推拿通过影响NT-3、TrkC表达促进SNI大鼠恢复的机理研究
|
摘要
[目的]
通过行为学与形态学指标,研究推拿手法促进坐骨神经损伤(sciatic nerve injury,SNI)大鼠神经功能恢复的疗效,再通过神经营养素3(neurotrophin-3, NT-3)、TrkC (tyrosine kinase receptors C,TrkC)在脊髓、背根神经节(dorsal root ganglion,DRG)中的表达情况深入分析推拿修复SNI的起效途径。
[方法]
以SD大鼠作为实验动物,通过坐骨神经夹持形成大鼠周围神经损伤(peripheral nerve injury,PNI)模型,后用“按摩推拿手法模拟仪”模拟拨法、点法、揉法对推拿组大鼠进行推拿干预,分别在殷门、承山、阳陵泉处治疗,每穴每法各lmin。干预结束后,以光热耐痛阈、坐骨神经功能指数(Sciatic functional index,SFI)、BBB评分评价大鼠感觉、运动功能的恢复情况;再对脊髓、损伤处神经、腓肠肌的形态学切片进行观察分析,寻找推拿手法加强损伤神经再生的证据;最后对脊髓、DRG中NT-3、TrkC的含量进行检测,探讨、阐释推拿促进PNI再生和修复的机理。
[结果]
1行为学
BBB评分结果:造模后7d,模型组大鼠的评分结果显著低于正常组、假手术组,说明造模成功。治疗10、20次后造模3组的评分结果均有所提升,其中推拿组上升最多,显著高于模型组和模型对照组(p<0.05),同时仍低于正常组(p<0.05)。
SFI结果:造模后7d,模型组SFI的负值显著低于正常组和假手术组。治疗10次、20次后,模型组、模型对照组和推拿组的负值均显著低于其余2组(p<0.05)。
光热耐痛阈结果:在三次行为学检测中,大鼠左足(即正常足)光热耐痛阈结果的组间比较均没有统计学意义。右足的结果则有显著差异。造模后7d,模型组显著高于正常组和假手术组(p<0.05),说明造模导致神经纤维连续性中断,痛觉传导功能受阻。推拿治疗10、20次后,推拿组的抬脚时间明显缩短,低于模型组和模型对照组(p<0.05),同时与正常组相比没有统计学差异(p>0.05),提示推拿可以促进SNI大鼠感觉功能的恢复。
2形态学
造模后7d,模型组脊髓中存在神经元凋亡,胞体肿胀等,神经则出现变性,可见脱髓鞘、肿胀、破溃等;腓肠肌则见肌细胞直径缩小、肌纤维间隙增宽等失神经支配的表现。治疗10、20次后,造模3组的病变情况均有所缓解,而推拿组修复程度优于模型组和模型对照组,同时推拿组的腓肠肌细胞直径也大于模型组和模型对照组。
有髓神经数方面,造模后7d,模型组大鼠患侧有髓神经数显著低于假手术组和模型组(p<0.05);治疗10次后,造模3组的神经数均有增加,但仍显著低于正常组(p<0.05),同时,模型组、模型对照组均低于推拿组(p<0.05);治疗20次后的结果与治疗10次后相似,且造模3组的神经数均有增加,其中推拿组更显著。
3NT-3、TrkC免疫组化结果
在脊髓腹角中,造模后7d,模型组大鼠脊髓前角NT-3的表达已明显高于正常组和假手术组。而推拿组的NT-3水平持续升高,治疗10、20次后均高于其它4组(p<0.05)。模型组和模型对照组则在治疗20次后有所升高,高于正常组(p<0.05)。
NT-3在DRG中的表达情况和在脊髓腹角中的表达情况类似。
模型组脊髓腹角TrkC造模后7d时低于正常组和假手术组(p<0.05),而在治疗10、20次后造模3组脊髓腹角中TrkC含量均升高,与正常组、假手术组比较均有统计学意义(p<0.05),同时,推拿组的含量高于模型组和模型对照组。
在DRG中,造模后7d,模型组的TrkC含量略高于正常组和假手术组(p<0.05),但治疗10、20次后模型组和模型对照组大鼠的TrkC含量均与正常组、假手术组处于相同水平(p>0.05),而推拿组的结果则始终高于其余4组(p<0.05)。
[结论]
1推拿干预可以促进SNI大鼠的光热耐痛阈、BBB评分、腓肠肌细胞直径的恢复,提示推拿可以改善SNI大鼠的感觉功能和运动功能。
2推拿干预可以增加受损神经轴突的有髓神经数,使再生神经与靶器官建立连接,促进功能恢复。
3推拿干预可以增加脊髓、DRG中NT-3、TrkC的表达,进而激活NT-3与TrkC结合后的神经元保护和神经再生途径,这可能是推拿促进神经损伤修复的起效机理之一。
[Objective]
Observe the effect of Tuina therapy to nerve functional recovery of SNI rats through behavioristics, morphology. Then probe the biological mechanisms of Tuina therapy in SNI through the content of NT-3, TrkC in spinal cord and DRG.
[Methods]
Use SD rats as experimental animals and made the SNI model by nerve clamping method. Rats were divided into5groups. Then rats were treated by manipulation simulator at BL37, BL57and GB34. After treatment, we first tested PWL, SFI, BBB score to evaluated the recovery of sensory and movement function. Then observed morphologic changes in spinal cord, sciatic nerve and gastrocnemius and search the evidence. Finally, detected the content of NT-3, TrkC in spinal cord and DRG to interpreted the mechanism of Tuina to promote nerve regeneration and repair.
[Results]
1Results of behavioristics
Results of BBB score:7days after operation, the score of the model group were significantly lower than the blank control group and sham-operated group (p <0.05). After10and20treatments, scores of Tuina group, model group and model control group were all higher than before and the score of Tuina group was the highest, which higher than model group and model control group, but still significantly lower than blank control group (p<0.05).
Results of SFI:7days after operation, the score of the model group were significantly lower than the blank control group and sham-operated group (p<0.05). After10and20treatments, scores of Tuina group, model group and model control group were still much lower than the other two groups (p>0.05).
Results of the PWL test scores:compared the PWL test scores of left foot between each group, no statistical difference. The result of the right foot had statistical difference.7days after operation, the score of the model group was significantly higher than the blank control group and sham-operated group. Indicate that the continuity of nerve fibers had been damaged by operation. The score of Tuina group was significantly lower than model group and model control group after10and20treatments (p<0.05), while no statistical differences compared with normal group (p>0.05). Indicate that Tuina therapy could promote the sensory recovery of SNI rats.
2Results of morphology
Parts of the neuron in spinal cord of model group dead7days after operation, while some of their cell body swelled etc. Degeneration, demyelination, swell and rupture had been observed in injured nerve. After10and20treatments, pathological changes of model group, model control group and Tuina group were all better than before. The recovery of Tuina group was better. Meanwhile, the diameter of affected gastrocnemius cells of Tuina group was bigger than model group and model control group.
Numbers of myelinated nerve fiber of model group was much lower than model group and sham-operated group7days after operation (p<0.05). After10treatments, numbers of myelinated nerve fiber of model group, model control group and Tuina group were higher than before, but still much lower than blank control group (p<0.05). Meanwhile, numbers of model group and model control group were all lower than Tuina group (p<0.05). Result after20treatments is similar to10treatments, and numbers of model group, model control group and Tuina group all increased, numbers of Tuina group increased more.
3Results of the NT-3, TrkC
In the spinal cord ventral horn, the NT-3level of model group was higher than blank control group (p<0.05). Meanwhile, the NT-3level of Tuina group continued to rises after10and20treatments and all higher than other four groups (p<0.05). The NT-3levels of model group was increased after20treatments, higher than blank control group but lower than Tuina group (p<0.05).
Results of the NT-3in DRG were similar to results in the spinal cord ventral horn.
In the spinal cord ventral horn, the TrkC level of model group was higher than blank control group (p<0.05). After10and20treatments, the TrkC levels of model group, model control group and Tuina group were all higher than other two groups (p<0.05). Meanwhile, level of Tuina group was higher than model group and model control group.
In DRG, the TrkC level of model group was higher than blank control group7days after operation (p<0.05). After10and20treatments, the TrkC level of Tuina group was higher than other groups (p<0.05).
[Conclusion]
1Tuina therapy could promote the PWL scores and BBB scores of the SNI rats which indicate that Tuina is effective to improve the sensory and movement function.
2Tuina therapy could increase the number of myelinated nerve fiber, rebuild connection between damage nerve axons and the target organ, then promote the recovery of nerve function.
3Tuina therapy could increase the level of NT-3and TrkC in spinal cord and DRG, then activated the combination of NT-3and TrkC, finally nerve regeneration started and neurons were protected. This could be a mechanism of Tuina therapy of promoting nerve injury repair.
通过行为学与形态学指标,研究推拿手法促进坐骨神经损伤(sciatic nerve injury,SNI)大鼠神经功能恢复的疗效,再通过神经营养素3(neurotrophin-3, NT-3)、TrkC (tyrosine kinase receptors C,TrkC)在脊髓、背根神经节(dorsal root ganglion,DRG)中的表达情况深入分析推拿修复SNI的起效途径。
[方法]
以SD大鼠作为实验动物,通过坐骨神经夹持形成大鼠周围神经损伤(peripheral nerve injury,PNI)模型,后用“按摩推拿手法模拟仪”模拟拨法、点法、揉法对推拿组大鼠进行推拿干预,分别在殷门、承山、阳陵泉处治疗,每穴每法各lmin。干预结束后,以光热耐痛阈、坐骨神经功能指数(Sciatic functional index,SFI)、BBB评分评价大鼠感觉、运动功能的恢复情况;再对脊髓、损伤处神经、腓肠肌的形态学切片进行观察分析,寻找推拿手法加强损伤神经再生的证据;最后对脊髓、DRG中NT-3、TrkC的含量进行检测,探讨、阐释推拿促进PNI再生和修复的机理。
[结果]
1行为学
BBB评分结果:造模后7d,模型组大鼠的评分结果显著低于正常组、假手术组,说明造模成功。治疗10、20次后造模3组的评分结果均有所提升,其中推拿组上升最多,显著高于模型组和模型对照组(p<0.05),同时仍低于正常组(p<0.05)。
SFI结果:造模后7d,模型组SFI的负值显著低于正常组和假手术组。治疗10次、20次后,模型组、模型对照组和推拿组的负值均显著低于其余2组(p<0.05)。
光热耐痛阈结果:在三次行为学检测中,大鼠左足(即正常足)光热耐痛阈结果的组间比较均没有统计学意义。右足的结果则有显著差异。造模后7d,模型组显著高于正常组和假手术组(p<0.05),说明造模导致神经纤维连续性中断,痛觉传导功能受阻。推拿治疗10、20次后,推拿组的抬脚时间明显缩短,低于模型组和模型对照组(p<0.05),同时与正常组相比没有统计学差异(p>0.05),提示推拿可以促进SNI大鼠感觉功能的恢复。
2形态学
造模后7d,模型组脊髓中存在神经元凋亡,胞体肿胀等,神经则出现变性,可见脱髓鞘、肿胀、破溃等;腓肠肌则见肌细胞直径缩小、肌纤维间隙增宽等失神经支配的表现。治疗10、20次后,造模3组的病变情况均有所缓解,而推拿组修复程度优于模型组和模型对照组,同时推拿组的腓肠肌细胞直径也大于模型组和模型对照组。
有髓神经数方面,造模后7d,模型组大鼠患侧有髓神经数显著低于假手术组和模型组(p<0.05);治疗10次后,造模3组的神经数均有增加,但仍显著低于正常组(p<0.05),同时,模型组、模型对照组均低于推拿组(p<0.05);治疗20次后的结果与治疗10次后相似,且造模3组的神经数均有增加,其中推拿组更显著。
3NT-3、TrkC免疫组化结果
在脊髓腹角中,造模后7d,模型组大鼠脊髓前角NT-3的表达已明显高于正常组和假手术组。而推拿组的NT-3水平持续升高,治疗10、20次后均高于其它4组(p<0.05)。模型组和模型对照组则在治疗20次后有所升高,高于正常组(p<0.05)。
NT-3在DRG中的表达情况和在脊髓腹角中的表达情况类似。
模型组脊髓腹角TrkC造模后7d时低于正常组和假手术组(p<0.05),而在治疗10、20次后造模3组脊髓腹角中TrkC含量均升高,与正常组、假手术组比较均有统计学意义(p<0.05),同时,推拿组的含量高于模型组和模型对照组。
在DRG中,造模后7d,模型组的TrkC含量略高于正常组和假手术组(p<0.05),但治疗10、20次后模型组和模型对照组大鼠的TrkC含量均与正常组、假手术组处于相同水平(p>0.05),而推拿组的结果则始终高于其余4组(p<0.05)。
[结论]
1推拿干预可以促进SNI大鼠的光热耐痛阈、BBB评分、腓肠肌细胞直径的恢复,提示推拿可以改善SNI大鼠的感觉功能和运动功能。
2推拿干预可以增加受损神经轴突的有髓神经数,使再生神经与靶器官建立连接,促进功能恢复。
3推拿干预可以增加脊髓、DRG中NT-3、TrkC的表达,进而激活NT-3与TrkC结合后的神经元保护和神经再生途径,这可能是推拿促进神经损伤修复的起效机理之一。
[Objective]
Observe the effect of Tuina therapy to nerve functional recovery of SNI rats through behavioristics, morphology. Then probe the biological mechanisms of Tuina therapy in SNI through the content of NT-3, TrkC in spinal cord and DRG.
