Effect of rotating magnetic field on pain threshold in rats' spinal cord:an analysis from processing time and angular velocity / 中华神经医学杂志

ABSTRACT

Objective To observe the effects of rotating magnetic field on the tail-flick latency (TFL)and mechanical withdrawal threshold(MWT)of rats and analyze it from processing time and angular velocity.Methods Forty-eight female SD rats were randomly assigned to 8 groups(n=6),which would be determined by 8 different time points(before treatment,treating for 10,20,30 and 60 min,10,20 and 30 min after treatment).The magnetic plate rotated near the lumbar of the rat at an angular velocity of 7300 r/min and the TFL and MWT with yon Frey hair test were determined at each time point.The second experiment was carried out on 40 female rats at an angular velocity of 6300,6800,7300 and 7800 r/min,respectively;TFL and MWT were determined 30 min after treatment.The data were statistically analyzed.Results The first experiment was concluded as follows:compared with that before treatment,TFL was statistically increased at treating for 10,20,30 and 60 min(P<0.05).The TFL gradually became shorten after the treatment,but it was still significantly longer 10 and 20 min after the treatment as compared with that before treatment(P<0.05).MWT increased significantly at treating for 30 and 60 min,and 10 min after treatment as compared with that before treatment(P<0.05).The second experiment showed that TFL significantly went up as the angular velocity increased(P<0.05).Significantly difference on MWT was found between the angular velocity of 7800 and 6300 r/min.Conclusion Pain threshold can be increased by rotating magnetic field following the increase of processing time and the angular velocity at a certain range,indicating that the rotating magnetic field might be a potential non-invasive pain alleviating method.