References
- Auer J A, Burch G E, Hall P. Review of pulsing EMF therapy and its possible application to horses. Equine Veterinary Journal 1983; 15(4)354–360
- Bassett C A. Beneficial effects of electromagnetic fields. Journal of Cellular Biochemistry 1993; 51(4)387–393
- Bodamyali T, Bhatt B, Hughes F J, Winrow V R, Kanczler J M, Simon B, Abbott J, Blake D R, Stevens C R. Pulsed electromagnetic fields simultaneously induce osteogenesis and upregulate transcription of bone morphogenetic proteins 2 and 4 in rat osteoblasts in vitro. Biochemal and Biophysical Research Communications 1998; 250(2)458–461
- Cameron I L, Hunter K E, Winters W D. Retardation of embryogenesis by extremely low-frequency 60-HZ electromagnetic fields. Physiological Chemistry and Physics and Medical NMR 1985; 17: 135–138
- Cane V, Botti P, Soana S. Pulsed magnetic fields improve osteoblast activity during the repair of an experimental osseous defect. Journal of Orthopaedic Research 1993; 11(5)664–670
- Cieslar G, Sieron A, Turczynski B, Adamek M, Jaskolski F. The influence of extremely low-frequency variable magnetic fields on rheologic and dielectric properties of blood and the water-electrolyte balance in experimental animals. Bioelectrochemistry and Bioenergetics 1994; 35: 29–32
- Delgado J MR, Leal J, Monteagndo J L, Garcia M. Embryological changes induced by weak, extremely low frequency electromagnetic fields. Journal of Anatomy 1982; 134: 533–551
- Eyres K S, Saleh M, Kanis J A. Effect of pulsed electromagnetic fields on bone formation and bone loss during limb lengthening. Bone 1996; 18: 505–509
- Gupta T D, Jain V K, Tandon P N. Comparative study of bone growth by pulsed electromagnetic fields. Medical & Biological Engineering & Computing 1991; 29(2)113–120
- Hand J W, Cadossi R. Therapeutic applications of electromagnetic fields. The review of Radio Science, W R Stone. Oxford University Press, Oxford 1993; 779–796
- Higashi T, Yamagishi A, Takeuchi T, Kawaguchi N, Sagawa S, Onishi S, Date M. Orientation of erythrocytes in a strong static magnetic field. Blood 1993; 82(4)28–34
- Inoue N, Ohnishi I, Chen D, Deitz L W, Schwardt J D, Chao E Y. Effect of pulsed electromagnetic field (PEMF) on late-phase osteotomy gap healing in a canine tibial model. Journal of Orthopaedic Research 2002; 20(5)1106–1114
- Kosher R A, Savage M P, Walker K H. A gradation of hyaluronate accumulation along the proximodistal axis of the embryonic chick limb bud. Journal of Embryology and Experimental Morphology 1981; 63: 85–98
- Kroon D J. Laboratory magnet, Philips Technical Library. 1968
- Levin M. Bioelectromagnetics in morphogenesis. Bioelectromagnetics 2003; 24(5)295–315
- McCleary V, Akers T K, Aaen G H. Low magnetic field effects on embryonic bone growth. Biomedical Sciences Instrumentation 1991; 27: 205–217
- Mclean M, Engstrom S, Holcomb R. Magnetic field therapy for epilepsy. Epilepsy and Behavior 2001; 2: 581–587
- Mohamed-Ali H, Kolkenbrock H, Ulbrich N, Sorensen H, Kramer K D, Merker H J. Influence of electromagnetic fields on the enzyme activity of rheumatoid synovial fluid cells in vitro. European Journal of Clinical Chemistry and Clinical Biochemistry 1994; 32(4)319–326
- Mohamed-Ali H, Scheller M, Hetscher M, Kohlsmann S, Kramer K D. Action of a high-frequency magnetic field on the cartilage matrix in vitro. Bioelectrochemistry and Bioenergetics 1995; 37: 25–29
- Newman S A. Lineage and pattern in the developing vertebrate limb. Trends in Genetics 1988; 4: 329–332
- Pezzetti F, De Mattei M, Caruso A, Cadossi R, Zucchini P, Carinci F, Traina G C, Sollazzo V. Effects of pulsed electromagnetic fields on human chondrocytes: An in vitro study. Calcified Tissue International 1999; 65(5)396–401
- Richards M A, Webb J AW, Jewell S E. Low field strength magnetic resonance imaging of bone marrow in patients with malignant lymphoma. British Journal of Cancer 1988; 57: 412–415
- Solursh M, Linsenmaryer T F, Jensen K L. Chondrogenesis from single limb mesenchyme cells. Developmental Biology 1982; 94: 259–264
- Solursh M, Reiter R S, Ahrens P B, Vertel B M. Stage and position-related changes in chondrogenic response of chick embryonic wing mesenchyme to treatment with dibutyryl cyclic AMP. Developmental Biology 1981; 83: 9–19
- Solursh M, Reiter R S. Evidence for histogenic interaction during in vitro limb chondrogenesis. Developmental Biology 1980; 78: 141–150
- Tenforde T S, Kaune W T. Interaction of extremely low frequency electric field with humans. Health Physics 1987; 53(6)567–606
- Trowell O A. A modified technique for organ culture in vitro. Experimental Cell Research 1954; 6: 246–248
- Xu S, Okano H, Ohkubo C. Acute effects of whole-body exposure to static magnetic fields and 50-Hz electromagnetic fields on muscle microcirculation in anesthetized mice. Bioelectrochemistry 2000; 53: 127–135
- Zusman I, Yaffe P. Effects of pulsing electromagnetic fields on the prenatal and postnatal development in mice and rats:In vivo and in vitro studies. Teratology 1990; 42(2)157–170