Biophysical stimulation of tissue healing mediated by IGF-II

J. Ryaby, R. Fitzsimmons, F. P. Magee, A. Weinstein, D. Baylink
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Abstract

Cells and tissues respond to a large variety of extracellular signals, including electromagnetic fields (EMF). Recent studies have demonstrated that combined AC and DC magnetic fields may couple specifically to ion dependent cellular processes. This coupling suggests an extraordinary potential for use of these combined magnetic fields for tissue healing applications in clinical situations. To this end, we have perfomed studies on in vitro osteoblast and in vivo rat osteoporosis model systems. Since osteoporosis is a result of impaired bone formation/bone resoprtion, we proposed to test whether direct osteoblast activation via calcium-dependent pathways would prevent bone loss in a model of hormonally induced osteoporosis. The cellular studies addressed the question of whether combined magnetic fields could induce cell proliferation, and whether this effect was based on autocrine growth factor (insulin-like growth factor; IGF-II) stimulation by osteoblasts.
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IGF-II介导的组织愈合的生物物理刺激
细胞和组织对包括电磁场在内的多种细胞外信号作出反应。最近的研究表明,交流和直流联合磁场可能特异性地耦合离子依赖的细胞过程。这种耦合表明,在临床情况下,这些组合磁场在组织愈合应用方面具有非凡的潜力。为此,我们进行了体外成骨细胞和体内大鼠骨质疏松模型系统的研究。由于骨质疏松症是骨形成/骨再吸收受损的结果,我们建议在激素诱导的骨质疏松症模型中测试通过钙依赖途径直接激活成骨细胞是否能防止骨质流失。细胞研究解决了复合磁场是否能诱导细胞增殖的问题,以及这种作用是否基于自分泌生长因子(胰岛素样生长因子;成骨细胞刺激IGF-II。
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