[Methods]
Use SD rats as experimental animals and made the SNI model by nerve clamping method. Rats were divided into5groups. Then rats were treated by manipulation simulator at BL37, BL57and GB34. After treatment, we first tested PWL, SFI, BBB score to evaluated the recovery of sensory and movement function. Then observed morphologic changes in spinal cord, sciatic nerve and gastrocnemius and search the evidence. Finally, detected the content of NT-3, TrkC in spinal cord and DRG to interpreted the mechanism of Tuina to promote nerve regeneration and repair.
[Results]
1Results of behavioristics
Results of BBB score:7days after operation, the score of the model group were significantly lower than the blank control group and sham-operated group (p <0.05). After10and20treatments, scores of Tuina group, model group and model control group were all higher than before and the score of Tuina group was the highest, which higher than model group and model control group, but still significantly lower than blank control group (p<0.05).
Results of SFI:7days after operation, the score of the model group were significantly lower than the blank control group and sham-operated group (p<0.05). After10and20treatments, scores of Tuina group, model group and model control group were still much lower than the other two groups (p>0.05).
Results of the PWL test scores:compared the PWL test scores of left foot between each group, no statistical difference. The result of the right foot had statistical difference.7days after operation, the score of the model group was significantly higher than the blank control group and sham-operated group. Indicate that the continuity of nerve fibers had been damaged by operation. The score of Tuina group was significantly lower than model group and model control group after10and20treatments (p<0.05), while no statistical differences compared with normal group (p>0.05). Indicate that Tuina therapy could promote the sensory recovery of SNI rats.
2Results of morphology
Parts of the neuron in spinal cord of model group dead7days after operation, while some of their cell body swelled etc. Degeneration, demyelination, swell and rupture had been observed in injured nerve. After10and20treatments, pathological changes of model group, model control group and Tuina group were all better than before. The recovery of Tuina group was better. Meanwhile, the diameter of affected gastrocnemius cells of Tuina group was bigger than model group and model control group.
Numbers of myelinated nerve fiber of model group was much lower than model group and sham-operated group7days after operation (p<0.05). After10treatments, numbers of myelinated nerve fiber of model group, model control group and Tuina group were higher than before, but still much lower than blank control group (p<0.05). Meanwhile, numbers of model group and model control group were all lower than Tuina group (p<0.05). Result after20treatments is similar to10treatments, and numbers of model group, model control group and Tuina group all increased, numbers of Tuina group increased more.
3Results of the NT-3, TrkC
In the spinal cord ventral horn, the NT-3level of model group was higher than blank control group (p<0.05). Meanwhile, the NT-3level of Tuina group continued to rises after10and20treatments and all higher than other four groups (p<0.05). The NT-3levels of model group was increased after20treatments, higher than blank control group but lower than Tuina group (p<0.05).
Results of the NT-3in DRG were similar to results in the spinal cord ventral horn.
In the spinal cord ventral horn, the TrkC level of model group was higher than blank control group (p<0.05). After10and20treatments, the TrkC levels of model group, model control group and Tuina group were all higher than other two groups (p<0.05). Meanwhile, level of Tuina group was higher than model group and model control group.
In DRG, the TrkC level of model group was higher than blank control group7days after operation (p<0.05). After10and20treatments, the TrkC level of Tuina group was higher than other groups (p<0.05).
[Conclusion]
1Tuina therapy could promote the PWL scores and BBB scores of the SNI rats which indicate that Tuina is effective to improve the sensory and movement function.
2Tuina therapy could increase the number of myelinated nerve fiber, rebuild connection between damage nerve axons and the target organ, then promote the recovery of nerve function.
3Tuina therapy could increase the level of NT-3and TrkC in spinal cord and DRG, then activated the combination of NT-3and TrkC, finally nerve regeneration started and neurons were protected. This could be a mechanism of Tuina therapy of promoting nerve injury repair.
引文
[1]杜旭,王瑞辉,张秋红,等.电针对坐骨神经损伤大鼠雪旺细胞及其神经功能的影响[J].陕西中医,2012,33(5):621-624.
[2]李绪松,郑臣校,苏永康.黄龙通络汤内服治疗周围神经损伤的临床研究[J].现代中西医结合杂志,2012,21(19):2061-2062.
[3]王淑敏,郭焱.补阳还五汤加减治疗产后下肢周围神经损伤1例[J].吉林中医药,2012,32(12):1279-1290.
[4]Zochodne D W, Cheng C. Neurotrophins and other growth factors in the regenerative milieu of proximal nerve stump tips[J]. J Anat,2000,196(5):279-283.
[5]Burnett M G, Zager E L. Pathophysiology of peripheral nerve injury:a brief review[J]. Neurosurg Focus,2004,16(5):11-23.
[6]赵廷浩,卞景芝,陈慧娲,等.回神颗粒对大鼠坐骨神经损伤后神经与骨骼肌组织形态学的影响[J].天津中医药,2006,23(4):320-323.
[7]陈镜聪,李新春,万齐,等.坐骨神经牵拉伤模型MR扩散张量成像与病理的对照[J].中国组织工程研究,2013(41):7278-7283.
[8]黄耀添,王树森.周围神经损伤后脊髓神经元形态及神经活性物质变化的研究[J].中国修复重建外科杂志,1997,11(1):6-9.
[9]吴斗,刘强,陈君长,等.外周神经损伤大鼠的脊髓运动神经元组织形态学观察[J].山东医药,2006,46(12):23-24.
[10]尹方明,胡耀民,刘大庸,等.坐骨神经损伤后脊神经节神经元凋亡的形态学观察[J].解剖与临床,1997,2(2):56-57.
[11]李庆雯,石田寅夫,郭义,等.不同频率电针对大鼠坐骨神经损伤后神经组织形态学与骨骼肌肌电图的影响[J].中国针灸,2005,25(3):217-220.
[12]杨广承,薛景凤,刘爱雅,等.周围神经缺血后相关神经元凋亡及GDNF表达的动态变化[J].山东医药,2010,50(11):50-52.
[13]李光华,刘宏鹏,周旭,等.运动训练对坐骨神经损伤小鼠神经形态和功能恢复影响的研究[J].中国康复医学杂志,2010,25(1):23-26.
[14]詹胜锋,王玉,杨启友,等.大鼠股神经再生趋化性效果评价[J].中国矫形外科杂志,2011,19(16):1369-1372.
[15]梅荣军,肖显坤,李旗,等.机械振动推拿对大鼠臂丛神经损伤恢复作用机理研究[J].针灸临床杂志,2007(12):33-35.
[16]陈宣煌,郑祖高,占鲤生,等.胆囊收缩素促大鼠坐骨神经再生的电生理检测及意义[J].海南医学院学报,2012,18(7):869-874.
[17]程真真,唐洪涛,田涛涛.加味黄芪桂枝五物汤治疗桡神经损伤的临床研究[J].中国中医骨伤科杂志,2013,21(5):25-27.
[18]孟华.坐骨神经近侧端损伤的神经电生理检查临床意义分析[J].中国现代药物应用,2013,7(15):60-61.
[19]Koenig R W, Pedro M T, Heinen C P, et al. High-resolution ultrasonography in evaluating peripheral nerve entrapment and trauma[J]. Neurosurg Focus,2009,26(2):E13.
[20]De Jose M B, Banus E, Navarro E M, et al. Ultrasound-guided supraclavicular vs infraclavicular brachial plexus blocks in children[J]. Paediatr Anaesth,2008,18(9):838-844.
[21]王国荣.高频超声诊断外周神经病变临床分析[J].中国实用神经疾病杂志,2011,14(17):77-78.
[22]曹洪艳,陈定章,丛锐,等.高频超声在肘管综合征诊断中的应用[J].中国超声医学杂志,2008,24(6):546-548.
[23]吴道珠,倪双双,罗洪霞,等.高频超声检查在诊断周围神经损伤中的应用[J].中医正骨,2012(1):35-36.
[24]陈为民,姚静,王怡,等.外周神经病变的高频超声检查[J].中国医学计算机成像杂志,2007,13(1):50-53.
[25]范军胜,劳镇国,谢晓燕,等.外周神经损伤的高频超声诊断研究[J].中华显微外科杂志,2003,26(4):270-272.
[26]Swanger R S, Maldjian C, Buckley K. MRI Appearance of Nerve Regeneration in a Surgically Repaired Ulnar Nerve[J]. European Journal of Trauma and Emergency Surgery,2010,36(1):73-75.
[27]周翠屏.兔坐骨神经牵拉伤的MRI、病理及功能评价相关性研究[D].中山大学,2007.
[28]Hiltunen J, Suortti T, Arvela S, et al. Diffusion tensor imaging and tractography of distal peripheral nerves at 3 T[J]. Clin Neurophysiol,2005,116(10):2315-2323.
[29]Jambawalikar S, Baum J, Button T, et al. Diffusion tensor imaging of peripheral nerves[J]. Skeletal Radiol,2010,39(11):1073-1079.
[30]Cauley K A, Filippi C G. Diffusion-tensor imaging of small nerve bundles: cranial nerves, peripheral nerves, distal spinal cord, and lumbar nerve roots--clinical applications[J]. AJR Am J Roentgenol,2013,201(2):W326-W335.
[31]顾晨,胡文,邓爱东,等.成人腕部正中神经断裂后靶皮肤血流灌注的初步研究[J].南通大学学报(医学版),2012,32(3):177-179.
[32]Hu W, Yang M, Chang J, et al. Laser doppler perfusion imaging of skin territory to reflect autonomic functional recovery following sciatic nerve autografting repair in rats[J]. Microsurgery,2012,32(2):136-143.
[33]沈钟一,顾天文,胡文.大鼠坐骨神经切断后足底皮肤血流灌注变化研究[J].南京医科大学学报(自然科学版),2013,33(6):779-783.
[34]胡文,常景建,杨旻,等.大鼠坐骨神经缺损自体神经桥接修复后靶皮肤局部控温调节功能重建初步研究[C].郑州:2011.
[35]朱奇,王小平,季莘,等.大鼠双侧坐骨神经离断后全血钙镁铁锌铜的含量变化[J].中国卫生检验杂志,2013,23(5):1154-1157.
[36]Seddon H J. Three Types of Nerve Injury[J]. Brain,1943,66(4):237-288.
[37]Jabaley M E. Nerves and Nerve Injuries.2nd ed[J]. The Journal of Hand Surgery,1980,5(5):515-517.
[38]Mackinnon S E, Dellon A L. Surgery of the peripheral nerve[G]. New York:Thieme:1988.
[39]王金保,聂发传.改良坐骨神经慢性压迫性损伤模型的建立[J].华北国防医药,2007,19(3):1-3.
[40]林献忠,林健清,高友光,等.坐骨神经慢性结扎损伤模型大鼠脊髓细胞因子表达的变化[J].临床麻醉学杂志,2011,27(6):596-598.
[41]熊华花,邓志云,李学东.周围神经电损伤模型的制备[J].江西医学院学报,2006,46(2):44-46.
[42]Hasegawa K. A new method of measuring functional recovery aftercrushing the peripheral nerves in unanesthetized and unrestrained rats[J]. Experientia,1978,34(2):272-273.
