临床骨科杂志
臨床骨科雜誌
림상골과잡지
JOURNAL OF CLINICAL ORTHOPAEDICS
2014年
5期
601-603
,共3页
薛文%张辉%钱耀文%刘林
薛文%張輝%錢耀文%劉林
설문%장휘%전요문%류림
腰椎间盘退变%神经生长因子%P物质%感觉神经%体外培养%下腰痛
腰椎間盤退變%神經生長因子%P物質%感覺神經%體外培養%下腰痛
요추간반퇴변%신경생장인자%P물질%감각신경%체외배양%하요통
degeneration of the lumbar intervertebral disc%nerve growth factor%substance P%sensory nerve fibers%vitro model%low back pain
目的:采用体外模型对比研究观察、评估人椎间盘源性下腰痛( DLBP)椎间盘细胞外基质对小鼠背根神经节神经轴突生长的促进作用和P物质( SP)的诱导作用。方法从DLBP患者的椎间盘组织(实验组)以及腰椎骨折患者腰椎间盘组织(对照组)中提取细胞基质,分别检测神经生长因子( NGF)的含量,并对小鼠背根神经节神经元( DRG )进行培养,通过形态学观察神经轴突生长和酶联免疫吸附法检测SP含量。结果实验组NGF浓度显著高于对照组(P<0.05);神经轴突平均长度实验组为134.17μm ±2.21μm,明显高于对照组的121.28μm ±4.10μm,差异有统计学意义( P <0.05)。实验组中 SP 物质比率明显高于对照组( P <0.01)。结论人退变椎间盘细胞外基质中高表达的NGF能促进感觉神经轴突的生长以及诱导和疼痛相关神经肽的释放。
目的:採用體外模型對比研究觀察、評估人椎間盤源性下腰痛( DLBP)椎間盤細胞外基質對小鼠揹根神經節神經軸突生長的促進作用和P物質( SP)的誘導作用。方法從DLBP患者的椎間盤組織(實驗組)以及腰椎骨摺患者腰椎間盤組織(對照組)中提取細胞基質,分彆檢測神經生長因子( NGF)的含量,併對小鼠揹根神經節神經元( DRG )進行培養,通過形態學觀察神經軸突生長和酶聯免疫吸附法檢測SP含量。結果實驗組NGF濃度顯著高于對照組(P<0.05);神經軸突平均長度實驗組為134.17μm ±2.21μm,明顯高于對照組的121.28μm ±4.10μm,差異有統計學意義( P <0.05)。實驗組中 SP 物質比率明顯高于對照組( P <0.01)。結論人退變椎間盤細胞外基質中高錶達的NGF能促進感覺神經軸突的生長以及誘導和疼痛相關神經肽的釋放。
목적:채용체외모형대비연구관찰、평고인추간반원성하요통( DLBP)추간반세포외기질대소서배근신경절신경축돌생장적촉진작용화P물질( SP)적유도작용。방법종DLBP환자적추간반조직(실험조)이급요추골절환자요추간반조직(대조조)중제취세포기질,분별검측신경생장인자( NGF)적함량,병대소서배근신경절신경원( DRG )진행배양,통과형태학관찰신경축돌생장화매련면역흡부법검측SP함량。결과실험조NGF농도현저고우대조조(P<0.05);신경축돌평균장도실험조위134.17μm ±2.21μm,명현고우대조조적121.28μm ±4.10μm,차이유통계학의의( P <0.05)。실험조중 SP 물질비솔명현고우대조조( P <0.01)。결론인퇴변추간반세포외기질중고표체적NGF능촉진감각신경축돌적생장이급유도화동통상관신경태적석방。
Objective To evaluate the axonal growth and induction of a painful neuropeptide, substance P ( SP) , u-sing rat dorsal root ganglion ( DRG) neurons and degenerated human disc cells in vitro. Methods The human inter-vertebral discs were harvested from patients with discogenic low back pain and normal people. Extracted medium from human degenerative intervertebral discs was cultured with neurons of rat DRGs. The promotion of axonal growth and SP induction of DRG neurons were evaluated in extracted medium using immunocytochemistry. Results The content of nerve growth factor ( NGF) in the discogenic low back pain was significantly longer than that in the normal people (P<0. 05). The average length of growing axons in the discogenic low back pain was 134. 17μm ± 2. 21μm. It was significantly longer than that in the normal people, which was 121. 28μm ± 4. 10 μm(P<0. 05). The percentage of SP-immunoreactive cells with growing axons was significantly higher only in the discogenic low back pain group com-pared with the anti-nerve growth factorβtreatment and normal groups (P<0. 01). Conclusions Extracted medium from the degenerative intervertebral dics promotes axonal growth. Furthermore, NGF promotes axonal growth and in-duces SP. These in vitro results may suggest that NGF promotes the growth of sensory nerve fibers innervating the de-generated intervertebral disc and may induce SP related with pain transmission.
