Publications
On the Cover
Research Articles
[A61] Evaluation of a static mixer as a new microfluidic method for liposome formulation
Aoba Ota, Ayaka Mochizuki, Keitaro Sou, Shinji Takeoka
Frontiers in Bioengineering and Biotechnology, 11, 1229829 (2023).
[A60] Temperature-responsive liposome-linked immunosorbent assay for the rapid detection of SARS-CoV-2 using immunoliposomes
Runkai Hu, Morihiro Hotta, Taro Maruyama, Mizuki Fujisawa, Keitaro Sou, Shinji Takeoka
ACS Omega, 7, 26936-26944 (2022).
[A59] Squaraine probes for the bimodal staining of lipid droplets and endoplasmic reticulum imaging in live cells
Ferdinandus, Jie Ren Tan, Jin Heng Lim, Satoshi Arai, Keitaro Sou, Chi-Lik Ken Lee
Analyst, 147, 3570-3577 (2022).
[A58] A rapid and highly sensitive biomarker detection platform based on a temperature-responsive liposome-linked immunosorbent assay
Runkai Hu, Keitaro Sou, Shinji Takeoka
Scientific Reports, 10, 18086 (2020).
[A57] Nanocapsule pH regulator: Sustained continuous alkali release from thermosensitive liposomes reduces acid erosion
Jian Rong Chong, Duc Long Le, Hirotaka Sato, Keitaro Sou
ACS Applied Materials & Interfaces, 12(19), 21463-21469 (2020).
[A56] Electrochemical system encapsulated by nanoscale liposomes enabling on-demand triggering of electroless deposition at selected areas
Jing Zhan, Ming Lin, Satoshi Arai, Wei Yang Wan, Keitaro Sou, Hirotaka Sato
ACS Applied Nano Materials, 3(6), 5098-5106 (2020).
[A55] Nano capsule based chemical releasing system for insect-computer hybrid robot
Duc Long Le, Keitaro Sou, Hirotaka Sato
2020 IEEE 33rd International Conference on Micro Electro Mechanical Systems (MEMS), 433-436 (2020).
[A54] Highly cooperative fluorescence switching of self-assembled squaraine dye at tunable threshold temperatures using thermosensitive nanovesicles for optical sensing and imaging
Keitaro Sou, Li Yan Chan, Satoshi Arai, Chi-Lik Ken Lee
Scientific Reports, 9, 17991 (2019).
[A53] An assay to evaluate the function of liposomal platelet substitutes delivered to platelet aggregates
Suyun Janet Tan, Keiko Nakahara, Keitaro Sou, Shinji Takeoka
Frontiers in Bioengineering and Biotechnology, 7, 77 (2019).
[A52] Nanocapsules for programmed neurotransmitter release: Toward artificial extracellular synaptic vesicles
Keitaro Sou, Duc Long Le, Hirotaka Sato
Small, 15(17), 1900132 (2019).
Featured on the inside front cover of the journal. [Link]
[A51] Neurotransmitter-loaded nanocapsule triggers on-demand muscle relaxation in living organism
Duc Long Le, Ferdinandus, Chin Kiat Tnee, T. Thang Vo Doan, Satoshi Arai, Madoka Suzuki, Keitaro Sou, Hirotaka Sato
ACS Applied Materials & Interfaces, 10(44), 37812-37819 (2018).
[A50] Near infrared fluorophore-tagged chloroquine in Plasmodium falciparum diagnostic imaging
Li Yan Chan, Joshua Ding Wei Teo, Kevin Shyong-Wei Tan, Keitaro Sou, Wei Lek Kwan, Chi-Lik Ken Lee
Molecules, 23(10), 2635 (2018).
[A49] Development of temperature-responsive liposomes and their application for drug delivery system
Keitaro Sou
Artificial Blood 26(1), 47-54 (2018) (in Japanese).
温度応答性リポソームの開発と薬物送達システムへの応用
宗 慶太郎
人工血液 26(1), 47-54 (2018).
[A48] Far-red fluorescent liposomes for folate receptor-targeted bioimaging
Sheng Dong, Joshua Ding Wei Teo, Li Yan Chan, Chi-Lik Ken Lee, Keitaro Sou
ACS Applied Nano Materials 1(3), 1009-1013 (2018).
[A47] Photo-switchable and self-erasable fluorescent nanoprobe
Keitaro Sou, Li Yan Chan, Chi-Lik Ken Lee
Journal of Photochemistry and Photobiology A: Chemistry, 332, 25-31 (2017).