[43]项大业,顾传龙,范顺武,等.rh-HBNF促周围神经损伤后再生作用的实验研究[J].浙江医学,2005,27(1):23-26,32.
[44]Mclean J, Batt J, Doering L C, et al. Enhanced rate of nerve regeneration and directional errors after sciatic nerve injury in receptor protein tyrosine phosphatase sigma knock-out mice[J]. The Journal of Neuroscience,2002,22(13):5481-5491.
[45]Luria S, Waitayawinyu T, Conniff J, et al. Glatiramer acetate immune system augmentation for peripheral nerve regeneration in rat crushed sciatic nerve model[J]. J Bone Joint Surg Am,2010,92(2):396-403.
[46]刘青龙,秦振龙.补阳还五汤并腰交感神经节切除对小腿腓肠肌湿质量的影响[J].中医学报,2013,28(7):987-988.
[47]辛铭金,姜旭光.臂丛神经损伤中医治法初探[J].四川中医,2008(8):30-32.
[48]陈敏,王彩姣,刘彩霞,等.穴位按摩在新生儿臂丛神经损伤护理中的应用[J].护理研究,2009,23(14):1280.
[49]李毓,金晓菊,文娟.综合疗法治疗小儿臂丛神经损伤42例疗效观察[J].医学信息(中旬刊),2011,24(01):71.
[50]周俊明,徐晓君,张沈煜,等.臂丛神经损伤规范化康复治疗的临床研究[J].中国康复医学杂志,2011,26(2):124-127.
[51]梅雪蕊.回旋灸结合推拿治疗小儿脾胃虚弱型臂丛神经麻痹23例[J].河南中医,2012,32(03):356-357.
[52]任国强.电针配合推拿治疗分娩性臂丛神经损伤22例临床观察[J].河北中医,2012,34(04):565-566.
[53]詹秀兰.穴位注射配合推拿治疗上干型小儿臂丛神经损伤疗效观察[J].长春中医药大学学报,2012,28(04):744.
[54]张雪艳,尹昊.综合康复疗法治疗小儿臂丛神经损伤的临床研究[J].中国医学创新,2013,10(06):112-113.
[55]曲萍.小儿臂丛神经损伤30例疗效观察[J].中国实用医药,2013,8(14):127-128.
[56]马亮,王斌,尹佳丽,等.臂丛神经撕脱伤神经移位术后综合康复治疗效果观察[J].中华实用诊断与治疗杂志,2013,27(10):1019-1021.
[57]梅荣军,李旗,蔡国锋,等.机械推拿经络腧穴对大鼠臂丛神经损伤恢复作用的机理探讨[J].中国中医药科技,2007,17(6):407.
[58]梅荣军,蔡国锋,李旗.腧穴机械振动、按压对大鼠臂丛神经损伤修复的作用机理研究[J].中医药学报,2007,35(6):17-18.
[59]郭士静.推拿治疗桡神经损伤腕下垂案[J].四川中医,1994,12(01):56.
[60]罗汉华,林应强,李毅.推拿加电刺激治疗桡神经损伤12例小结[J].按摩与导引,1997(05):12-13.
[61]蒋建良.按摩配合水针治疗桡神经损伤58例[J].按摩与导引,2000,16(06):44-46.
[62]陈娟.按摩配合电脑中频治疗锁骨骨折固定后并发桡神经损伤1例[J].按摩与导引,2005,21(11):45.
[63]何强,徐麒.上肢损伤中后期桡神经失用25例治疗分析[J].中国中医骨伤科杂志,2006,14(03):40-41.
[64]戴立品,杜开先.中西医结合治疗桡神经损伤的疗效观察[J].中国实用神经疾病杂志,2008,11(10):118.
[65]孙上明,朱晓霞.电针等康复方法治疗桡神经损伤18例疗效观察[J].中国医药导报,2010,7(28):151-152.
[66]郑兰凤,叶晨阳.推拿治疗正中、尺神经损伤1例[J].按摩与导引,1998(03):34.
[67]吴文刚,杨清滨,吴振坤,等.推拿治疗周围神经损伤1245例疗效观察 [J].中国中医药信息杂志,1999,6(04):66-67.
[68]詹光宗,钟新民.推拿电针、TDP照射治疗尺神经损伤97例[J].西藏医药杂志,2002,23(01):15.
[69]李霞,何平.水针配合推拿治疗腕管综合征48例[J].针灸临床杂志,1999,15(01):39-40.
[70]杜书浩,赵铎.推拿配合中药湿敷治疗腕管综合征20例[J].天津中医学院学报,2005,24(04):191.
[71]彭德忠,张先庚.针灸推拿治疗腕管综合征32例[J].四川中医,2006,24(04):107.
[72]石玉生,房纬,赵雪圆,等.刺络配合推拿治疗轻度腕管综合征疗效对照研究[J].中国中西医结合杂志,2006,26(06):497-499.
[73]姚立平,胡义民.按摩治疗82例腕管综合征的疗效观察[J].中国实用神经疾病杂志,2008,11(01):138.
[74]刘维屏.推拿治疗腕管综合征30例[J].实用中医药杂志,2008,24(07):446.
[75]李伟.温针灸配合推拿治疗早期轻度腕管综合征疗效对照研究[J].中国实用医药,2009,4(34):206-207.
[76]Kelly C P,Pulisetti D,Jamieson A M.Early experience with endoscopic carpal tunnel release[J].J Hand Surg Br,1994,19(1):18-21.
[77]潘建安.以十宣穴为主治疗腕管综合征86例[J].上海针灸杂志,2010,29(03):189.
[78]王聪聪,石玉生.缠推法治疗轻度腕管综合征20例[J].河南中医,2012,32(10):1364.
[79]宋鸿权.推拿治疗臀上皮神经损伤100例临床观察[J].按摩与导引,2003,19(1):7-9.
[80]李汉基.手法配合中药热敷治疗臀上皮神经损伤[J].中国临床康复,2003,7(29):4044.
[81]朱小泉.手法按摩治疗臀上皮神经嵌压综合征16例[J].现代中西医结合杂志,2003,12(23):2573.
[82]路喜军.指拨法治疗臀上皮神经炎70例临床观察[J].针灸临床杂志,2005,21(07):25-26.
[83]李林华.针灸与弹拨手法治疗臀上皮神经损伤85例临床分析[J].现代临床医学,2005,31(04):231-232.
[84]李鼎斌.推拿为主治疗臀上皮神经损伤92例[J].广西中医药,2005,28(04):44.
[85]李小军,郭巧德,王洁.叠指拔筋复位治疗臀上皮神经损伤47例[J].针灸临床杂志,2007,23(10):43.
[86]楚少增,崔改琴,楚德升.针灸推拿治疗臀上皮神经损伤临床观察[J].光明中医,2011,26(04):746-747.
[87]张春健.腰臀治疗臀上皮神经损伤临床观察[J].内蒙古中医药,2011,30(2):49.
[88]刘洪宝.针刺配合推拿治疗臀上皮神经损伤疗效观察[J].上海针灸杂志,2011,30(08):562-563.
[89]刘大煌,梁恒晔,冯前.推拿配合三七散外敷治疗急性臀上皮神经损伤56例[J].中国中医骨伤科杂志,2012,20(07):54.
[90]鲁俊东.推拿、局部封闭配合针刀治疗臀上皮神经卡压症155例疗效观察[J].中国现代药物应用,2013,7(14):85-86.
[91]伍玉甫.按摩、药物加矫形鞋治疗坐骨神经损伤83例[J].现代康复,2000,4(08):1219.
[92]李亚伟,杨春娥.针灸加推拿治疗肌注所致小儿坐骨神经损伤48例[J].中国民间疗法,2004,12(02):41-42.
[93]黄德军.中医综合治疗腰椎间盘突出症临床疗效观察[J].中医临床研究,2013,5(24):30-32.
[94]王春明,刘思嘉.青少年腰椎间盘突出症中医药治疗的临床疗效分析[J].中国医药指南,2013,11(34):236-237.
[95]张春文.正脊推拿与传统推拿治疗腰椎间盘突出症的疗效观察[J].中国医药指南,2013,11(35):189-190.
[96]阎杰,黄业成,韦赤勇,等.整脊推拿手法治疗腰椎间盘突出症50例临床观察[J].河北中医,2013,35(11):1667-1668.
[97]许天兵.针药结合推拿治疗腰椎间盘突出症疗效观察[J].中国中医骨伤科杂志,2013,21(01):52-53.
[98]郭国兴,刘芳.中医药综合治疗腰椎间盘突出症临床观察[J].中国中医急症,2013,22(02):304-305.
[99]涂国卿,邹来勇,曹耀兴,等.“整体平衡疗法”治疗腰椎间盘突出症镇痛效果与时效观察[J].中国中医药信息杂志,2013,20(04):71-72.
[100]李依静.手法推拿治疗腰椎间盘突出症的临床观察[J].中国医药指南,2013,11(04):283-284.
[101]刘德华,张仕年,万兴,等.疏经通督推拿法治疗腰椎间盘突出症30例临床研究[J].江苏中医药,2013,45(08):51-52.
[102]赵彬元,刘强,颉旺军,等.推拿联合蜡疗治疗腰椎间盘突出症60例疗效观察[J].甘肃中医学院学报,2013,30(04):51-54.
[103]周楠,吕强,方舟,等.推拿手法对腰椎间盘突出症腰椎结构三维位移的影响[J].医用生物力学,2013,28(03):269-274.
[104]顾晓旭,张兆锦.推拿配合董氏奇穴治疗腰椎间盘突出症58例[J].陕西中医学院学报,2014,37(01):59-60.
[105]陈永智,杨晓峰,孔力.肘部重力按摩治疗老年腰椎间盘突出症(缓解期)的疗效[J].中国老年学杂志,2014,34(03):824-825.
[106]王洪亮,付强,卢威威,等.长短杠杆相结合推拿整复治疗腰椎间盘突出症的临床探讨[J].光明中医,2014,29(01):123-124.
[107]王艳国,郭秀琴,刘凯,等.推拿治疗腰椎间盘突出症随机对照试验的系统评价[J].中华中医药学刊,2013,31(08):1638-1642.
[108]Huang J, Wen X, Gao Z, et al. Combined Treatment of 60 Cases of Piriformis Syndrome[J]. Journal of Acupuncture and Tuina Science,2006,4(04):252-253.
[109]雷秀强.推拿疏通手法治疗梨状肌损伤综合征115例[J].浙江中医杂志,2009,44(11):837.
[110]郝晓,郝跃伟.推拿配合针刀治疗慢性梨状肌综合征78例临床观察[J].中国实用医药,2010,5(28):86-87.
[111]彭力群,何玲娜.电针配合推拿手法治疗梨状肌综合征随机对照临床观察[J].四川中医,2011,29(08):115-116.
[112]李韬.推拿手法配合针刺治疗梨状肌综合征48例临床观察[J].长春中医药大学学报,2012,28(04):685-686.
[113]拓庆丰.针灸推拿治疗梨状肌综合症的临床研究[J].内蒙古中医药,2012,31(03):65.
[114]齐亚男.重踩髋部三阳经配合踩动法治疗梨状肌综合征临床观察[J].北京中医药,2012,31(07):513-515.
[115]韦殷.推拿配合中频理疗治疗梨状肌综合征53例临床观察[J].山西中医,2013,29(02):35-37.
[116]吴凡.推拿对坐骨神经损伤大鼠胶质细胞源性神经营养因子的影响[D].北京中医药大学,2008.
[117]韦景斌.推拿干预对周围神经损伤大鼠脊髓背角中NTFs表达变化的研究[D].北京中医药大学,2011.
[118]周嫱.推拿对坐骨神经损伤大鼠生长相关蛋白表达影响的研究[D].北京中医药大学,2012.
[119]梅旭晖,纪倩,吴剑聪,等.推拿对坐骨神经损伤大鼠神经生长因子及其受体TrkA的影响[J].北京中医药大学学报,2013,36(07):497-500.
[120]马建,唐启华,郭容经.电针、推拿对周围神经损伤后神经末梢及其运动终板形态恢复的影响[J].成都体育学院学报,1995,21(3):69-72.
[121]马建,唐启华,郭容经.电针、推拿和红外线理疗治疗周围神经损伤的 比较实验研究——对神经损伤肌肉影响的组织形态学和组织化学研究[J].中国运动医学杂志,1995,14(4):210-215.
