Effect of Ultra-low Frequency Transcranial Magnetic Stimulation on Cerebral Blood Flow in Children with Cerebral Palsy / 中国康复理论与实践

@#Objective To observe the effect of ultra-low frequency transcranial magnetic stimulation on cerebral blood flow in children with spastic diplegia cerebral palsy. Methods 36 cases of spastic diplegia cerebral palsy were divided into control group (n=21) and obsevation group (n=15), 19 healthy children were as normal group. The control group received conventional rehabilitation training. The obsevation group received the ultra-low frequency transcranial magnetic stimulation in addition. All the children received the check of transcranial color Doppler (TCD). Results Several arterials flow velocity was lower, several arterials pulsatility index and resistance index were higher in the obsevation group than in the normal group before treatment (P<0.05). Compared with the control group, the arterial flow of obsevation group improved, pulsatility index and resistance index decreased in some degrees in the obsevation group after treatment (P<0.05). Conclusion The cerebral blood flow is of low velocity and high resistance in spastic diplegia children, while ultra-low frequency magnetic stimulation could improve the condition of cerebral flow.

Low frequency (0.5Hz) rTMS over the right (non-dominant) motor cortex does not affect ipsilateral hand performance in healthy humans / A inibição do córtex motor não-dominante por meio da estimulação magnética transcraniana a 0, 5Hz não interfere no desempenho manual ipsilateral de sujeitos hígidos

Reduction of excitability of the dominant primary motor cortex (M1) improves ipsilateral hand function in healthy subjects. In analogy, inhibition of non-dominant M1 should also improve ipsilateral performance. In order to investigate this hypothesis, we have used slow repetitive transcranial magnetic stimulation (rTMS) and the Purdue Pegboard test. Twenty-eight volunteers underwent 10 minutes of either 0.5Hz rTMS over right M1 or sham rTMS (coil perpendicular to scalp). The motor task was performed before, immediately after, and 20 minutes after rTMS. In both groups, motor performance improved significantly throughout the sessions. rTMS inhibition of the non-dominant M1 had no significant influence over ipsilateral or contralateral manual dexterity, even though the results were limited by unequal performance between groups at baseline. This is in contrast to an improvement in left hand function previously described following slow rTMS over left M1, and suggests a less prominent physiological transcallosal inhibition from right to left M1.

A redução da excitabilidade do córtex motor primário (M1) dominante melhora o desempenho manual ipsilateral: a inibição do M1 não-dominante poderia, analogamente, aprimorar a função manual direita. Para investigar esta hipótese, utilizou-se a estimulação magnética transcraniana repetitiva (EMTr) de baixa frequência e o teste Purdue Pegboard. Submetemos 28 voluntários a 10 minutos de EMTr sobre o M1 direito (0,5 Hz) ou a EMTr placebo (bobina perpendicular ao escalpo). O teste foi executado antes, imediatamente após e 20 minutos após a EMTr. Nos dois grupos, o desempenho manual mostrou significativa melhora entre as sessões. A inibição do M1 não-dominante não influenciou significativamente a destreza motora ipsi ou contralateral, apesar da conclusão limitada pelo desempenho discrepante dos grupos na primeira sessão. Este resultado contrasta com a melhora da função manual esquerda descrita após a EMTr sobre o M1 esquerdo e sugere uma inibição transcalosa fisiológica menos intensa do M1 direito para o esquerdo.

Low frequency transcranial magnetic stimulation changes seizure and neuropeptide Y expression of hippocampal neurons in rats epilepsy induced by pilocarpine / 中华物理医学与康复杂志

Objective To observe the effects of low frequency transcranial magnetic stimulation (LF-TMS) on the electroencephalogram (EEG),expression of NPY in hippocampus in pilocarpine (PLO)-induced epileptic rats. Methods Forty male Sprague-Dawley rats (240-260 g) were used to establish a model of epilepsy by in- tradominal injection of pilocarpine,and then randomized into 2 groups:a control group and an intervention group. The control group was treated by sham LF-TMS,while the intervention group was treated by LF-TMS once daily for 7 days.Ⅰgroup simply celiac inject pilocarpine.Ⅱgroup celiac inject PLO after LF-TMS.The EEG was recorded in both groups and the checked pathology.Pathological item include HE staining,NPY immunohisto chemical staining. Results The latency for seizure attack was significantly lengthened,while the frequency of seizure attack and times of major seizure attack were significantly decreased in the intervention group.The HE staining revealed significant de- generation and necrosis of neurons in the hippocampus,especially in the CA3 region,in rats in the control group. The pathologic changes were significantly less severe in the intervention,Immunohistochemical staining showed a sig- nificantly higher expression of NPY in the hippocampus as compared with the intervention group. Conclusion U- sing the PLO-induced epilepsy model,LF-TMS could not only postpone the generation of kindling but also inhibit the progress of epilepsy.The increased NPY expression in the hippocampusin the intervention group implied a close rela- tionship between NPY and epilepsy attack.