中华手外科杂志
中華手外科雜誌
중화수외과잡지
CHINESE JOURNAL OF HAND SURGERY
2008年
3期
137-139
,共3页
周文俊%张成钢%胡韶楠%朱艺%徐建光
週文俊%張成鋼%鬍韶楠%硃藝%徐建光
주문준%장성강%호소남%주예%서건광
臂丛%神经移位%肌皮神经%电生理学%逆行染色
臂叢%神經移位%肌皮神經%電生理學%逆行染色
비총%신경이위%기피신경%전생이학%역행염색
Brachial plexus%Nerve transfer%Musculocutaneous nerve%Electrophysiology%Neuron tracing
目的 比较逆行示踪法及肌电图检测法在定位肱肌肌支及肱肌脊髓神经根起源中的价值,并探讨将肌电图检测法运用于定位人类肌皮神经肱肌肌支脊髓神经根起源的可能性.方法 在大鼠臂丛神经根切断-保留模型中运用神经元逆行示踪法定位肱肌肌支及肱肌的脊髓神经根起源;通过分析刺激大鼠各臂丛神经根时肱肌记录到的CMAP指标定位肱肌肌支及肱肌的脊髓神经根起源.结果 大鼠桡神经肱肌肌支的运动纤维主要来源于C7神经根,大鼠肌皮神经肱肌肌支的运动纤维主要来源于C5、6神经根;在定位大鼠肱肌的脊髓神经根起源时,肌电图法与逆行示踪法的检测结果基本一致.结论 通过分析逆行示踪和肌电图检测的结果,能够精确定位大鼠特定神经、肌肉的脊髓神经根来源;在临床研究中,肌电图检测法可以用于定位人类肌皮神经肱肌肌支的脊髓神经根起源.
目的 比較逆行示蹤法及肌電圖檢測法在定位肱肌肌支及肱肌脊髓神經根起源中的價值,併探討將肌電圖檢測法運用于定位人類肌皮神經肱肌肌支脊髓神經根起源的可能性.方法 在大鼠臂叢神經根切斷-保留模型中運用神經元逆行示蹤法定位肱肌肌支及肱肌的脊髓神經根起源;通過分析刺激大鼠各臂叢神經根時肱肌記錄到的CMAP指標定位肱肌肌支及肱肌的脊髓神經根起源.結果 大鼠橈神經肱肌肌支的運動纖維主要來源于C7神經根,大鼠肌皮神經肱肌肌支的運動纖維主要來源于C5、6神經根;在定位大鼠肱肌的脊髓神經根起源時,肌電圖法與逆行示蹤法的檢測結果基本一緻.結論 通過分析逆行示蹤和肌電圖檢測的結果,能夠精確定位大鼠特定神經、肌肉的脊髓神經根來源;在臨床研究中,肌電圖檢測法可以用于定位人類肌皮神經肱肌肌支的脊髓神經根起源.
목적 비교역행시종법급기전도검측법재정위굉기기지급굉기척수신경근기원중적개치,병탐토장기전도검측법운용우정위인류기피신경굉기기지척수신경근기원적가능성.방법 재대서비총신경근절단-보류모형중운용신경원역행시종법정위굉기기지급굉기적척수신경근기원;통과분석자격대서각비총신경근시굉기기록도적CMAP지표정위굉기기지급굉기적척수신경근기원.결과 대서뇨신경굉기기지적운동섬유주요래원우C7신경근,대서기피신경굉기기지적운동섬유주요래원우C5、6신경근;재정위대서굉기적척수신경근기원시,기전도법여역행시종법적검측결과기본일치.결론 통과분석역행시종화기전도검측적결과,능구정학정위대서특정신경、기육적척수신경근래원;재림상연구중,기전도검측법가이용우정위인류기피신경굉기기지적척수신경근기원.
Objective To compare the efficacy of retrograde tracing and electrophysiologic localization in precise orientation of brachialis muscle branch in the spinal nerve roots in a rat model, and discuss the feasibility of electrophysiological orientation of brachialis muscle branch of the musculocutaneous nerve in human. Methods Adult Sprague Dawley rats were used. Retrograde tracing of brachialis muscle branch or brachialis muscle in various combinations of nerve root transection-preservation was done. Compound muscle action potentials of brachialis muscle were recorded while various roots of the brachial plexus were stimulated. Results Brachialis muscle in rat received dual innervation from the musculocutaneous nerve and radial nerve. The former was mainly from C5 and C6 spinal nerve roots and the latter from C7 spinal nerve root. The results of retrograde tracing agreed with the results of electrophysiologic testing. Conclusion Both retrograde tracing and electrophysiologic testing could be used in precise localization of spinal nerve root origin of forelimb muscles. Electrophysiological studies could be employed in precise orientation of brachialis and its motor branches in human.