[122]马建,郭容经,唐启华.电针、推拿和红外线理疗治疗周围神经损伤的比较实验研究——对损伤神经肌肉影响的肌电图研究[J].中国运动医学杂志,1996,15(1):22-25.
[123]唐启华,马建,郭容经.电针、推拿对周围神经损伤肌肉酶组织化学改变的影响[J].成都体育学院学报,1997,23(3):59-64.
[124]马建,唐启华,郭容经.电针、推拿和红外线理疗治疗周围神经损伤的比较实验研究——对损伤神经影响的组织学、细胞学研究[J].中国运动医学杂志,1997,16(1):22-28.
[125]尚清,韩雪.综合康复治疗小儿腓总神经损伤59例[J].中国临床康复,2004,8(18):3483.
[126]赵立富,赵颂.穴位注射治疗胫腓神经损伤31例[J].针灸临床杂志,2006,24(01):34.
[127]宋观礼,韩海荣,王谦.电针加TDP照射配合推拿手法治疗腓神经损伤18例[J].中国中医药科技,2007,14(05):386.
[128]琚玮,巩治华.穴位疗法在小儿腓总神经损伤治疗中的作用[J].中国实用医药,2008,3(29):132-133.
[129]陈钰杰,张瑾.神经肌肉电刺激为主治疗腓神经损伤36例[J].中国康复,2009,24(02):83.
[130]潘冰杰,刘喆.刘喆教授针刺与药酒推拿结合治疗腓总神经损伤临床经验[J].陕西中医学院学报,2013,36(05):66-67.
[131]赵大伟.电针针刺在周围神经损伤修复术后的治疗体会[J].中国医药指南,2012,10(30):268-269.
[132]熊盛杰.周围神经损伤的综合康复治疗[J].内蒙古中医药,2012,31(24):181.
[133]陈四有,高晓芬.针刺配合推拿治疗神经根型颈椎病80例[J].中医外治杂志,2012,21(01):11.
[134]孟秀会,陈锦金,宋娟.针刺推拿治疗小儿分娩性臂丛神经损伤16例[J].中医儿科杂志,2011,7(03):49-50.
[135]王剑武.电针联合推拿治疗小儿臂丛神经损伤对照观察[J].实用中医内科杂志,2012(17):76-77.
[136]董纪强,马彩云,王静,等.梅花针叩刺配合综合康复训练治疗小儿臂丛神经损伤 30例疗效观察[J].国医论坛,2013,28(06):31-32.
[137]叶金甜,李强,陈敏.电针配合推拿治疗梨状肌损伤36例[J].湖南中医杂志,2013,29(06):69-70.
[138]王秀梅,毛艳春,张珊珊,等.针刺断面九针穴配合推拿治疗腰椎间盘突出症临床观察[J].中国中医急症,2013,22(01):48-49.
[139]余茜,李晓红,何成松,等.电针对坐骨神经损伤大鼠脊髓生长相关蛋白-43mRNA表达的影响[J].中国临床康复,2003,7(22):3064-3065.
[140]唐伟跃,冀勇,张建民,等.电针刺激穴位对大鼠神经损伤后自残及神经再生的影响[J].郑州大学学报(医学版),2006,41(1):144-145.
[141]吴荣华,江丰,陈丹,等.电针配合麝香注射液对大鼠坐骨神经功能恢复的实验研究[J].四川中医,2007,25(1):16-17.
[142]周鸣鸣,丁斐,强亮.中药合剂神经生长液的促神经生长作用[J].中国临床康复,2003,7(13):1912-1913.
[143]尹宗生,顾玉东,顾映红,等.中药治疗对大鼠坐骨神经损伤后神经生长因子蛋白表达的影响[J].中华手外科杂志,2003,19(1):57-59.
[144]张艳军.增强原代培养鼠胚脊髓运动神经元活力的中药筛选[J].天津中医学院学报,2004,23(2):75-77.
[145]李照庆,曹玉汉,张明福.复方神肌再生冲剂对坐骨神经损伤大鼠神经组织中NGF mRNA表达的影响[J].山东医药,2007,47(14):27-28.
[146]杜长青,苏衍萍,王慧,等.中药髓复康对恒河猴脊髓半横断后凋亡相关蛋白表达的影响[J].神经解剖学杂志,2010,26(2):135-139.
[147]王克利,路来金,张静玲,等.鹿茸多肽复合膜提供周围神经再生的微环境[J].中国组织工程研究,2013,17(25):4652-4659.
[148]韩卢丽,张江涛.补阳还五汤治疗下肢神经损伤56例[J].四川中医,2003,21(7):79-80.
[149]杨利华.电针加TDP配合中药治疗腓总神经损伤25例[J].针灸临床杂志,2005,21(11):38.
[150]黄燕惠,林忠豪.中药内服配合外用治疗臂丛神经损伤12例临床观察[J].医学信息(上旬刊),2010,23(9):3268-3269.
[151]武胜,李加翔,樊效鸿.黄芪桂枝五物汤治疗老年性肘部尺神经损伤临床观察[J].陕西中医学院学报,2013,36(4):74-76.
[152]杨文龙,沈守卫,董志超.独活寄生汤配合锻炼治疗腰椎间盘突出症76例[J].陕西中医,2013,34(04):419-421.
[153]Myckatyn T M, Brenner M, Mackinnon S E, et al. Effects of external beam radiation in the rat tibial nerve after crush, transection and repair, or nerve isograft paradigms[J]. Laryngoscope,2004,114(5):931-938.
[154]王晓亮,杨朝阳,李晓光,等.应用人工神经修复大鼠坐骨神经损伤的实验研究[J].中国康复理论与实践,2012(6):535-538.
[155]Kingham P J, Terenghi G. Bioengineered nerve regeneration and muscle reinnervation[J]. J Anat,2006,209(4):511-526.
[156]向杰,黄继锋,李德忠,等.新型仿生人工神经导管诱导犬周围神经再生过程的组织学观察[J].中国组织工程研究,2012,16(21):3801-3805.
[157]徐伟,肖玉周,代秀松,等.人工神经桥接体修复神经缺损的研究[J].南通大学学报(医学版),2012,32(5):363-368.
[158]于林涛.显微镜下修复周围神经损伤疗效分析[J].中国实用神经疾病杂志,2012,15(18):48-49.
[159]郑煜,周兴.神经细胞移植促进大鼠损伤的周围神经功能的恢复[J].实用医学杂志,2012,28(20):3359-3361.
[160]Heath C A, Rutkowski G E. The development of bioartificial nerve grafts for peripheral-nerve regeneration [J]. Trends Biotechnol,1998,16(4):163-168.
[161]陈令军,喻锦成,符俏,等.生物材料构建神经导管修复周围神经损伤的临床应用[J].中国组织工程研究,2012,16(34):6413-6420.
[162]姜保国,张培训,寇玉辉,等.可降解生物套管小间隙套接法修复周围神经损伤的临床观察[J].北京大学学报(医学版),2012,44(6):842-846.
[163]Ichihara S, Inada Y, Nakamura T. Artificial nerve tubes and their application for repair of peripheral nerve injury:an update of current concepts[J]. Injury,2008,39(4):29-39.
[164]Myckatyn T M, Brenner M, Mackinnon S E, et al. Effects of external beam radiation in the rat tibial nerve after crush, transection and repair, or nerve isograft paradigms[J]. Laryngoscope,2004,114(5):931-938.
[165]王希宁,徐淑兰.应用显微外科技术及经皮神经肌电刺激仪修复周围神经损伤[J].宁夏医学杂志,2012,34(6):568-570.
[166]张素娟,吴军.微波对坐骨神经损伤大鼠脊髓内生长相关蛋白-43表达的影响[J].中国康复医学杂志,2011,26(11):1004-1008.
[167]王维,苑秀华,王中莉,等.磁刺激疗法对坐骨神经损伤大鼠神经传导速度及损伤运动神经元内GAP-43表达的影响[J].山东医药,2011,51(35):20-22.
[168]赵娟,俞红,徐义明,等.物理治疗促进坐骨神经损伤再生的实验研究[J].中国修复重建外科杂志,2011,25(1):107-111.
[169]李静,胡静.药物与理疗综合治疗腰椎间盘突出症的临床观察[J].实用中西医结合临床,2013,13(08):14-15.
[170]冯淑娥.推拿联合肌力训练治疗腰椎间盘突出症随机平行对照研究[J].实用中医内科杂志,2013,27(05):48-49.
[171]梁宇,卢铁元,马景全.手法按摩结合运动疗法指导治疗腰椎间盘突出症的疗效观察[J].颈腰痛杂志,2014,35(01):69-70.
[172]王东强,郭义,李志军,等.甲钴胺促进周围神经再生的实验研究[J].天津医药,2010,38(3):223-225.
[173]陈宣煌,郑祖高,占鲤生,等.胆囊收缩素对大鼠坐骨神经损伤后修复的影响[J].南昌大学学报(医学版),2012,52(7):4-7.
[174]王梨明,唐际存,辛林伟,等.神经生长因子不同给药方式对坐骨神经吻合后修复与再生的影响[J].中国组织工程研究,2012,16(7):1169-1172.
[175]张涵亮,陈俊.神经生长因子修复周围神经的临床疗效观察[J].吉林大学学报(医学版),2011(2):303.
[176]刘占奇,朱宁萍,张学良,等.甲钴胺在周围神经损伤术后的应用[J].中国药物与临床,2010,10(5):584-586.
[177]杨延良,陈清汉,王红辉.甲状腺素凝胶促进周围神经损伤修复的实验研究[J].中国实用神经疾病杂志,2011,14(3):17-19.
[178]董玉珍,宗海斌,赵红星,等.NT-3转染的SC对坐骨神经缺损大鼠腓肠肌细胞的影响[J].山东医药,2012,52(10):5-7.
[179]王俊梅,曾园山.过表达NT-3 SCs和过表达TrkC NSCs移植减少脊髓损伤处瘢痕形成和促进神经再生[J].解剖学研究,2011,33(5):367-372.
[180]Laramore C, Maymind E, Shifman M I. Expression of neurotrophin and its tropomyosin-related kinase receptors (Trks) during axonal regeneration following spinal cord injury in larval lamprey[J]. Neuroscience,2011,183:265-277.
[181]Iannotti C., Lv X. B., Lu P. H.,等. Neural stem cell transplantation in the repair of spinal cord injury[J]. Progress in Natural Science,2001 (07):12-24.
[182]Lee P, Zhuo H, Helke C J. Axotomy alters neurotrophin and neurotrophin receptor mRNAs in the vagus nerve and nodose ganglion of the rat[J]. Brain Res Mol Brain Res,2001,87(1):31-41.
[183]Shihabuddin L S, Ray J, Gage F H. FGF-2 is sufficient to isolate progenitors found in the adult mammalian spinal cord[J]. Exp Neurol,1997,148(2):577-586.
[184]Donnerer J. Regeneration of primary sensory neurons[J]. Pharmacology,2003,67(4):169-181.
[185]Fine E G, Decosterd I, Papaloizos M, et al. GDNF and NGF released by synthetic guidance channels support sciatic nerve regeneration across a long gap[J]. Eur J Neurosci,2002,15(4):589-601.
[186]刘芳,张伟玲,邹伟.神经生长因子对急性神经损伤保护作用机制初探[J].中国急救医学,2006,26(10):687-689.
[187]孟涛,王栓科,孙正义,等.联合应用ATP和NGF对体外培养乳鼠脊髓 神经元影响的研究[J].中华显微外科杂志,2004,27(04):41-43.
[188]张玉波,伍亚民,杨恒文,等.NGF促周围神经再生过程中对血管生成的影响[J].第三军医大学学报,2005,27(14):1463-1466.
[189]刘芳,邹伟,张国威,等.针刺对脑出血大鼠神经生长因子基因表达的影响[J].针灸临床杂志,2007,23(05):46-49.
[190]林浩东,王欢,陈德松,等.银杏酮酯对大鼠坐骨神经损伤后神经生长因子蛋白表达的影响[J].复旦学报(医学版),2007,34(05):737-740.
[191]于志勇,杨大志,刘洪涛,等.转染NGF基因的Schwann细胞对慢性神经根嵌压伤后神经修复的作用[J].脊柱外科杂志,2009,7(05):298-301.
[192]张贵春,张永先.神经生长因子对合并神经损伤胫骨骨折早期愈合的影响[J].中国组织工程研究与临床康复,2009,13(11):2057-2061.
