Yoshifumi Kiyohara scite author profile

Yoshifumi Kiyohara

5Publications

44Citation Statements Received

19Citation Statements Given

How they've been cited

111

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Affiliations

Kobe Kaisei Hospital, Kobe University Hospital, Kyoto University

Publications

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Okumura

Kiyohara

Komada

et al. 1990

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The healing effect of human epidermal growth factor (hEGF) on open wounds was studied in rats. No improvement in wound healing was found by topical application of EGF alone to open wound sites. We found an ointment containing EGF and a protease inhibitor, nafamostat mesilate or gabexate mesilate, or gelatin accelerated the healing rate of open wounds. Significant increases in the dry weight of the wound site granulation tissue, uronic acid (as an index of acid mucopolysaccharide) and hydroxyproline (as an index of collagen) were observed by treatment with EGF ointment containing nafamostat compared with the controls. The effects of the protease inhibitor on wound healing were dose dependent. Nafamostat was more efficient than gabexate or gelatin on wound healing. The degradation of 125I-EGF in wound tissue homogenate was significantly decreased in the presence of a protease inhibitor, such as nafamostat or gabexate, or gelatin. These findings indicate that the stabilization of EGF at the wound site is an important factor in permitting the expression of its healing effects and suggest that the ointment containing EGF and a stabilizing agent would be a suitable dosage form for acceleration of wound repair.

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Cytoprotective Effects of Epidermal Growth Factor (EGF) Ointment Containing Nafamostat, a Protease Inhibitor, on Tissue Damage at Burn Sites in Rats.

Kiyohara

Nishiguchi

Komada

et al. 1993

Biological & Pharmaceutical Bulletin

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Improvement in wound healing by epidermal growth factor(EGF) ointment. II. Effect of protease inhibitor, nafamostat, on stabilization and efficacy of EGF in burn.

Kiyohara

Komada²,

Iwakawa³

et al. 1991

Journal of Pharmacobio-Dynamics

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Nishiguchi

Kiyohara

Komada

et al. 1994

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The effects of epidermal growth factor (EGF) on Cu, Zn-superoxide dismutase (SOD) in cultured fibroblasts from rat skin exposed to superoxide anions were studied. Cross-linking of [125I]hEGF using disuccinimidyl suberate and immunoblot analysis using anti-EGF receptor antibody to crude plasma membrane fractions of fibroblasts showed that a 170 kDa EGF receptor protein was present on the membrane, as in A431 cells which over express a specific EGF receptor. The cytosolic SOD enzyme activity in fibroblasts exposed to superoxide anions 24 h after treatment with EGF plus nafamostat (NM), a potent protease inhibitor, was increased 1.6-fold compared to control-treated cells. Treatment with either EGF or NM alone, evoked little increase in SOD enzyme activity. The increase in Cu, Zn-SOD protein levels corresponded to the increase in cytosolic SOD enzyme activity in fibroblasts. The Cu, Zn-SOD mRNA level in fibroblasts treated with EGF plus NM at 3 and 6 h was higher than that of the control. Additionally, levels of [125I]hEGF degradation products released into the medium from fibroblasts exposed to superoxide anions were significantly reduced in the presence of NM. These results suggest that the stabilization of EGF by NM in culture is an important factor in the expression of its effects, and that EGF induces Cu, Zn-SOD expression by accelerating transcription of the Cu, Zn-SOD gene in cells, resulting in their protection from the effects of superoxide anion radicals.

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Effects of Sairei‐to on the pharmacokinetics of nifedipine in rats

Ikehata

Ohnishi

Matsumoto

et al. 2007

Phytotherapy Research

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Sairei-to is a traditional herbal medicine used to complement, and as an alternative to, Western drugs. The aim of this study was to evaluate the pharmacokinetic interactions between Sairei-to and nifedipine (NFP), a substrate for CYP3A, in rats. NFP-oxidizing activity and the pharmacokinetics of NFP were examined after a single or 1-week of administration of Sairei-to (EK-114). NFP-oxidizing activity was enhanced transiently around 24 h after a single administration of EK-114 (1400 mg/kg). In vivo, the first-pass metabolism of NFP increased in the small intestine at 24 h after the administration of EK-114, and this effect disappeared at 72 h. Co-administration of EK-114 tended to inhibit the metabolism of NFP. On the other hand, when EK-114 was given at a high dose (1400 mg/kg) for 1 week, the oxidation of NFP in the small intestine was inhibited, and C max and AUC after the oral administration of NFP increased. In addition, a clinical dose of EK-114 (140 mg/ kg) did not alter the pharmacokinetics of NFP, regardless of the administration schedule. EK-114 was suggested to affect the metabolism of NFP. However, the CYP3A-mediated pharmacokinetic interaction on the concomitant use of EK-114 may not be clinically significant.

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