[A46] Temperature tracking in a three-dimensional matrix using thermosensitive liposome platform
Keitaro Sou, Li Yan Chan, Chi-Lik Ken Lee
ACS Sensors, 1(6), 650-655 (2016).
[A45] Thermosensitive nanoplatforms for photothermal release of cargo from liposomes under intracellular temperature monitoring
Satoshi Arai, Chi-Lik Ken Lee, Young-Tae Chang, Hirotaka Sato, Keitaro Sou
RSC Advances, 5(113), 93530-93538 (2015).
[A44] Establishment of a total liquid ventilation system using saline-based oxygen micro/nano-bubble dispersions in rats
Kenta Kakiuchi, Kenichi Matsuda, Norikazu Harii, Keitaro Sou, Junko Aoki, Shinji Takeoka
Journal of Artificial Organs 18(3), 220-227 (2015).
[A43] Engineered liposomes for drug delivery and biomedical imaging
Keitaro Sou
Recent Patents on Nanomedicine 4(2), 95-101 (2015).
[A42] Therapeutic impact of erythropoietin-encapsulated liposomes targeted to bone marrow on renal anemia
Yuri Miyazaki, Kazuaki Taguchi, Keitaro Sou, Hiroshi Watanabe, Yu Ishima, Toshikazu Miyakawa, Hiroaki Mitsuya, Masafumi Fukagawa, Masaki Otagiri, Toru Maruyama
Molecular Pharmaceutics 11(11), 4238-4248 (2014).
[A41] Application of surface-modified liposomes with succinic acid for drug delivery system targeting bone marrow
Keitaro Sou
Membrane 39(5), 290-295 (2014) (in Japanese).
コハク酸で表面修飾したリポソームの骨髄標的化DDSへの応用
宗 慶太郎
膜, 39(5), 290-295 (2014).
[A40] Cationic amino acid-based lipids as effective non-viral gene delivery vectors for primary neurons
Yumiko Aoshima, Ryosuke Hokama, Keitaro Sou, Satya Ranjan Sarker, Kabuto Iida, Hideki Nakamura, Takafumi Inoue, Shinji Takeoka
ACS Chemical Neuroscience 4(12), 1514-1519 (2013).
Featured on the cover of the journal.
[A39] Arginine-based cationic liposomes for efficient in vitro plasmid DNA delivery with low cytotoxicity
Satya Ranjan Sarker, Yumiko Aoshima, Ryosuke Hokama, Takafumi Inoue, Keitaro Sou, Shinji Takeoka
International Journal of Nanomedicine 8, 1361-1375 (2013).
[A38] Cardiopulmonary hemodynamic responses to the small injection of hemoglobin-vesicles (artificial oxygen carriers) in miniature pigs
Hiromi Sakai, Yuji Suzuki, Keitaro Sou, Mayumi Kano
Journal of Biomedical Materials Research Part A 100(10), 2668-2677 (2012).
[A37] Curcumin towards nanomedicine
Keitaro Sou
Recent Patents on Nanomedicine 2(2), 133-145 (2012).
[A36] Removal of cellular-type hemoglobin-based oxygen carrier (hemoglobin-vesicles) from blood by using centrifugation and ultrafiltration
Hiromi Sakai, Keitaro Sou, Hirohisa Horinouchi, Eishun Tsuchida, Koichi Kobayashi
Artificial Organs 36(2), 202-209 (2012).
[A35] Phagocytosis of liposome particles by rat splenic immature monocytes makes them transiently and highly immunosuppressive
Daisuke Takahashi, Hiroshi Azuma, Hiromi Sakai, Keitaro Sou, Daiko Wakita, Hideki Abe, Mitsuhiro Fujihara, Hirohisa Horinouchi, Takashi Nishimura, Koichi Kobayashi, Hisami Ikeda
The Journal of Pharmacology and Experimental Therapeutics, 337(1), 42-49 (2011).
[A34] Electrostatics of carboxylated anionic vesicles for improving entrapment capacity
Keitaro Sou
Chemistry and Physics of Lipids, 164(3), 211-215 (2011).
[A33] Bone marrow-targeted liposomal carriers
Keitaro Sou, Beth Goins, Babatunde O Oyajobi, Bruno L Travi, and William T Phillips
Expert Opinion on Drug Delivery 8(3), 317-328 (2011).
