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アブストラクト(24巻4号:神奈川歯学)
Japanese
| Title : | 骨芽細胞におけるパルス電磁場の影響 -細胞内カルシウム[Ca2+]iの変化について- |
|---|---|
| Subtitle : | 原著 |
| Authors : | 佐竹司, 斎藤滋 |
| Authors(kana) : | |
| Organization : | 神奈川歯科大学口腔生化学教室 |
| Journal : | 神奈川歯学 |
| Volume : | 24 |
| Number : | 4 |
| Page : | 692-701 |
| Year/Month : | 1990 / 3 |
| Article : | 原著 |
| Publisher : | 神奈川歯科大学学会 |
| Abstract : | 「緒言」 骨の形成や調節に作用する因子は数多く知られており, 化学的因子として, PTH(parathyroid hormone), ビタミンD3などのカルシウム調節ホルモンや成長因子などがある. 一方物理的因子として力学的刺激や電気的刺激があげられ, それぞれ骨の成長や修復過程に関わっている. 物理的因子の作用機序の研究は化学的因子に比べ著しく遅れており, 依然不明な点が多い. 近年, 骨折治療における長期間ギブス装着等の不動化による骨萎縮, 宇宙旅行などの無重力状態下で生じる骨量減少, リニアモーターカーにおいて強力な電磁場による生体への影響などが問題になり, その作用機序の解明が急務となってきた. 現在, 米国において骨折未融合の治療に全症例約3分の1が外科手術でなく電磁気の作用によって施されているが, 歴史的に見れば19世紀の初頭にすでに電気的に骨形成を誘導する試みがなされているものの, その後1850年に同様の報告があるのみで20世紀半ばに至るまで学問領域に再び現れることはなかった. |
| Practice : | 歯科学 |
| Keywords : | PEMF, osteoblast-like cells, 細胞内カルシウム[Ca2+]i, EGF, TPA |
English
| Title : | Effect of Pulsed Electromagnetic Fields (PEMF) on Osteoblast-like Cells -Alterations of Intracellular Ca2+- |
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| Subtitle : | |
| Authors : | Tsukasa SATAKE, Shigeru Saito |
| Authors(kana) : | |
| Organization : | Department of Oral Biochemistry, Kanagawa Dental College |
| Journal : | Kanagawa Shigaku |
| Volume : | 24 |
| Number : | 4 |
| Page : | 692-701 |
| Year/Month : | 1990 / 3 |
| Article : | Original article |
| Publisher : | Kanagawa Odontological Society |
| Abstract : | [Abstract]: Low-energy electromagnetic fields pulsed at frequencies of 60-90 Hz significantly increase healing of chronic fracture nonunions in man. These fields are effective at tissue current levels as low as several orders of magnitude lower than those required for transmembrane depolarization of normal cells. In this study, the effects of PEMF on culture of rat osteoblast-like cells have been examined. The PEMF promoted the growth of these cells, were also found to increase the basal level of [Ca2+]i, and to decrease the responses towards epidermal growth factor (EGF) and serum, when the degree of response was based on the intracellular Ca2+ transient. These effects of PEMF were mimicked by 12-O-tetradecanoyl phorbor 13-acetate (TPA), a potent activator of protein kinase C. Preteatment of TPA enhanced the cell growth and suppressed the intracellular Ca2+ transient induced with EGF and then serum to about 170% of the control. Then, present study investigated how the PEMF and TPA modulate EGF receptors of these cells. Both PEMF and TPA decreased the level of EGF binding to these cells down to about 65% and 75%, respectively. Scatchard analysis revealed the decrease of EGF receptor without a significant change in the affinity for EGF by both. In conclusion, it was indicated that PEMF acts at cell membrame and modulates the receptors which is essential for cell growth and DNA synthesis. |
| Practice : | Dentistry |
| Keywords : | PEMF, osteoblast-like cells, EGF, TPA |
