Publications for Consideration

1. Aaron, R.K. and Ciombor, D.M. Acceleration of experimental endochondral ossification by biophysical stimulation of the progenitor cell pool. J. Orthop. Res. 14:582–589, 1996.
2. Aaron, R.K., Ciombor, D.McK., Keeping, H. and Polk, C. Power frequency field effects on cell differentiation coincident with an increase in TGFbeta expression. Trans. BEMS. 1998.
3. Buch, F., Jonsson, B., Mallmin, H. and Kalebo, P. The quantification of bone tissue regeneration after electromagnetic stimulation. Arch. Orthop. Trauma Surg. 112:75–78, 1993.
4. Borsalino, G., Bagnacani, M., Bettati, E., Fornaciari, F., Rocchi, R., Uluhogian, S., Ceccherelli, G., Cadossi, R. and Traina, G.C. Electrical stimulation of human femoral intertrochanteric osteotomies. Clin. Orthop. 237:256–263, 1988.
5. Eyres, K.S., Saleh, M. and Kanis, J.A. Effects of pulsed electromagnetic fields on bone formation and bone loss during limb strengthening. Bone. 18:505–509, 1996.
6. Greenough, C.P. The effect of pulsed electromagnetic fields on blood vessel growth in the rabbit ear chamber. J. Orthop. Res. 10:256–262, 1992.
7. Ieran, M., Zaffuto, S., Bagnacani, M., Annovi, M., Moratti, A. and Cadossi, R. Effect of low frequency pulsing electromagnetic fields on skin ulcers of venous origin in humans: A double-blind study. J. Orthop. Res. 8:276–282, 1990.
8. Kanje, M., Rusovan, A., Sisken, B. and Lundborg, G. Pretreatment of rats with pulsed electromagnetic fields enhances regeneration of the sciatic nerve. Bioelectromagnetics. 14:353–359, 1993.
9. Mammi, G.I., Rocchi, R., Cadossi, R., Massari, L. and Traina, G.C. The electrical stimulation of tibial osteotomies. Double-blind study. Clin. Orthop.:246–253, 1993.
10. Martin, R.G. and Gutman, W. The effect of electric fields on osteoporosis of disuse. Calc. Tiss. Res. 25:23–27, 1978.
11. McLeod, K.J. and Rubin, C.T. Frequency specific modulation of bone adaptation by induced electric fields. J. Theor. Biol. 145:385–396, 1990.
12. McLeod, K.J. and Rubin, C.T. The effect of low-frequency electrical fields on osteogenesis. J. Bone Joint Surg. 74:920–929, 1992.
13. McLeod, K.J. and Rubin, C.T. In vivo sensitivity of bone tissue to electromagnetic field exposure. Science. Submitted, 1998.
14. O’Brien, W.J., Murray, H.M. and Orgel, M.G. Effects of pulsing electromagnetic fields on nerve regeneration correlation of electrophysiologic and histochemical parameters. J. Bioelectricity. 3:33–40, 1984.
15. Ottani, V., DePasquale, V., Govoni, P., Franchi, M., Zaniol, P. and Ruggeri, A. Effects of pulsed extremely-low-frequency magnetic fields on skin wounds in the rat. Bioelectromagnetics. 9:53&dnash;62, 1988.
16. Pienkowski, D., Pollack, S.R., Brighton, C.T. and Briffith, N.J. Low-power electromagnetic stimulation of of osteotomized rabbit fibulae: A randomized, blinded study. J. Bone Joint Surg. 76:489–501, 1994.
17. Rusovan, A., Kanje, M. and Mild, K.H. The stimulatory effect of magnetic fields on regeneration of the rat sciatic nerve is frequency dependent. Exp. Neurol. 117:81–84, 1992.
18. Sharrard, W.J.W. A double-blind trial of pulsed electromagnetic fields for delayed union of tibial fractures. J. Bone Joint Surg. 72:347–355, 1990.
19. Sisken, B.F., Kanje, M., Lundborg, G., Herbst, E. and Kurtz, W. Stimulation of rat sciatic nerve regeneration with pulsed electromagnetic fields. Brain Res. 485:309–316, 1989.
20. Stiller, M.J., Grace, H.P., Shupak, J.H., Thaler, S., Kenny, C. and Jondreau, L. A portable pulsed electromagnetic field (PEMF) device to enhance healing of recalcitrant venous ulcers: A double-blind, placebo-controlled clinical trial. Br. J. Dermatol. 127:147–154, 1992.