The Physiology of Bioelectricity in Development, Tissue Regeneration and Cancer

Measuring Endogenous Electric Fields, R. Nuccitelli Investigation Systems to Study the Biological Effects of Weak Physiological Electric Fields, F.X. Hart Endogenous Bioelectric Signals as Morphogenetic Controls of Development, Regeneration, and Neoplasm, M. Levin Stem Cell Physiological Responses to Noninvasive Electrical Stimulation, I. Titushkin, S. Sun, V. Rao, and M. Cho Electrical Signals Control Corneal Epithelial Cell Physiology and Wound Repair, C.D. McCaig Physiological Electric Fields Can Direct Keratinocyte Migration and Promote Healing in Chronic Wounds, C.E. Pullar Electrical Control of Angiogenesis, E. Wang, Y. Yin, H. Bai, B. Reid, Z. Zhao, and M. Zhao Inflammatory Cell Electrotaxis, F. Lin and C.E. Pullar Effects of DC Electric Fields on Migration of Cells of the Musculoskeletal System, N.J. Gunja, C.T. Hung, and J.C. Bulinski Neuronal Growth Cone Guidance by Physiological DC Electric Fields, A.M. Rajnicek Can Applied Voltages Be Used to Produce Spinal Cord Regeneration and Recovery in Humans? R.B. Borgens Bioelectricty of Cancer: Voltage-Gated Ion Channels and Direct-Current Electric Fields, M.B.A. Djamgoz