H
Hiroshi Maeda
Researcher at Kumamoto University
Publications - 915
Citations - 67944
Hiroshi Maeda is an academic researcher from Kumamoto University. The author has contributed to research in topics: Neocarzinostatin & Nitric oxide. The author has an hindex of 103, co-authored 893 publications receiving 63370 citations. Previous affiliations of Hiroshi Maeda include Osaka University & Okayama University.
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Bi(Pb)‐Sr‐Ca‐Cu‐O superconducting composite tapes prepared by the powder method using an Ag sheath
TL;DR: In this paper, a grain-oriented microstructure with the c axes perpendicular to the tape surface was obtained for the tapes with a high-Tc phase by applying a combination of cold rolling and sintering.
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Superconducting properties and microstructures of Bi-2223 AgCu alloy sheathed tapes doped with Ti, Zr or Hf
TL;DR: In this article, a small amount of doping such as Ti, Zr or Hf of 0.03-0.1 at.% into the Cu alloy sheath enhanced the growth of large plate-like grains.
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Triggering of the vascular permeability reaction by activation of the Hageman factor-prekallikrein system by house dust mite proteinase
Keishi Maruo,Takaaki Akaike,Yasuhiro Matsumura,Shoichi Kohmoto,Yuji Inada,Tomomichi Ono,Tatsuyoshi Arao,Hiroshi Maeda +7 more
TL;DR: It is concluded that the proteinase of the house dust mite, Df-proteinase, has the potential to generate bradykinin and that the presence of this proteinase in biological systems would exacerbate inflammatory reactions in some pathological conditions.
Journal Article
Subcellular fate of protein antibiotic neocarzinostatin in culture of a lymphoid cell line from Burkitt's lymphoma.
TL;DR: The results obtained here could be interpreted as similar to those of parental NCS in vitro, because the chemically modified NCS used in this study retained biological activity essentially similar to that of parent NCS.
Journal Article
[General mechanism of intratumor accumulation of macromolecules: advantage of macromolecular therapeutics].
Y Matsumura,Oda T,Hiroshi Maeda +2 more
TL;DR: This general mechanism of the behavior of macromolecules and lipids as EPR (enhanced permeability and retention) effect in solid tumor at microvasculature level is proposed and is of potential value inmacromolecular tumor therapeutics and diagnosis.