[A32] Hemoglobin-vesicle, a cellular artificial oxygen carrier, that fulfils the physiological roles of the red blood cells structure
Hiromi Sakai, Keitaro Sou, Hirohisa Horinouchi, Koichi Kobayashi, Eishun Tsuchida
Advances in Experimental Medicine and Biology 662, 433-438 (2010).
[A31] Bone marrow-targeted drug delivery carriers based on liposome technology
Keitaro Sou
Artificial Blood 18(4), 134-141 (2010) (in Japanese).
リポソーム技術を基盤とする骨髄指向性薬物送達キャリアー
宗 慶太郎
人工血液, 18(4), 134-141 (2010).
[A30] Bone marrow-targeted liposomal carriers: A feasibility study in nonhuman primates
Keitaro Sou, Beth Goins, Michelle M Leland, Eishun Tsuchida, William T Phillips
Nanomedicine 5(1), 41-49 (2010).
[A29] Artificial oxygen carriers, hemoglobin vesicles and albumin-hemes based on bioconjugate chemistry
Eishun Tsuchida, Keitaro Sou, Akito Nakagawa, Hiromi Sakai, Teruyuki Komatsu, Koichi Kobayashi
Bioconjugate Chemistry 20(8), 1419-1440 (2009).
Featured on the cover of the journal.
[A28] Static structure and dynamics of hemoglobin vesicle (HbV) developed as a transfusion alternative
Takaaki Sato, Hiromi Sakai, Keitaro Sou, Matrin Medebach, Otto Glatter, Eishun Tsuchida
The Journal of Physical Chemistry B. 113(24), 8418-8428 (2009).
[A27] Review of hemoglobin-vesicles as artificial oxygen carriers
Hiromi Sakai, Keitaro Sou, Hirohisa Horinouchi, Koichi Kobayashi, Eishun Tsuchida
Artificial Organs 33(2),139-145 (2009).
[A26] Clinical laboratory test of blood specimens containing hemoglobin-vesicles. Interference avoidance by addition of dextran
Keitaro Sou, Risa Komine, Hiromi Sakai, Koichi Kobayashi, Eishun Tsuchida, Mitsuru Murata
Artificial Blood 17(1), 6-15 (2009) (in Japanese).
ヘモグロビン小胞体を含有する血液検体の臨床検査-デキストラン添加による干渉作用の回避
宗 慶太郎, 小峰梨沙, 酒井宏水, 小林紘一, 土田英俊, 村田 満
人工血液, 17(1), 6-15 (2009).
[A25] Characterization and cytotoxicity of self-organized assemblies of curcumin and amphiphatic poly(ethylene glycol)
Keitaro Sou, Babatunde O Oyajobi, Beth Goins, William T Phillips, Eishun Tsuchida
Journal of Biomedical Nanotechnology 5(2), 202-208 (2009).
[A24] Cerebral oxygen delivery by liposome-encapsulated hemoglobin: A positron-emission tomographic evaluation in a rat model of hemorrhagic shock
Keitaro Sou
Artificial Blood 16(3), 169-174 (2008) (in Japanese).
ヘモグロビン内包リポソームによる脳への酸素供給:出血性ショックラットモデルでのPETイメージングによる評価
宗 慶太郎
人工血液, 16(3), 169-174 (2008).
[A23] Electrostatic interactions and complement activation on the surface of phospholipid vesicles containing acidic lipids: Effect of the structure of acidic groups
Keitaro Sou, EishunTsuchida
Biochimica et Biophysica Acta-Biomembranes, 1778(4), 1035-1041 (2008).
[A22] Loading of curcumin into macrophages using lipid-based nanoparticles
Keitaro Sou, Shunsuke Inenaga, Shinji Takeoka, Eishun Tsuchida
International Journal of Pharmaceutics, 352(1-2), 287-293 (2008).
[A21] Hemoglobin-vesicles as artificial oxygen carriers: Present situation and future vision
Hiromi Sakai, Keitaro Sou, Hirohisa Horinouchi, Koichi Kobayashi, Eishun Tsuchida
Journal of Internal Medicine, 263(1), 4-15 (2008).
doi: 10.1111/j.1365-2796.2007.01893.x
Featured on the cover of the journal.
[A20] Selective uptake of surface-modified phospholipid vesicles by bone marrow macrophages in vivo
Keitaro Sou, Beth Goins, Shinji Takeoka, Eishun Tsuchida, William T Phillips
Biomaterials, 28(16), 2655-2666 (2007).