[193]杨云春,刘庆,邓茹,等.鼠神经生长因子联合加巴喷丁治疗外周神经损伤后神经病理性疼痛[J].中国疼痛医学杂志,2012,18(06):360-362.
[194]Walker R G, Foster A, Randolph C L, et al. Changes in NGF and NT-3 protein species in the superior cervical ganglion following axotomy of postganglionic axons[J]. Brain Res,2009,1255:1-8.
[195]李奕,林巍巍,陈雪,等.长时间坐骨神经横断伤后远侧端雪旺氏细胞活性变化[J].神经解剖学杂志,2011,27(02):140-146.
[196]Barde Y A, Edgar D, Thoenen H. Purification of a new neurotrophic factor from mammalian brain[J]. EMBO J,1982,1(5):549-553.
[197]张萌,吴海琴,王虎清.BDNF在神经系统疾病中的作用机制[J].卒中与神经疾病,2013,20(06):384-387.
[198]Parrilla-Reverter G, Agudo M, Sobrado-Calvo P, et al. Effects of different neurotrophic factors on the survival of retinal ganglion cells after a complete intraorbital nerve crush injury:a quantitative in vivo study[J]. Exp Eye Res,2009,89(1):32-41.
[199]Tom V J, Sandrow-Feinberg H R, Miller K, et al. Exogenous BDNF enhances the integration of chronically injured axons that regenerate through a peripheral nerve grafted into a chondroitinase-treated spinal cord injury site[J]. Exp Neurol,2013,239:91-100.
[200]周钰.头针结合艾灸对缺血缺氧性脑损伤幼鼠学习记忆能力及脑内BDNF的影响[C].澳大利亚悉尼:2013.
[201]穆小茜,程淑霞,王艳,等.脑源性神经营养因子在视网膜神经细胞bcl-2蛋白动态表达中的作用[J].临床军医杂志,2013,41(10):991-992.
[202]杨敏,林霞,项雪燕.抑郁症患者脑源性神经营养因子的检测及其与认知功能的相关性[J].中国老年学杂志,2013,33(21):5311-5312.
[203]操军,王俊,况利,等.抑郁症自杀未遂患者血浆脑源性神经营养因子水平及相关分析[J].中国神经精神疾病杂志,2013,39(10):597-601.
[204]王岩峰,秦光华,张玉强,等.BDNF对大鼠急性脊髓损伤后NF-κB表达的影响[J].解剖学研究,2013,35(04):283-286.
[205]Ogun-Muyiwa P, Helliwell R, Mcintyre P, et al. Glial cell line derived neurotrophic factor (GDNF) regulates VR1 and substance P in cultured sensory neurons[J]. Neuroreport,1999,10(10):2107-2111.
[206]成少安,李志跃.GDNF在大鼠坐骨神经损伤后的表达变化研究[J].浙江医学,2006,28(05):353-355.
[207]高贺云,魏明发,王燕,等.胶质细胞源性神经营养因子和神经营养素-3双基因转染大鼠骨髓间充质干细胞体外诱导分化为神经样细胞的研究[J].实用儿科临床杂志,2011,26(11):877-879.
[208]李亚,张亚楠,陈亚静,等.GDNF在慢性应激和老化致小鼠行为与认知损伤中的作用[J].中国应用生理学杂志,2013,29(01):52-56.
[209]赵莉,陈传好,单增强,等.GDNF基因体内转染对大鼠面神经运动神经元的保护作用[J].中国临床解剖学杂志,2006,24(04):413-415.
[210]王瑞辉,陈燕芳,屈红艳.针刺对臂丛神经损伤后胶源性神经营养因子的影响[J].陕西中医学院学报,2009,32(06):66-68.
[211]沈峰,孔立红,任婕,等.电针对脑缺血再灌注大鼠海马GDNF表达的影响[J].湖北中医杂志,2012,34(04):25-26.
[212]张文玉,高谦,王刚,等.4种微创疗法对大鼠腓肠神经损伤后脑源性和胶源性神经营养因子的影响[J].中华保健医学杂志,2012,14(02):88-90.
[213]李硕,张同园.捏脊疗法对脾虚大鼠学习记忆及其皮层BDNF和GDNF阳性细胞数目的影响[J].中医儿科杂志,2013,9(05):8-11.
[214]邓明明,刘芬,廖敏,等.内源性GDNF在针刺促进损伤脊髓神经元轴突出芽中的作用[J].西部医学,2013,25(06):811-814.
[215]李强,伍亚民,刘媛,等.NGF与CNTF促进周围神经轴浆运输功能恢复的比较研究[J].中国矫形外科杂志,2005,13(05):38-41.
[216]赵彩霞,刘佳,章为.大鼠脊髓横断损伤后CNTF mRNA的表达变化[J].四川大学学报(医学版),2009,40(03):412-414.
[217]毕文杰,章为,王廷华,等.嗅鞘细胞移植后脊髓半横断大鼠睫状神经营养因子和FGF-2表达的变化[J].江苏大学学报(医学版),2009,19(01):5-9.
[218]巴迎春,范艳,王金德,等.TGF-β1和CNTF在大鼠移植神经干细胞后的损伤脊髓中的表达[J].昆明医学院学报,2012,33(03):1-4.
[219]王艳萍,王航平,王廷华.运动训练对大鼠肾上腺睫状神经营养因子表达的影响[J].四川解剖学杂志,2012,20(01):10-11.
[220]王晓晖,何敏,王万辉,等.CNTF对慢性高眼压大鼠RGCs的保护作用[J].临床与实验病理学杂志,2009,25(01):72-74.
[221]钱志敏,王山丹,段香星,等.睫状神经营养因子对视神经损伤后视网膜神经节细胞的保护作用[J].内蒙古医学院学报,2012,34(6):878-881.
[222]杨惠婷,姚鹏,鲍永新.睫状神经营养因子和碱性成纤维细胞生长因子对视神经损伤保护的研究[J].中国药物经济学,2013(03):263-264.
[223]李志全.神经营养素3对神经细胞调亡的保护作用机制研究[D].第四军医大学,2008.
[224]石向群,范明,陆兵勋,等.周围神经损伤对脊髓运动神经元NT-3表达的影响[J].西北国防医学杂志,2001,22(1):15-17.
[225]Seshi B, Kumar S, King D. Multilineage gene expression in human bone marrow stromal cells as evidenced by single-cell microarray analysis[J]. Blood Cells Mol Dis,2003,31(2):268-285.
[226]Fox E A, Mcadams J. Smooth-muscle-specific expression of neurotrophin-3 in mouse embryonic and neonatal gastrointestinal tract[J]. Cell Tissue Res,2010,340(2):267-286.
[227]Sahenk Z, Galloway G, Edwards C, et al. TrkB and TrkC agonist antibodies improve function, electrophysiologic and pathologic features in Trembler J mice[J]. Exp Neurol,2010,224(2):495-506.
[228]魏良浩,潘庆,张跃明.《金匮》肾气丸对阿尔茨海默病模型大鼠额叶皮质神经元NT-3表达的影响[J].中国中医急症,2013,22(2):211-213.
[229]马军利,刘洪臣,王冠超,等.食物硬度对离乳后大鼠咬肌神经营养因子3及其受体TrkC mRNA表达的影响[J].中华老年口腔医学杂志,2007,5(1):4-7.
[230]董玉珍,宗海斌,杨林,等.神经营养素3对坐骨神经损伤大鼠肌萎缩的修复作用[J].新乡医学院学报,2012,29(11):831-833.
[231]何成.第三讲 神经营养因子的神经修复作用及其机制[J].中国神经科学杂志,2002,18(01):466-471.
[232]Sahenk Z, Oblinger J, Edwards C. Neurotrophin-3 deficient Schwann cells impair nerve regeneration [J]. Exp Neurol,2008,212(2):552-556.
[233]李志全,胡蕴玉,朱庆生,等.脊髓内注射NT3重组腺病毒对前角神经元的保护作用[J].中华手外科杂志,2006,22(04):249-251.
[234]李芳,李昌琪,石咏梅,等.内源性神经营养因子-3对小鼠周围神经损伤后再生与髓化的影响[J].神经解剖学杂志,2005,21(03):241-246.
[235]Gillespie L N. Regulation of axonal growth and guidance by the neurotrophin family of neurotrophic factors[J]. Clinical and Experimental Pharmacology and Physiology,2003,30(10):724-733.
[236]Matsuo S, Ichikawa H, Silos-Santiago I, et al. Proprioceptive afferents survive in the masseter muscle of trkC knockout mice[J]. Neuroscience,2000,95(1):209-216.
[237]Ivanov S V, Panaccione A, Brown B, et al. TrkC signaling is activated in adenoid cystic carcinoma and requires NT-3 to stimulate invasive behavior[J]. Oncogene,2013,32(32):3698-3710.
[238]Bonni A, Brunet A, West A E, et al. Cell survival promoted by the Ras-MAPK. signaling pathway by transcription-dependent and-independent mechanisms [J]. Science,1999,286(5443):1358-1362.
[239]曾洪艳,李力燕,郭小兵,等.神经营养因子、凋亡相关因子和轴突导向因子在大鼠神经管畸形发育中的表达[J].昆明医科大学学报,2012,33(11):13-18.
[240]鲍伟,于晓辉,万小平.TrkB信号转导通路在肿瘤中的作用[J].上海交通大学学报(医学版),2012,32(12):1652-1655.
[241]杨青峰,陈彪,周长满,等.脊髓TrkC mRNA的表达及其坐骨神经损伤后的变化[J].中国应用生理学杂志,1999,15(1):40-43.
[242]黄纯海,庞江霞,王廷华.正常大鼠脊髓内微血管及TrkC分布的研究[J].昆明医学院学报,2008,29(1):43-45.
[243]Johnson H, Hokfelt T, Ulfhake B. Expression of p75(NTR), trkB and trkC in nonmanipulated and axotomized motoneurons of aged rats[J]. Brain Res Mol Brain Res,1999,69(1):21-34.
[244]Sagot Y, Rosse T, Vejsada R, et al. Differential effects of neurotrophic factors on motoneuron retrograde labeling in a murine model of motoneuron disease[J].J Neurosci,1998,18(3):1132-1141.
[245]王迅,刘兴波,王泓杰.17β雌二醇对大鼠坐骨神经损伤的保护[J].中国临床康复,2006,10(26):101-103.
[246]李仁斌,柯铁,陈文昌.白血病抑制因子促进大鼠坐骨神经再生的作用研究[J].福建医药杂志,2012,34(1):61-64.
[247]梅旭晖.推拿对坐骨神经损伤大鼠NGF及其受体选择的研究[D].北京中医药大学,2013.
[2]李绪松,郑臣校,苏永康.黄龙通络汤内服治疗周围神经损伤的临床研究[J].现代中西医结合杂志,2012,21(19):2061-2062.
[3]王淑敏,郭焱.补阳还五汤加减治疗产后下肢周围神经损伤1例[J].吉林中医药,2012,32(12):1279-1290.
[4]Zochodne D W, Cheng C. Neurotrophins and other growth factors in the regenerative milieu of proximal nerve stump tips[J]. J Anat,2000,196(5):279-283.
[5]Burnett M G, Zager E L. Pathophysiology of peripheral nerve injury:a brief review[J]. Neurosurg Focus,2004,16(5):11-23.
[6]赵廷浩,卞景芝,陈慧娲,等.回神颗粒对大鼠坐骨神经损伤后神经与骨骼肌组织形态学的影响[J].天津中医药,2006,23(4):320-323.
[7]陈镜聪,李新春,万齐,等.坐骨神经牵拉伤模型MR扩散张量成像与病理的对照[J].中国组织工程研究,2013(41):7278-7283.
[8]黄耀添,王树森.周围神经损伤后脊髓神经元形态及神经活性物质变化的研究[J].中国修复重建外科杂志,1997,11(1):6-9.
[9]吴斗,刘强,陈君长,等.外周神经损伤大鼠的脊髓运动神经元组织形态学观察[J].山东医药,2006,46(12):23-24.
[10]尹方明,胡耀民,刘大庸,等.坐骨神经损伤后脊神经节神经元凋亡的形态学观察[J].解剖与临床,1997,2(2):56-57.
[11]李庆雯,石田寅夫,郭义,等.不同频率电针对大鼠坐骨神经损伤后神经组织形态学与骨骼肌肌电图的影响[J].中国针灸,2005,25(3):217-220.
