Nerve conduction study in young children suffering from cerebral palsy

Q4 Pharmacology, Toxicology and Pharmaceutics

Indian journal of physiology and pharmacology Pub Date : 2023-07-01 DOI:10.25259/ijpp_423_2022

Indrani Basak, A. K. Tiwari, R. Prasad, R. Pandey, T. Singh, M. B. Mandal, Priyanka Bhagat

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Abstract

Cerebral palsy (CP) is a motor impairment syndrome leading to disorders of movement and posture. Screening of electrophysiological parameters Hoffman reflex (H-reflex and nerve conduction velocities) becomes a necessary for the early detection and management of the disease. The study aimed to assess the various electrophysiological parameters of nerve conduction velocity in CP and age-matched normal children. The present cross-sectional study was performed between children suffering from CP and healthy control. A total of 27 children of 12–24 months of age of either sex were examined. Among them, six children were normal (with age match), seven were diagnosed with spastic CP and remaining 14 children were diagnosed with hypotonic CP The electrophysiological parameters were recorded in the right lower limb (posterior tibial nerve-soleus muscle) of all children. In electrophysiological parameters, H-reflex latency in secs values was significantly decreased in all CP children. The maximum amplitudes of reflexly excitable motor neurons (Hmax) (mV) and Hmax/maximum amplitude of motor response ratio in the gastrocnemius-soleus muscle were significantly increased in spastic CPas compared to control. H-reflex conduction velocity (HRCV) was significantly higher than motor nerve conduction velocity (MNCV) in hypotonic CP children. The electrophysiological parameters were altered in spastic CP children. The electrophysiological parameters in hypotonic CP were within range, indicating they did not suppress the neuronal motor pool. However, HRCV was significantly more than MNCV in hypotonic CP, suggesting some myelination process defect/white matter injury in motor neurons. We concluded that the electrophysiological parameters of the nerve conduction study are a reliable test for the assessment of tone of muscles in children. Thus, it may help in the early initiation of the treatment and therapies in CP children.

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小儿脑瘫的神经传导研究

脑瘫是一种导致运动和姿势障碍的运动障碍综合征。筛选电生理参数Hoffman反射（H反射和神经传导速度）对于疾病的早期检测和管理是必要的。本研究旨在评估CP和年龄匹配的正常儿童神经传导速度的各种电生理参数。本横断面研究是在患有CP的儿童和健康对照组之间进行的。共有27名年龄在12-24个月之间的儿童接受了检查。其中6例儿童正常（年龄匹配），7例诊断为痉挛性CP，其余14例诊断为低张性CP。记录所有儿童右下肢（胫后神经比目鱼肌）的电生理参数。在电生理参数方面，所有CP儿童的H反射潜伏期（secs值）均显著降低。与对照组相比，痉挛型CP中腓肠肌的反射兴奋性运动神经元的最大振幅（Hmax）（mV）和Hmax/运动反应比的最大振幅显著增加。低张CP患儿的H反射传导速度（HRCV）明显高于运动神经传导速度（MNCV）。痉挛型CP患儿的电生理参数发生改变。低张CP的电生理参数在范围内，表明它们没有抑制神经元运动池。然而，在低张CP中，HRCV显著高于MNCV，表明运动神经元存在髓鞘形成过程缺陷/白质损伤。我们得出结论，神经传导研究的电生理参数是评估儿童肌肉张力的可靠测试。因此，它可能有助于CP儿童早期开始治疗和治疗。

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来源期刊

Indian journal of physiology and pharmacology Pharmacology, Toxicology and Pharmaceutics-Pharmacology

CiteScore

0.50

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0.00%

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期刊介绍： Indian Journal of Physiology and Pharmacology (IJPP) welcomes original manuscripts based upon research in physiological, pharmacological and allied sciences from any part of the world.