[A19] Poly(ethylene glycol)-conjugated phospholipids in aqueous micellar solutions: Hydration, static Structure, and interparticle interactions
Takaaki Sato, Hiromi Sakai, Keitaro Sou, Richard Buchner, Eishun Tsuchida
The Journal of Physical Chemistry B, 111(6), 1393-1401 (2007).
[A18] Solution to the problems of acellular Hbs by encapsulation, and the intrinsic issues of Hb-vesicles as a molecular assembly
Hiromi Sakai, Keitaro Sou, Eishun Tsuchida
Transfusion Alternative in Transfusion Medicine, 9(4), 226-236 (2007).
[A17] Circulation kinetics and organ distribution of Hb-vesicles developed as a red blood cell substitute
Keitaro Sou, Robert Klipper, Beth Goins, Eishun Tsuchida, William T Phillips
The Journal of Pharmacology and Experimental Therapeutics, 312(2), 702-709 (2005).
[A16] Oxygen infusions (hemoglobin-vesicles and albumin-hemes) based on nano-molecular sciences
Eishun Tsuchida, Hiromi Sakai, Teruyuki Komatsu, Shinji Takeoka, Yubin Huang, Keitaro Sou, Akito Nakagawa, Yuji Teramura, Koichi Kobayashi
Polymers for Advanced Technologies, 16(2-3), 73-83 (2005).
[A15] Physiologic capacity of reticuloendothelial system for degradation of hemoglobin-vesicles (artificial oxygen carriers) after massive intravenous doses by daily repeated infusions for 14 days
Hiromi Sakai, Yohei Masada, Hirohisa Horinouchi, Eiji Ikeda, Keitaro Sou, Shinji Takeoka, Makoto Suematsu, Masuhiko Takaori, Koichi Kobayashi, Eishun Tsuchida
The Journal of Pharmacology and Experimental Therapeutics, 311(3), 874-884 (2004).
[A14] Detection of lipopolysaccharide in hemoglobin-vesicles by Limulus amebocyte lysate test with kinetic-turbidimetric gel clotting analysis and pretreatment with a surfactant
Hiromi Sakai, Shuji Hisamoto, Ippei Fukutomi, Keitaro Sou, Shinji Takeoka, Eishun Tsuchida
Journal of Pharmaceutical Science, 93(2), 310-321 (2004).
[A13] Effective encapsulation of proteins into size-controlled phospholipid vesicles using the freeze-thawing and extrusion
Keitaro Sou, Yoshiyasu Naito, Taro Endo, Shinji Takeoka, Eishun Tsuchida
Biotechnology Progress, 19(5), 1547-1552 (2003).
[A12] Detection of lipopolysaccharide contaminating hemoglobin-vesicles as artificial oxygen carriers
Shuji Hisamoto, Hiromi Sakai, Ippei Fukutomi, Keitaro Sou, ShinjiTakeoka, Eishun Tsuchida
Artificial Blood, 11(3), 173-178 (2003) (in Japanese).
酸素輸液ヘモグロビン小胞体に混在するリポポリサッカライドの定量法
久本秀治, 酒井宏水, 福富一平, 宗 慶太郎, 武岡真司, 土田英俊
人工血液, 11(3), 173-178 (2003).
[A11] Safety of oxygen infusion (artificial red cells) and the ability to supply oxygen to tissues
Eishun Tsuchida, Keitaro Sou, Hiromi Sakai, Teruyuki Komatsu, Shinji Takeoka, Hirohisa Horinouchi, Makoto Suematsu, Koichi Kobayashi
Masui. The Japanese journal of anesthesiology, 52, 55-66 (2003) (in Japanese).
酸素輸液(人工赤血球)の安全度 と 体組織への酸素供給
土田英俊, 宗 慶太郎, 酒井宏水, 小松晃之, 武岡真司, 堀之内宏久, 末松 誠, 小林紘一
麻酔 増刊号, 52, 55-66 (2003).
[A10] Oxygen infusion (artificial red cells)
Eishun Tsuchida, Hiromi Sakai, Shinji Takeoka, Keitaro Sou, Koichi Kobayashi
Igaku no Ayumi, 205(9), 558-566 (2003) (in Japanese).
酸素輸液(人工赤血球)
土田英俊, 酒井宏水, 武岡真司, 宗 慶太郎, 小林紘一
医学のあゆみ, 205(9), 558-566 (2003).
[A9] Report: Vlllth international symposium on blood substitutes (Vlll-lSBS)
Keitaro Sou
Artificial Blood, 9(1), 30-31 (2001) (in Japanese).
学会報告:第8回血液代替物国際会議
宗 慶太郎
人工血液, 9(1), 30-31 (2001).
