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Original Article

Effects of Electromagnetic Fields on the Bioactivities of an Osteoblast-Like Cell Line (UMR-106)

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Pages 237-253 | Published online: 05 Aug 2009
 

Abstract

In the present study, we first investigated the effects of various types of low-energy, low-frequency electromagnetic fields (EMFs) on DNA synthesis in UMR-106 osteoblast-like cells. The experimental groups were exposed to EMFs for 2 days (twice/day, 30 min/time), and DNA synthesis was measured. The results showed that the cells responded most sensitively to EMFs of some specific combinations of the parameters by an increase in DNA synthesis, implying that EMFs with a specific waveform rather than a complex one can be used in clinical electrotherapy. The parameters were as follows: pulsed electric field (PEF) with pulse width 0.2 ms, field strength 10 V/cm, frequency 125 Hz; sinusoidal electric field (SEF) with field strength 1 V/cm, frequency 10 Hz; and alternating magnetic field (AMF) with field density 0.5 mT, frequency 5 Hz. In addition to frequency, the field strength or field density within a suitable intensity scale played a dominant role in causing the DNA synthesis response. We then compared the effects of two kinds of fields, PEF and AMF, with the optimum parameters identified by the experiments, on alkaline phosphatase (ALP) activity, protein and collagen synthesis, and intracellular levels of cyclic adenosine monophosphate (cAMP). The results indicated that both fields could not only affect UMR-106 cells proliferation but could particularly affect a series of characteristic bioactivities of UMR-106 such as ALP activity and collagen synthesis. The intracellular cAMP levels were increased rapidly and greatly with exposure to both PEF and AMF, implying that the action of low-frequency EMFs proceeds via second messenger-dependent processes originating from signals at the cell membrane. The difference in action between PEF and AMF suggests that they may couple to the cell membrane in a partially different way.

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