[12]杨广承,薛景凤,刘爱雅,等.周围神经缺血后相关神经元凋亡及GDNF表达的动态变化[J].山东医药,2010,50(11):50-52.
[13]李光华,刘宏鹏,周旭,等.运动训练对坐骨神经损伤小鼠神经形态和功能恢复影响的研究[J].中国康复医学杂志,2010,25(1):23-26.
[14]詹胜锋,王玉,杨启友,等.大鼠股神经再生趋化性效果评价[J].中国矫形外科杂志,2011,19(16):1369-1372.
[15]梅荣军,肖显坤,李旗,等.机械振动推拿对大鼠臂丛神经损伤恢复作用机理研究[J].针灸临床杂志,2007(12):33-35.
[16]陈宣煌,郑祖高,占鲤生,等.胆囊收缩素促大鼠坐骨神经再生的电生理检测及意义[J].海南医学院学报,2012,18(7):869-874.
[17]程真真,唐洪涛,田涛涛.加味黄芪桂枝五物汤治疗桡神经损伤的临床研究[J].中国中医骨伤科杂志,2013,21(5):25-27.
[18]孟华.坐骨神经近侧端损伤的神经电生理检查临床意义分析[J].中国现代药物应用,2013,7(15):60-61.
[19]Koenig R W, Pedro M T, Heinen C P, et al. High-resolution ultrasonography in evaluating peripheral nerve entrapment and trauma[J]. Neurosurg Focus,2009,26(2):E13.
[20]De Jose M B, Banus E, Navarro E M, et al. Ultrasound-guided supraclavicular vs infraclavicular brachial plexus blocks in children[J]. Paediatr Anaesth,2008,18(9):838-844.
[21]王国荣.高频超声诊断外周神经病变临床分析[J].中国实用神经疾病杂志,2011,14(17):77-78.
[22]曹洪艳,陈定章,丛锐,等.高频超声在肘管综合征诊断中的应用[J].中国超声医学杂志,2008,24(6):546-548.
[23]吴道珠,倪双双,罗洪霞,等.高频超声检查在诊断周围神经损伤中的应用[J].中医正骨,2012(1):35-36.
[24]陈为民,姚静,王怡,等.外周神经病变的高频超声检查[J].中国医学计算机成像杂志,2007,13(1):50-53.
[25]范军胜,劳镇国,谢晓燕,等.外周神经损伤的高频超声诊断研究[J].中华显微外科杂志,2003,26(4):270-272.
[26]Swanger R S, Maldjian C, Buckley K. MRI Appearance of Nerve Regeneration in a Surgically Repaired Ulnar Nerve[J]. European Journal of Trauma and Emergency Surgery,2010,36(1):73-75.
[27]周翠屏.兔坐骨神经牵拉伤的MRI、病理及功能评价相关性研究[D].中山大学,2007.
[28]Hiltunen J, Suortti T, Arvela S, et al. Diffusion tensor imaging and tractography of distal peripheral nerves at 3 T[J]. Clin Neurophysiol,2005,116(10):2315-2323.
[29]Jambawalikar S, Baum J, Button T, et al. Diffusion tensor imaging of peripheral nerves[J]. Skeletal Radiol,2010,39(11):1073-1079.
[30]Cauley K A, Filippi C G. Diffusion-tensor imaging of small nerve bundles: cranial nerves, peripheral nerves, distal spinal cord, and lumbar nerve roots--clinical applications[J]. AJR Am J Roentgenol,2013,201(2):W326-W335.
[31]顾晨,胡文,邓爱东,等.成人腕部正中神经断裂后靶皮肤血流灌注的初步研究[J].南通大学学报(医学版),2012,32(3):177-179.
[32]Hu W, Yang M, Chang J, et al. Laser doppler perfusion imaging of skin territory to reflect autonomic functional recovery following sciatic nerve autografting repair in rats[J]. Microsurgery,2012,32(2):136-143.
[33]沈钟一,顾天文,胡文.大鼠坐骨神经切断后足底皮肤血流灌注变化研究[J].南京医科大学学报(自然科学版),2013,33(6):779-783.
[34]胡文,常景建,杨旻,等.大鼠坐骨神经缺损自体神经桥接修复后靶皮肤局部控温调节功能重建初步研究[C].郑州:2011.
[35]朱奇,王小平,季莘,等.大鼠双侧坐骨神经离断后全血钙镁铁锌铜的含量变化[J].中国卫生检验杂志,2013,23(5):1154-1157.
[36]Seddon H J. Three Types of Nerve Injury[J]. Brain,1943,66(4):237-288.
[37]Jabaley M E. Nerves and Nerve Injuries.2nd ed[J]. The Journal of Hand Surgery,1980,5(5):515-517.
[38]Mackinnon S E, Dellon A L. Surgery of the peripheral nerve[G]. New York:Thieme:1988.
[39]王金保,聂发传.改良坐骨神经慢性压迫性损伤模型的建立[J].华北国防医药,2007,19(3):1-3.
[40]林献忠,林健清,高友光,等.坐骨神经慢性结扎损伤模型大鼠脊髓细胞因子表达的变化[J].临床麻醉学杂志,2011,27(6):596-598.
[41]熊华花,邓志云,李学东.周围神经电损伤模型的制备[J].江西医学院学报,2006,46(2):44-46.
[42]Hasegawa K. A new method of measuring functional recovery aftercrushing the peripheral nerves in unanesthetized and unrestrained rats[J]. Experientia,1978,34(2):272-273.
[43]项大业,顾传龙,范顺武,等.rh-HBNF促周围神经损伤后再生作用的实验研究[J].浙江医学,2005,27(1):23-26,32.
[44]Mclean J, Batt J, Doering L C, et al. Enhanced rate of nerve regeneration and directional errors after sciatic nerve injury in receptor protein tyrosine phosphatase sigma knock-out mice[J]. The Journal of Neuroscience,2002,22(13):5481-5491.
[45]Luria S, Waitayawinyu T, Conniff J, et al. Glatiramer acetate immune system augmentation for peripheral nerve regeneration in rat crushed sciatic nerve model[J]. J Bone Joint Surg Am,2010,92(2):396-403.
[46]刘青龙,秦振龙.补阳还五汤并腰交感神经节切除对小腿腓肠肌湿质量的影响[J].中医学报,2013,28(7):987-988.
[47]辛铭金,姜旭光.臂丛神经损伤中医治法初探[J].四川中医,2008(8):30-32.
[48]陈敏,王彩姣,刘彩霞,等.穴位按摩在新生儿臂丛神经损伤护理中的应用[J].护理研究,2009,23(14):1280.
[49]李毓,金晓菊,文娟.综合疗法治疗小儿臂丛神经损伤42例疗效观察[J].医学信息(中旬刊),2011,24(01):71.
[50]周俊明,徐晓君,张沈煜,等.臂丛神经损伤规范化康复治疗的临床研究[J].中国康复医学杂志,2011,26(2):124-127.
[51]梅雪蕊.回旋灸结合推拿治疗小儿脾胃虚弱型臂丛神经麻痹23例[J].河南中医,2012,32(03):356-357.
[52]任国强.电针配合推拿治疗分娩性臂丛神经损伤22例临床观察[J].河北中医,2012,34(04):565-566.
[53]詹秀兰.穴位注射配合推拿治疗上干型小儿臂丛神经损伤疗效观察[J].长春中医药大学学报,2012,28(04):744.
[54]张雪艳,尹昊.综合康复疗法治疗小儿臂丛神经损伤的临床研究[J].中国医学创新,2013,10(06):112-113.
[55]曲萍.小儿臂丛神经损伤30例疗效观察[J].中国实用医药,2013,8(14):127-128.
[56]马亮,王斌,尹佳丽,等.臂丛神经撕脱伤神经移位术后综合康复治疗效果观察[J].中华实用诊断与治疗杂志,2013,27(10):1019-1021.
[57]梅荣军,李旗,蔡国锋,等.机械推拿经络腧穴对大鼠臂丛神经损伤恢复作用的机理探讨[J].中国中医药科技,2007,17(6):407.
[58]梅荣军,蔡国锋,李旗.腧穴机械振动、按压对大鼠臂丛神经损伤修复的作用机理研究[J].中医药学报,2007,35(6):17-18.
[59]郭士静.推拿治疗桡神经损伤腕下垂案[J].四川中医,1994,12(01):56.
[60]罗汉华,林应强,李毅.推拿加电刺激治疗桡神经损伤12例小结[J].按摩与导引,1997(05):12-13.
[61]蒋建良.按摩配合水针治疗桡神经损伤58例[J].按摩与导引,2000,16(06):44-46.
[62]陈娟.按摩配合电脑中频治疗锁骨骨折固定后并发桡神经损伤1例[J].按摩与导引,2005,21(11):45.
[63]何强,徐麒.上肢损伤中后期桡神经失用25例治疗分析[J].中国中医骨伤科杂志,2006,14(03):40-41.
[64]戴立品,杜开先.中西医结合治疗桡神经损伤的疗效观察[J].中国实用神经疾病杂志,2008,11(10):118.
[65]孙上明,朱晓霞.电针等康复方法治疗桡神经损伤18例疗效观察[J].中国医药导报,2010,7(28):151-152.
[66]郑兰凤,叶晨阳.推拿治疗正中、尺神经损伤1例[J].按摩与导引,1998(03):34.
[67]吴文刚,杨清滨,吴振坤,等.推拿治疗周围神经损伤1245例疗效观察 [J].中国中医药信息杂志,1999,6(04):66-67.
[68]詹光宗,钟新民.推拿电针、TDP照射治疗尺神经损伤97例[J].西藏医药杂志,2002,23(01):15.
[69]李霞,何平.水针配合推拿治疗腕管综合征48例[J].针灸临床杂志,1999,15(01):39-40.
[70]杜书浩,赵铎.推拿配合中药湿敷治疗腕管综合征20例[J].天津中医学院学报,2005,24(04):191.
[71]彭德忠,张先庚.针灸推拿治疗腕管综合征32例[J].四川中医,2006,24(04):107.
[72]石玉生,房纬,赵雪圆,等.刺络配合推拿治疗轻度腕管综合征疗效对照研究[J].中国中西医结合杂志,2006,26(06):497-499.
[73]姚立平,胡义民.按摩治疗82例腕管综合征的疗效观察[J].中国实用神经疾病杂志,2008,11(01):138.
[74]刘维屏.推拿治疗腕管综合征30例[J].实用中医药杂志,2008,24(07):446.
[75]李伟.温针灸配合推拿治疗早期轻度腕管综合征疗效对照研究[J].中国实用医药,2009,4(34):206-207.
[76]Kelly C P,Pulisetti D,Jamieson A M.Early experience with endoscopic carpal tunnel release[J].J Hand Surg Br,1994,19(1):18-21.
[77]潘建安.以十宣穴为主治疗腕管综合征86例[J].上海针灸杂志,2010,29(03):189.
[78]王聪聪,石玉生.缠推法治疗轻度腕管综合征20例[J].河南中医,2012,32(10):1364.
[79]宋鸿权.推拿治疗臀上皮神经损伤100例临床观察[J].按摩与导引,2003,19(1):7-9.
[80]李汉基.手法配合中药热敷治疗臀上皮神经损伤[J].中国临床康复,2003,7(29):4044.
[81]朱小泉.手法按摩治疗臀上皮神经嵌压综合征16例[J].现代中西医结合杂志,2003,12(23):2573.
[82]路喜军.指拨法治疗臀上皮神经炎70例临床观察[J].针灸临床杂志,2005,21(07):25-26.
[83]李林华.针灸与弹拨手法治疗臀上皮神经损伤85例临床分析[J].现代临床医学,2005,31(04):231-232.
[84]李鼎斌.推拿为主治疗臀上皮神经损伤92例[J].广西中医药,2005,28(04):44.
[85]李小军,郭巧德,王洁.叠指拔筋复位治疗臀上皮神经损伤47例[J].针灸临床杂志,2007,23(10):43.
[86]楚少增,崔改琴,楚德升.针灸推拿治疗臀上皮神经损伤临床观察[J].光明中医,2011,26(04):746-747.
[87]张春健.腰臀治疗臀上皮神经损伤临床观察[J].内蒙古中医药,2011,30(2):49.
[88]刘洪宝.针刺配合推拿治疗臀上皮神经损伤疗效观察[J].上海针灸杂志,2011,30(08):562-563.