[A8] Poly(ethylene glycol)-modification of the phospholipid vesicles by using the spontaneous incorporation of poly(ethylene glycol)-lipid into the vesicles
Keitaro Sou, Taro Endo, Shinji Takeoka, Eishun Tsuchida
Bioconjugate Chemistry, 11(3), 372-379 (2000).
[A7] Synthesis and assembly of poly(ethylene glycol)-lipids with mono-, di-, and tetraacyl chains and a poly(ethylene glycol) chain of various molecular weights
Shinji Takeoka, Katsura Mori, Haruki Ohkawa, Keitaro Sou, Eishun Tsuchida
Journal of the American Chemical Society, 122(33), 7927-7935 (2000).
[A6] Poly(ethylene glycol)-conjugation and deoxygenation enable long term preservation of hemoglobin-vesicles as oxygen carriers in a liquid state
Hiromi Sakai, Ken-ichi Tomiyama, Keitaro Sou, Shinji Takeoka, Eishun Tsuchida
Bioconjugate Chemistry,11(3), 425-432 (2000).
[A5] Long term preservation of oxygen infusion (hemoglobin-vesicles) achieve by poly(oxyethylene)-conjugation and deoxygenation
Hiromi Sakai, Ken-ichi Tomiyama, Keitaro Sou, Shinji Takeoka, Eishun Tsuchida
Artificial Blood, 7(4), 95-100 (1999) (in Japanese).
ポリオキシエチレン修飾と脱酸素化による酸素輸液(ヘモグロビン小胞体)の長期保存
酒井宏水, 富山賢一, 宗 慶太郎, 武岡真司, 土田英俊
人工血液, 7(4), 95-100 (1999).
[A4] Disk-like assemblies of a synthetic glycolipid and their association with Concanavalin A
Shinji Takeoka, Keitaro Sou, Takeru Ohgushi, Eishun Tsuchida
Supramolecular Science, 5(1-2), 159-162 (1998).
[A3] Physical properties and packing states of molecular assemblies of synthetic glycolipid in aqueous dispersions
Shinji Takeoka, Keitaro Sou, Christoph Boettcher, Jurgen-Hinrich Fuhrhop, Eishun Tsuchida
Journal of the Chemical Society, Faraday Transactions, 94(15), 2151-2158 (1998).
[A2] Effect of surface-modification of hemoglobin-vesicles (HbV) with polyethyleneglycol-lipid or glycolipid
Sung Ick Park, Keitaro Sou, Hiromi Sakai, Shinji Takeoka, Hiroyuki Nishide, Eishun Tsuchida
Artificial Blood, 4(1), 9-14 (1996) (in Japanese).
ポリエチレングリコール型脂質および糖脂質によるヘモグロビン小胞体(HbV)の表面修飾効果
朴 晟翼, 宗 慶太郎, 酒井宏水, 武岡真司, 西出宏之, 土田英俊
人工血液, 4(1), 9-14 (1996).
[A1] Critical molecular weight effects in the aggregation of phospholipid vesicles triggered by water-soluble polymers and an integrated glycolipid
Shinji Takeoka, Keitaro Sou, Shinya Arase, Takeru Ohgushi, Eishun Tsuchida
Macromolecules, 29(25), 8132-8136 (1996).
Book Chapters
[B10] リポソーム製剤の骨髄へのDDS応用
宗 慶太郎, 田口和明
In: DDS先端技術の製剤への応用開発 第6章 6節, 技術情報協会 360-368 (2017). ISBN: 978-4-86104-663-6
[B9] Radiolabeled liposomes as drug delivery nano-theranostics
William T Phillips, Ande Bao, Keitaro Sou, Shihong Li, Beth Goins
In: Drug Delivery Applications of Noninvasive Imaging: Validation from Biodistribution to Sites of Action, Chapter 11 (Eds. By C. Li and M. Tian, John Wiley & Sons) 252-267 (2013). ISBN: 978-0-470-63347-2
[B8] Advanced drug carriers targeting bone marrow
Keitaro Sou
In: Recent Advances in Novel Drug Carrier Systems, Chapter 15 (Ed. By A.D. Sezer, InTech) 419-436 (2012). ISBN: 979-953-307-1092-8.
[B7] Radiolabeled liposomes as theranostic agents
William T Phillips, Beth Goins, Keitaro Sou, Ande Bao
In: Nanoimaging, Chapter 4 (Eds. By B. Goins and W.T. Phillips, Pan Stanford Publishing Pte Ltd.) 71-108 (2011). ISBN: 9789814267090.
