References
- Cooper M., Schliwa M. Electrical and ionic controls of tissue cell locomotion in DC electric fields. J. Neurosci. Res. 1985; 13: 223–244
- Okihana H., Shimomura Y. Effect of direct current on cultured growth cartilage cells in vitro. J. Orthop. Res. 1988; 6: 690–694
- Onuma E., Hui S. Electric field‐directed shape changes, displacement, and cytoskeletal reorganization are calcium dependent. J. Cell Biol. 1988; 106: 2067–2075
- Blackman C., Benane S., Rabinowitz J., House D., Joines W. A role for the magnetic field in the radiation‐induced efflux of calcium ions from brain tissue in vitro. Bioelectromagnetics 1985; 6: 327–337
- Blackman C., Benane S., Elliott D., House D., Pollock M. Influence of electromagnetic fields on the efflux of calcium ions from brain in vitro: A three model analysis consistent with the frequency response up to 510 Hz. Bioelectromagnetics 1988; 9: 215–227
- Smith S. D., McLeod B. R., Liboff A. R., Cooksey K. Calcium cyclotron resonance and diatom mobility. Bioelectromagnetics 1987; 8: 215–227
- McLeod K., Lee R., Ehrlich H. P. Frequency dependence of electric field modulation of fibroblast protein synthesis. Science 1987; 236: 1465–1469
- Serpersu E., Tsong T. Y. Stimulation of a ouabain‐sensitive Rb+ uptake in human erythrocytes with an external field. J. Membrane Biol. 1983; 74: 191–201
- Liboff A. R., Thomas J. R., Schrot J. Intensity threshold for 60‐Hz magnetically induced behavioral changes in rats. Bioelectromagnetics 1989; 10: 111–113