[89]刘大煌,梁恒晔,冯前.推拿配合三七散外敷治疗急性臀上皮神经损伤56例[J].中国中医骨伤科杂志,2012,20(07):54.
[90]鲁俊东.推拿、局部封闭配合针刀治疗臀上皮神经卡压症155例疗效观察[J].中国现代药物应用,2013,7(14):85-86.
[91]伍玉甫.按摩、药物加矫形鞋治疗坐骨神经损伤83例[J].现代康复,2000,4(08):1219.
[92]李亚伟,杨春娥.针灸加推拿治疗肌注所致小儿坐骨神经损伤48例[J].中国民间疗法,2004,12(02):41-42.
[93]黄德军.中医综合治疗腰椎间盘突出症临床疗效观察[J].中医临床研究,2013,5(24):30-32.
[94]王春明,刘思嘉.青少年腰椎间盘突出症中医药治疗的临床疗效分析[J].中国医药指南,2013,11(34):236-237.
[95]张春文.正脊推拿与传统推拿治疗腰椎间盘突出症的疗效观察[J].中国医药指南,2013,11(35):189-190.
[96]阎杰,黄业成,韦赤勇,等.整脊推拿手法治疗腰椎间盘突出症50例临床观察[J].河北中医,2013,35(11):1667-1668.
[97]许天兵.针药结合推拿治疗腰椎间盘突出症疗效观察[J].中国中医骨伤科杂志,2013,21(01):52-53.
[98]郭国兴,刘芳.中医药综合治疗腰椎间盘突出症临床观察[J].中国中医急症,2013,22(02):304-305.
[99]涂国卿,邹来勇,曹耀兴,等.“整体平衡疗法”治疗腰椎间盘突出症镇痛效果与时效观察[J].中国中医药信息杂志,2013,20(04):71-72.
[100]李依静.手法推拿治疗腰椎间盘突出症的临床观察[J].中国医药指南,2013,11(04):283-284.
[101]刘德华,张仕年,万兴,等.疏经通督推拿法治疗腰椎间盘突出症30例临床研究[J].江苏中医药,2013,45(08):51-52.
[102]赵彬元,刘强,颉旺军,等.推拿联合蜡疗治疗腰椎间盘突出症60例疗效观察[J].甘肃中医学院学报,2013,30(04):51-54.
[103]周楠,吕强,方舟,等.推拿手法对腰椎间盘突出症腰椎结构三维位移的影响[J].医用生物力学,2013,28(03):269-274.
[104]顾晓旭,张兆锦.推拿配合董氏奇穴治疗腰椎间盘突出症58例[J].陕西中医学院学报,2014,37(01):59-60.
[105]陈永智,杨晓峰,孔力.肘部重力按摩治疗老年腰椎间盘突出症(缓解期)的疗效[J].中国老年学杂志,2014,34(03):824-825.
[106]王洪亮,付强,卢威威,等.长短杠杆相结合推拿整复治疗腰椎间盘突出症的临床探讨[J].光明中医,2014,29(01):123-124.
[107]王艳国,郭秀琴,刘凯,等.推拿治疗腰椎间盘突出症随机对照试验的系统评价[J].中华中医药学刊,2013,31(08):1638-1642.
[108]Huang J, Wen X, Gao Z, et al. Combined Treatment of 60 Cases of Piriformis Syndrome[J]. Journal of Acupuncture and Tuina Science,2006,4(04):252-253.
[109]雷秀强.推拿疏通手法治疗梨状肌损伤综合征115例[J].浙江中医杂志,2009,44(11):837.
[110]郝晓,郝跃伟.推拿配合针刀治疗慢性梨状肌综合征78例临床观察[J].中国实用医药,2010,5(28):86-87.
[111]彭力群,何玲娜.电针配合推拿手法治疗梨状肌综合征随机对照临床观察[J].四川中医,2011,29(08):115-116.
[112]李韬.推拿手法配合针刺治疗梨状肌综合征48例临床观察[J].长春中医药大学学报,2012,28(04):685-686.
[113]拓庆丰.针灸推拿治疗梨状肌综合症的临床研究[J].内蒙古中医药,2012,31(03):65.
[114]齐亚男.重踩髋部三阳经配合踩动法治疗梨状肌综合征临床观察[J].北京中医药,2012,31(07):513-515.
[115]韦殷.推拿配合中频理疗治疗梨状肌综合征53例临床观察[J].山西中医,2013,29(02):35-37.
[116]吴凡.推拿对坐骨神经损伤大鼠胶质细胞源性神经营养因子的影响[D].北京中医药大学,2008.
[117]韦景斌.推拿干预对周围神经损伤大鼠脊髓背角中NTFs表达变化的研究[D].北京中医药大学,2011.
[118]周嫱.推拿对坐骨神经损伤大鼠生长相关蛋白表达影响的研究[D].北京中医药大学,2012.
[119]梅旭晖,纪倩,吴剑聪,等.推拿对坐骨神经损伤大鼠神经生长因子及其受体TrkA的影响[J].北京中医药大学学报,2013,36(07):497-500.
[120]马建,唐启华,郭容经.电针、推拿对周围神经损伤后神经末梢及其运动终板形态恢复的影响[J].成都体育学院学报,1995,21(3):69-72.
[121]马建,唐启华,郭容经.电针、推拿和红外线理疗治疗周围神经损伤的 比较实验研究——对神经损伤肌肉影响的组织形态学和组织化学研究[J].中国运动医学杂志,1995,14(4):210-215.
[122]马建,郭容经,唐启华.电针、推拿和红外线理疗治疗周围神经损伤的比较实验研究——对损伤神经肌肉影响的肌电图研究[J].中国运动医学杂志,1996,15(1):22-25.
[123]唐启华,马建,郭容经.电针、推拿对周围神经损伤肌肉酶组织化学改变的影响[J].成都体育学院学报,1997,23(3):59-64.
[124]马建,唐启华,郭容经.电针、推拿和红外线理疗治疗周围神经损伤的比较实验研究——对损伤神经影响的组织学、细胞学研究[J].中国运动医学杂志,1997,16(1):22-28.
[125]尚清,韩雪.综合康复治疗小儿腓总神经损伤59例[J].中国临床康复,2004,8(18):3483.
[126]赵立富,赵颂.穴位注射治疗胫腓神经损伤31例[J].针灸临床杂志,2006,24(01):34.
[127]宋观礼,韩海荣,王谦.电针加TDP照射配合推拿手法治疗腓神经损伤18例[J].中国中医药科技,2007,14(05):386.
[128]琚玮,巩治华.穴位疗法在小儿腓总神经损伤治疗中的作用[J].中国实用医药,2008,3(29):132-133.
[129]陈钰杰,张瑾.神经肌肉电刺激为主治疗腓神经损伤36例[J].中国康复,2009,24(02):83.
[130]潘冰杰,刘喆.刘喆教授针刺与药酒推拿结合治疗腓总神经损伤临床经验[J].陕西中医学院学报,2013,36(05):66-67.
[131]赵大伟.电针针刺在周围神经损伤修复术后的治疗体会[J].中国医药指南,2012,10(30):268-269.
[132]熊盛杰.周围神经损伤的综合康复治疗[J].内蒙古中医药,2012,31(24):181.
[133]陈四有,高晓芬.针刺配合推拿治疗神经根型颈椎病80例[J].中医外治杂志,2012,21(01):11.
[134]孟秀会,陈锦金,宋娟.针刺推拿治疗小儿分娩性臂丛神经损伤16例[J].中医儿科杂志,2011,7(03):49-50.
[135]王剑武.电针联合推拿治疗小儿臂丛神经损伤对照观察[J].实用中医内科杂志,2012(17):76-77.
[136]董纪强,马彩云,王静,等.梅花针叩刺配合综合康复训练治疗小儿臂丛神经损伤 30例疗效观察[J].国医论坛,2013,28(06):31-32.
[137]叶金甜,李强,陈敏.电针配合推拿治疗梨状肌损伤36例[J].湖南中医杂志,2013,29(06):69-70.
[138]王秀梅,毛艳春,张珊珊,等.针刺断面九针穴配合推拿治疗腰椎间盘突出症临床观察[J].中国中医急症,2013,22(01):48-49.
[139]余茜,李晓红,何成松,等.电针对坐骨神经损伤大鼠脊髓生长相关蛋白-43mRNA表达的影响[J].中国临床康复,2003,7(22):3064-3065.
[140]唐伟跃,冀勇,张建民,等.电针刺激穴位对大鼠神经损伤后自残及神经再生的影响[J].郑州大学学报(医学版),2006,41(1):144-145.
[141]吴荣华,江丰,陈丹,等.电针配合麝香注射液对大鼠坐骨神经功能恢复的实验研究[J].四川中医,2007,25(1):16-17.
[142]周鸣鸣,丁斐,强亮.中药合剂神经生长液的促神经生长作用[J].中国临床康复,2003,7(13):1912-1913.
[143]尹宗生,顾玉东,顾映红,等.中药治疗对大鼠坐骨神经损伤后神经生长因子蛋白表达的影响[J].中华手外科杂志,2003,19(1):57-59.
[144]张艳军.增强原代培养鼠胚脊髓运动神经元活力的中药筛选[J].天津中医学院学报,2004,23(2):75-77.
[145]李照庆,曹玉汉,张明福.复方神肌再生冲剂对坐骨神经损伤大鼠神经组织中NGF mRNA表达的影响[J].山东医药,2007,47(14):27-28.
[146]杜长青,苏衍萍,王慧,等.中药髓复康对恒河猴脊髓半横断后凋亡相关蛋白表达的影响[J].神经解剖学杂志,2010,26(2):135-139.
[147]王克利,路来金,张静玲,等.鹿茸多肽复合膜提供周围神经再生的微环境[J].中国组织工程研究,2013,17(25):4652-4659.
[148]韩卢丽,张江涛.补阳还五汤治疗下肢神经损伤56例[J].四川中医,2003,21(7):79-80.
[149]杨利华.电针加TDP配合中药治疗腓总神经损伤25例[J].针灸临床杂志,2005,21(11):38.
[150]黄燕惠,林忠豪.中药内服配合外用治疗臂丛神经损伤12例临床观察[J].医学信息(上旬刊),2010,23(9):3268-3269.
[151]武胜,李加翔,樊效鸿.黄芪桂枝五物汤治疗老年性肘部尺神经损伤临床观察[J].陕西中医学院学报,2013,36(4):74-76.
[152]杨文龙,沈守卫,董志超.独活寄生汤配合锻炼治疗腰椎间盘突出症76例[J].陕西中医,2013,34(04):419-421.
[153]Myckatyn T M, Brenner M, Mackinnon S E, et al. Effects of external beam radiation in the rat tibial nerve after crush, transection and repair, or nerve isograft paradigms[J]. Laryngoscope,2004,114(5):931-938.
[154]王晓亮,杨朝阳,李晓光,等.应用人工神经修复大鼠坐骨神经损伤的实验研究[J].中国康复理论与实践,2012(6):535-538.
[155]Kingham P J, Terenghi G. Bioengineered nerve regeneration and muscle reinnervation[J]. J Anat,2006,209(4):511-526.
[156]向杰,黄继锋,李德忠,等.新型仿生人工神经导管诱导犬周围神经再生过程的组织学观察[J].中国组织工程研究,2012,16(21):3801-3805.
[157]徐伟,肖玉周,代秀松,等.人工神经桥接体修复神经缺损的研究[J].南通大学学报(医学版),2012,32(5):363-368.
[158]于林涛.显微镜下修复周围神经损伤疗效分析[J].中国实用神经疾病杂志,2012,15(18):48-49.
[159]郑煜,周兴.神经细胞移植促进大鼠损伤的周围神经功能的恢复[J].实用医学杂志,2012,28(20):3359-3361.
[160]Heath C A, Rutkowski G E. The development of bioartificial nerve grafts for peripheral-nerve regeneration [J]. Trends Biotechnol,1998,16(4):163-168.
[161]陈令军,喻锦成,符俏,等.生物材料构建神经导管修复周围神经损伤的临床应用[J].中国组织工程研究,2012,16(34):6413-6420.
[162]姜保国,张培训,寇玉辉,等.可降解生物套管小间隙套接法修复周围神经损伤的临床观察[J].北京大学学报(医学版),2012,44(6):842-846.
