Pulse electrical arc stimulator based on single-electrode for active exercise in tail-suspension rat

Lian-wen Sun; Tian Xie; Yu-bo Fan; Xiao-wei Zhang; Yao Sun; Xiao Yang

doi:10.1007/s11771-008-0492-y

Journal of Central South University ›› 2010, Vol. 15 ›› Issue (Suppl 2) :383 -388. DOI: 10.1007/s11771-008-0492-y

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Pulse electrical arc stimulator based on single-electrode for active exercise in tail-suspension rat

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Abstract

To make rat do active exercise to counteract bone loss in the rat tail-suspension model, a pulse electrical stimulator based on single-electrode with a low-current and a high-voltage was designed. The stimulator was controlled by SCM (single chip micyoco) that could accurately control the stimulation duration and the interval between stimulations, and cease the operation after the recorded number of stimulation had reached the value set by the program. With the help of posture estimation part, the device would operate intelligently by determining whether to stimulate or not, depending on the posture of rat’s limb. Software was developed to make operator control the stimulator using computer, save the experiment data and print the report. In practical experiment, the voltaic arc is generated by the stimulator, and impacted on the rat’s thenar. This induced pain to the rat and the rat would actively contract its hindlimb to evade the pain, so active exercise was carried out. The tail-suspension rats were trained twice every day for 14 d. At the 0 and 14th day, bone mineral density of rat femurs was determined by dual energy X-ray absorptiometry (DXA). The results show that the active exercise stimulated by the pulse electrical arc stimulator can attenuate weightlessness-induced bone loss, and this device is a convenient steady performance electrical stimulator that can surely induce rat’s hindlimb to do active exercise.

Keywords

rat / electrical stimulation / tail-suspension / active exercise

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Lian-wen Sun, Tian Xie, Yu-bo Fan, Xiao-wei Zhang, Yao Sun, Xiao Yang. Pulse electrical arc stimulator based on single-electrode for active exercise in tail-suspension rat. Journal of Central South University, 2010, 15(Suppl 2): 383-388 DOI:10.1007/s11771-008-0492-y

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