[B6] 人工赤血球
酒井宏水, 宗 慶太郎, 武岡真司, 小林紘一, 土田英俊
In: 医療分野における材料と機能膜 第5章, シーエムシー出版 107-118 (2011). ISBN:978-4-7813-0335-2.
[B5] Hemoglobin vesicles as an artificial oxygen carrier
Hiromi Sakai, Keitaro Sou, Eishun Tsuchida
In: Methods in Enzymology (Ed. by N. Duzgunes, Elsevier, Academic Press), 465, 363-384 (2009). ISBN: 978-0123813794.
[B4] Hemoglobin-vesicles as a molecular assembly: characteristics of preparation process and performances as artificial oxygen carriers
Hiromi Sakai, Keitaro Sou, Shinji Takeoka, Koichi Kobayashi, Eishun Tsuchida
In: Blood Substitutes, Chapter 44 (Ed. By Robert M. Winslow, Elsevier, Academic Press) 514-522 (2005). ISBN: 978-0-12-759760-7.
[B3] 人工赤血球
酒井宏水, 宗 慶太郎, 武岡真司, 小林紘一, 土田英俊
In: 医療用マテリアルと機能膜 第II編 人工臓器 第5章, シーエムシー出版107-118 (2005). ISBN: 978-4-88231-503-2.
[B2] Hemoglobin-vesicles (HbV) as artificial oxygen carriers
Hiromi Sakai, Keitaro Sou, Shinji Takeoka, Koichi Kobayashi, Eishun Tsuchida
In: Artificial Oxygen Carrier, Its Front line: Keio University International Symposia for Life Sciences and Medicine Vol.12, (Eds. By K. Kobayashi, E. Tsuchida, H. Horinouchi, Springer-Verlag) 135-168 (2005). ISBN: 978-4-431-26651-8.
[B1] Safety and efficacy of hemoglobin-vesicles and albumin-hemes
Koichi Kobayashi, Hirohisa Horinouchi, Masazumi Watanabe, Yotaro Izumi, Yuji Teramura, Akito Nakagawa, Yubin Huang, Keitaro Sou, Hiromi Sakai, Teruyuki Komatsu, Shinji Takeoka, Eishun Tsuchida
In: Artificial Oxygen Carrier, Its Front line: Keio University International Symposia for Life Sciences and Medicine Vol.12, (Eds. By K. Kobayashi, E. Tsuchida, H. Horinouchi, Springer-Verlag) 1-21(2005). ISBN: 978-4-431-26651-8.
Patents
[P10] 温度応答性蛍光粒子を用いた生体分子の同時検出方法
S. Takeoka, K. Sou, T. Maruyama
JP特願2023-139373
[P9] 生体分子検出のための温度応答性蛍光粒子
S. Takeoka, K. Sou, R. Hu, C.L.K. Lee, L.Y. Chan
特許第7284470号; PCT/JP2020/021358
[P8] Bone marrow-directing drug delivery materials and their applications
K. Sou, S. Takeoka, E. Tsuchida, B. Goins, W.T. Phillips
US2009/0297608; EP1906924; JP2008-542360
[P7] Zwitterionic lipid compound and uses thereof
E. Tsuchida, S. Takeoka, K. Sou, K. Mori
US 6,965,049; EP1219659; JP2001-064383
[P6] Carboxylic acid-type lipid
E. Tsuchida, S. Takeoka, K. Sou, H. Ohkawa, K. Mori
US6949663; EP1340740; JP4226324
[P5] Amphiphilic compounds having a dendritic branch structure
E. Tsuchida, S. Takeoka, K. Sou, H. Ohkawa
US6933352; EP1219659; JP3181276
[P4] Method for Preserving oxygen infusions
E. Tsuchida, H. Sakai, K. Tomiyama, S. Takeoka, K. Sou
US6864049; CA2383977; JP3466516
[P3] Method for producing a vesicle dispersion
E. Tsuchida, S. Takeoka, K. Sou, T. Endo, Y. Naito
US2007122469; EP1340494; JP2000-344458
[P2] Process for purification hemoglobin
S. Takeoka, E. Tsuchida, K. Sou
US2007123698; EP1712562; CA2551612; AU2004309285; JP2003-433548
[P1] Glycolipid derivatives and use thereof
T. Suzuki, K. Yoshimura, E. Tsuchida, S. Takeoka, K. Sou
JP10237086; CA2230485.