Tomoko Kure
Nara Medical University
15 Papers
19 Citations
Tomoko Kure is an academic researcher from Nara Medical University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 3, co-authored 8 publications.
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Papers
Preparation of Artificial Red Blood Cells (Hemoglobin Vesicles) Using the Rotation-Revolution Mixer for High Encapsulation Efficiency.
Tomoko Kure,Hiromi Sakai +1 more
TL;DR: In this paper, the rotational revolution mixer was used to knead the hemoglobin vesicles in a rotation-revolution manner to obtain high yield and high encapsulation efficiency.
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First-in-human phase 1 trial of hemoglobin vesicles as artificial red blood cells developed for use as a transfusion alternative
Hiroshi Azuma,Toraji Amano,Naoya Kamiyama,Naofumi Takehara,Maki Jingu,Harumi Takagi,Osamu Sugita,Naoko Kobayashi,Tomoko Kure,Taro Shimizu,Tatsuhiro Ishida,Masanori Matsumoto,Hiromi Sakai +12 more
TL;DR: In this article , the authors propose a method to solve the problem of image clustering in image captioning, which is based on the concept of image-based clustering of images.
Transmembrane Difference in Colloid Osmotic Pressure Affects the Lipid Membrane Fluidity of Liposomes Encapsulating a Concentrated Protein Solution.
Tomoko Kure,Hiromi Sakai +1 more
TL;DR: Hb-V as well as HSA-V maintains a spherical structure and mechanical stability under transmembrane stress caused by high COP, as described in the literature.
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First-in-human phase 1 trial of artificial red blood cells and hemoglobin vesicles developed as a transfusion alternative.
Hiroshi Azuma,Toraji Amano,Naoya Kamiyama,Naofumi Takehara,Maki Jingu,Harumi Takagi,Osamu Sugita,Naoko Kobayashi,Tomoko Kure,Taro Shimizu,Tatsuhiro Ishida,Masanori Matsumoto,Hiromi Sakai +12 more
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Contribution of long-chain fatty acid to induction of myeloid-derived suppressor cell (MDSC)-like cells - induction of MDSC by lipid vesicles (liposome).
Yoichiro Yoshida,Tsunehisa Nagamori,Emi Ishibazawa,Hiroya Kobayashi,Tomoko Kure,Hiromi Sakai,Daisuke Takahashi,Mitsuhiro Fujihara,Hiroshi Azuma +8 more
TL;DR: Investigating whether immunosuppression induction is an immunopharmacological action specific to this pegylated liposome, or not found it not to be so, found B7-H3+ macrophages were positive for iNOS and various liposomes with different long chain fatty acids induced T-cell suppression when accumulated in the spleen.
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