Objective To study the neuro-protective effects of magnetotherapy after traumatic brain injury of rats. Methods Traumatic brain injury models were created in 20 rats and divided randomly into magnetotherapy and non-magnetotherapy groups. The rats in magnetotherapy group received magnetotherapy on the cranial surface of traumatized region twice daily, each for 20 min, over 10 d. The intensity of magnetic field was O. 15 T at the surface,and 0.1 T during spinning at 3000 rpm. The contraction strength of gastrocnemius of each rat's left hind limb was measured on the 11 th d after trauma. The rats were then sacrificed and brain tissue samples were taken. The infiltra-tions of CD4 + and CD8 + cells and apnptosis in the area around the injury lesion were observed with immunohisto-chemical methods. The relationship among the indexes was analyzed. Results At the 11th d after brain injury, the quantities of CD4 + and CD8 + cells and apoptotic cells in magnetotherapy group were all obviously less than those in non-magnetotherapy group. Average contraction strength of gastrocnemius in magnetotherapy group was significantly stronger than that in non-magnetotherapy group. Conclusions Magnetotherapy can relieve the secondary effects of brain injury and induce neuro-protection effects. This may involve decreasing the local infiltrations of CD4 + and CD8 + and apoptotic cells in the area around the injury lesion.

Objective To investigate the effect of different duration skeletal muscle denervation on acetylcholine receptor activity in rats.Methods Fourteen Balb/c mice weighing 18-22 g were used in this study.The denervation model was established by excising sciatic nerve.Two rats were chosen before(T0 ) and at days 1,4,7,14,21 and 28 after excising sciatic nerve (T1～6),and flexor digitorum brevis of the hindfoot was acutely isolated Skeletal muscle cells were isolated ( five cells in each rat),the acetylcholine currents were recorded using whole-cell patch-clamo technique.Extracellular fluid containing 30 μmol/L acetylcholine was first applied to skeletal muscle cells for 10 s,acetylcholine currents (11)were recorded,then the ceils were washed out using extracellularfluid.Skeletal muscle cells were balanced using extracellular fluid containing 0,0.1,1,10,30,100,1000,3000,or 10 000 nmol/L atracurium for 3 min respectively,then perfused using extracellular fluid containing 30 μmol/L acetylcholine and differents concentrations of atracurium mentioned above for 10 s respectively,and acetylcholine currents were recorded,then the cells were washed out,and 30 μmol/L acetylcholine was perfused again and currents(I2 ) were recorded.The mean value of I1 and I2 was taken as control current,and inhibitory percentage of control current was calculated,and the inhibition concentrations for the half-maximal response (IC50) of atracurium were determined by nonlinear regression analysis.Results Compared with T0,IC50 significantly increased at T1～6 ( P ＜ 0.05).IC50 was increased gradually at T1～3 ( P ＜ 0.05).Compared with T3,IC50 was decreased at T4～6 ( P ＜ 0.05).IC50 was decreased gradually at T4～6 ( P ＜ 0.05 ).Conclusion Skeletal muscle denervation can inhibite acetylcholine receptor activity,which is relate to the denervation time.

Objective To explore the long-term effectiveness of using extracorporeal shock waves in the treatment of plantar fasciitis. Methods Extracorporeal shock wave therapy was applied to 23 plantar fasciitis suffer-ers once a week for three weeks. MRI examinations were performed before and 4 hours after the first treatment. Before the treatment and one month after it was complete, all of the patients rated their pain using a visual analogue scale ( VAS) , and their infirmity was quantified using a heel tenderness index ( HTI) and the ankle-hind foot scale of the American Orthopaedic Foot and Ankle Society ( AOFAS) . The longest walking time was also recorded. Paired t-tests compared the T2 values of the fascia, muscles and fat pads, the longest walking time and the VAS scores before and after the treatment. Pearson correlation coefficients were evaluated to test the significance of any correlation between the T2 changes and the changes in the VAS scores. Results After the shock wave therapy, the average VAS, HIT and AOFAS scores had significantly decreased, while the longest walking time had increased significantly. The mag-netic resonance imaging showed increased edema in the fascia and their surrounding soft tissues. And the extent and degree of the T2 weighted high signal increased four hours after the treatment. The changes in the T2 values correlated positively and significantly with the changes in the VAS scores. Conclusion Extracorporeal shock waves have an excellent therapeutic effect on plantar fasciitis. They can significantly relieve heel pain and improve foot movement.