiopropionylated Dendrimer/α-Cyclodextrin Conjugates (G3) as DNA Vaccine Carriers |
PC-20 | Takayuki Furuishi (Hoshi University, Japan) Influence of γ-cyclodextrin as a lyoprotectant for freeze-dried actinidin |
PC-21 | Masamichi Inoue (Kumamoto University, Japan) Evaluation of Glucuronylglucosyl-β-cyclodextrin/Dendrimer (G2) Conjugate for Treatment of Transthyretin-Related Familial Amyloidotic Polyneuropathy |
PC-22 | Kazunori Yanagihara (Nihon Shokuhin Kako Co., Ltd., Japan) Glucagon-like peputide-1 secretagogue action of Cyclodextrins |
PC-23 | Yuki Yamashita (Kumamoto University, Japan) Potential Use of Cyclodextrin Polypseudorotaxane with PEGylated Liposome as a Controlled Release Drug Carrier |
PC-24 | Hirohito Yamasaki (National Institute of Technology, Ube College, Japan) Gas Permeation Properties of Cellulose Acetate Membranes Blending-Acetylated-Cyclodextrins |
PC-25 | Izumi Kuwano (Kumamoto University, Japan) Design and Evaluation of Fucose-appended Dendrimer/α-Cyclodextrin Conjugate as a NF-κB Decoy Carriers for the Treatment of Fulminant Hepatitis |
PC-26 | Makoto Fukudome (Kobe Gakuin University, Japan) Hetero-functionalization of α-cyclodextrin at secondary face through the monoepoxidation of CD-2-O-disulfonates |
PC-27 | Mari Sugio (Kumamoto University, Japan) Preparation of Insulin Conjugate with Glucuronylglucosyl-β-cyclodextrin and Evaluation of Its Pharmaceutical Properties |
PC-28 | Makoto Anraku (Sojo University, Japan) Antioxidant and renoprotective activity of 2-hydroxypropyl-β-cyclodextrin in nephrectomized rats |
PC-29 | Nana Sato (Kumamoto University, Japan) Treatment Efficacy of NF-κB siRNA Complex with Thioalkylated Mannose-Modified Dendrimer (G3)/α-Cyclodextrin Conjugate for Fulminant Hepatitis Model Mice |
PC-30 | Masanori Okubo (Sojo University, Japan) Design and Characterization of α-Cyclodextrin/Sangelose®-based Thermosensitive Sol/Gel Transition System in Ophthalmic Formulation of Diclofenac Sodium |
PC-31 | Yuki Tanida (Kumamoto University, Japan) Folate-appended β-Cyclodextrins as Promising Tumor Targeting Carriers for Antitumor Drugs |
PC-32 | Daisuke Iohara (Sojo University, Japan) Preparation of Highly Dispersible C60 Nanoparticles by Sugammadex, An Anionic γ-cyclodextrin Derivative, under Physiological Conditions |