[163]Ichihara S, Inada Y, Nakamura T. Artificial nerve tubes and their application for repair of peripheral nerve injury:an update of current concepts[J]. Injury,2008,39(4):29-39.
[164]Myckatyn T M, Brenner M, Mackinnon S E, et al. Effects of external beam radiation in the rat tibial nerve after crush, transection and repair, or nerve isograft paradigms[J]. Laryngoscope,2004,114(5):931-938.
[165]王希宁,徐淑兰.应用显微外科技术及经皮神经肌电刺激仪修复周围神经损伤[J].宁夏医学杂志,2012,34(6):568-570.
[166]张素娟,吴军.微波对坐骨神经损伤大鼠脊髓内生长相关蛋白-43表达的影响[J].中国康复医学杂志,2011,26(11):1004-1008.
[167]王维,苑秀华,王中莉,等.磁刺激疗法对坐骨神经损伤大鼠神经传导速度及损伤运动神经元内GAP-43表达的影响[J].山东医药,2011,51(35):20-22.
[168]赵娟,俞红,徐义明,等.物理治疗促进坐骨神经损伤再生的实验研究[J].中国修复重建外科杂志,2011,25(1):107-111.
[169]李静,胡静.药物与理疗综合治疗腰椎间盘突出症的临床观察[J].实用中西医结合临床,2013,13(08):14-15.
[170]冯淑娥.推拿联合肌力训练治疗腰椎间盘突出症随机平行对照研究[J].实用中医内科杂志,2013,27(05):48-49.
[171]梁宇,卢铁元,马景全.手法按摩结合运动疗法指导治疗腰椎间盘突出症的疗效观察[J].颈腰痛杂志,2014,35(01):69-70.
[172]王东强,郭义,李志军,等.甲钴胺促进周围神经再生的实验研究[J].天津医药,2010,38(3):223-225.
[173]陈宣煌,郑祖高,占鲤生,等.胆囊收缩素对大鼠坐骨神经损伤后修复的影响[J].南昌大学学报(医学版),2012,52(7):4-7.
[174]王梨明,唐际存,辛林伟,等.神经生长因子不同给药方式对坐骨神经吻合后修复与再生的影响[J].中国组织工程研究,2012,16(7):1169-1172.
[175]张涵亮,陈俊.神经生长因子修复周围神经的临床疗效观察[J].吉林大学学报(医学版),2011(2):303.
[176]刘占奇,朱宁萍,张学良,等.甲钴胺在周围神经损伤术后的应用[J].中国药物与临床,2010,10(5):584-586.
[177]杨延良,陈清汉,王红辉.甲状腺素凝胶促进周围神经损伤修复的实验研究[J].中国实用神经疾病杂志,2011,14(3):17-19.
[178]董玉珍,宗海斌,赵红星,等.NT-3转染的SC对坐骨神经缺损大鼠腓肠肌细胞的影响[J].山东医药,2012,52(10):5-7.
[179]王俊梅,曾园山.过表达NT-3 SCs和过表达TrkC NSCs移植减少脊髓损伤处瘢痕形成和促进神经再生[J].解剖学研究,2011,33(5):367-372.
[180]Laramore C, Maymind E, Shifman M I. Expression of neurotrophin and its tropomyosin-related kinase receptors (Trks) during axonal regeneration following spinal cord injury in larval lamprey[J]. Neuroscience,2011,183:265-277.
[181]Iannotti C., Lv X. B., Lu P. H.,等. Neural stem cell transplantation in the repair of spinal cord injury[J]. Progress in Natural Science,2001 (07):12-24.
[182]Lee P, Zhuo H, Helke C J. Axotomy alters neurotrophin and neurotrophin receptor mRNAs in the vagus nerve and nodose ganglion of the rat[J]. Brain Res Mol Brain Res,2001,87(1):31-41.
[183]Shihabuddin L S, Ray J, Gage F H. FGF-2 is sufficient to isolate progenitors found in the adult mammalian spinal cord[J]. Exp Neurol,1997,148(2):577-586.
[184]Donnerer J. Regeneration of primary sensory neurons[J]. Pharmacology,2003,67(4):169-181.
[185]Fine E G, Decosterd I, Papaloizos M, et al. GDNF and NGF released by synthetic guidance channels support sciatic nerve regeneration across a long gap[J]. Eur J Neurosci,2002,15(4):589-601.
[186]刘芳,张伟玲,邹伟.神经生长因子对急性神经损伤保护作用机制初探[J].中国急救医学,2006,26(10):687-689.
[187]孟涛,王栓科,孙正义,等.联合应用ATP和NGF对体外培养乳鼠脊髓 神经元影响的研究[J].中华显微外科杂志,2004,27(04):41-43.
[188]张玉波,伍亚民,杨恒文,等.NGF促周围神经再生过程中对血管生成的影响[J].第三军医大学学报,2005,27(14):1463-1466.
[189]刘芳,邹伟,张国威,等.针刺对脑出血大鼠神经生长因子基因表达的影响[J].针灸临床杂志,2007,23(05):46-49.
[190]林浩东,王欢,陈德松,等.银杏酮酯对大鼠坐骨神经损伤后神经生长因子蛋白表达的影响[J].复旦学报(医学版),2007,34(05):737-740.
[191]于志勇,杨大志,刘洪涛,等.转染NGF基因的Schwann细胞对慢性神经根嵌压伤后神经修复的作用[J].脊柱外科杂志,2009,7(05):298-301.
[192]张贵春,张永先.神经生长因子对合并神经损伤胫骨骨折早期愈合的影响[J].中国组织工程研究与临床康复,2009,13(11):2057-2061.
[193]杨云春,刘庆,邓茹,等.鼠神经生长因子联合加巴喷丁治疗外周神经损伤后神经病理性疼痛[J].中国疼痛医学杂志,2012,18(06):360-362.
[194]Walker R G, Foster A, Randolph C L, et al. Changes in NGF and NT-3 protein species in the superior cervical ganglion following axotomy of postganglionic axons[J]. Brain Res,2009,1255:1-8.
[195]李奕,林巍巍,陈雪,等.长时间坐骨神经横断伤后远侧端雪旺氏细胞活性变化[J].神经解剖学杂志,2011,27(02):140-146.
[196]Barde Y A, Edgar D, Thoenen H. Purification of a new neurotrophic factor from mammalian brain[J]. EMBO J,1982,1(5):549-553.
[197]张萌,吴海琴,王虎清.BDNF在神经系统疾病中的作用机制[J].卒中与神经疾病,2013,20(06):384-387.
[198]Parrilla-Reverter G, Agudo M, Sobrado-Calvo P, et al. Effects of different neurotrophic factors on the survival of retinal ganglion cells after a complete intraorbital nerve crush injury:a quantitative in vivo study[J]. Exp Eye Res,2009,89(1):32-41.
[199]Tom V J, Sandrow-Feinberg H R, Miller K, et al. Exogenous BDNF enhances the integration of chronically injured axons that regenerate through a peripheral nerve grafted into a chondroitinase-treated spinal cord injury site[J]. Exp Neurol,2013,239:91-100.
[200]周钰.头针结合艾灸对缺血缺氧性脑损伤幼鼠学习记忆能力及脑内BDNF的影响[C].澳大利亚悉尼:2013.
[201]穆小茜,程淑霞,王艳,等.脑源性神经营养因子在视网膜神经细胞bcl-2蛋白动态表达中的作用[J].临床军医杂志,2013,41(10):991-992.
[202]杨敏,林霞,项雪燕.抑郁症患者脑源性神经营养因子的检测及其与认知功能的相关性[J].中国老年学杂志,2013,33(21):5311-5312.
[203]操军,王俊,况利,等.抑郁症自杀未遂患者血浆脑源性神经营养因子水平及相关分析[J].中国神经精神疾病杂志,2013,39(10):597-601.
[204]王岩峰,秦光华,张玉强,等.BDNF对大鼠急性脊髓损伤后NF-κB表达的影响[J].解剖学研究,2013,35(04):283-286.
[205]Ogun-Muyiwa P, Helliwell R, Mcintyre P, et al. Glial cell line derived neurotrophic factor (GDNF) regulates VR1 and substance P in cultured sensory neurons[J]. Neuroreport,1999,10(10):2107-2111.
[206]成少安,李志跃.GDNF在大鼠坐骨神经损伤后的表达变化研究[J].浙江医学,2006,28(05):353-355.
[207]高贺云,魏明发,王燕,等.胶质细胞源性神经营养因子和神经营养素-3双基因转染大鼠骨髓间充质干细胞体外诱导分化为神经样细胞的研究[J].实用儿科临床杂志,2011,26(11):877-879.
[208]李亚,张亚楠,陈亚静,等.GDNF在慢性应激和老化致小鼠行为与认知损伤中的作用[J].中国应用生理学杂志,2013,29(01):52-56.
[209]赵莉,陈传好,单增强,等.GDNF基因体内转染对大鼠面神经运动神经元的保护作用[J].中国临床解剖学杂志,2006,24(04):413-415.
[210]王瑞辉,陈燕芳,屈红艳.针刺对臂丛神经损伤后胶源性神经营养因子的影响[J].陕西中医学院学报,2009,32(06):66-68.
[211]沈峰,孔立红,任婕,等.电针对脑缺血再灌注大鼠海马GDNF表达的影响[J].湖北中医杂志,2012,34(04):25-26.
[212]张文玉,高谦,王刚,等.4种微创疗法对大鼠腓肠神经损伤后脑源性和胶源性神经营养因子的影响[J].中华保健医学杂志,2012,14(02):88-90.
[213]李硕,张同园.捏脊疗法对脾虚大鼠学习记忆及其皮层BDNF和GDNF阳性细胞数目的影响[J].中医儿科杂志,2013,9(05):8-11.
[214]邓明明,刘芬,廖敏,等.内源性GDNF在针刺促进损伤脊髓神经元轴突出芽中的作用[J].西部医学,2013,25(06):811-814.
[215]李强,伍亚民,刘媛,等.NGF与CNTF促进周围神经轴浆运输功能恢复的比较研究[J].中国矫形外科杂志,2005,13(05):38-41.
[216]赵彩霞,刘佳,章为.大鼠脊髓横断损伤后CNTF mRNA的表达变化[J].四川大学学报(医学版),2009,40(03):412-414.
[217]毕文杰,章为,王廷华,等.嗅鞘细胞移植后脊髓半横断大鼠睫状神经营养因子和FGF-2表达的变化[J].江苏大学学报(医学版),2009,19(01):5-9.
[218]巴迎春,范艳,王金德,等.TGF-β1和CNTF在大鼠移植神经干细胞后的损伤脊髓中的表达[J].昆明医学院学报,2012,33(03):1-4.
[219]王艳萍,王航平,王廷华.运动训练对大鼠肾上腺睫状神经营养因子表达的影响[J].四川解剖学杂志,2012,20(01):10-11.
[220]王晓晖,何敏,王万辉,等.CNTF对慢性高眼压大鼠RGCs的保护作用[J].临床与实验病理学杂志,2009,25(01):72-74.
[221]钱志敏,王山丹,段香星,等.睫状神经营养因子对视神经损伤后视网膜神经节细胞的保护作用[J].内蒙古医学院学报,2012,34(6):878-881.
[222]杨惠婷,姚鹏,鲍永新.睫状神经营养因子和碱性成纤维细胞生长因子对视神经损伤保护的研究[J].中国药物经济学,2013(03):263-264.
[223]李志全.神经营养素3对神经细胞调亡的保护作用机制研究[D].第四军医大学,2008.
[224]石向群,范明,陆兵勋,等.周围神经损伤对脊髓运动神经元NT-3表达的影响[J].西北国防医学杂志,2001,22(1):15-17.
[225]Seshi B, Kumar S, King D. Multilineage gene expression in human bone marrow stromal cells as evidenced by single-cell microarray analysis[J]. Blood Cells Mol Dis,2003,31(2):268-285.
[226]Fox E A, Mcadams J. Smooth-muscle-specific expression of neurotrophin-3 in mouse embryonic and neonatal gastrointestinal tract[J]. Cell Tissue Res,2010,340(2):267-286.
[227]Sahenk Z, Galloway G, Edwards C, et al. TrkB and TrkC agonist antibodies improve function, electrophysiologic and pathologic features in Trembler J mice[J]. Exp Neurol,2010,224(2):495-506.
[228]魏良浩,潘庆,张跃明.《金匮》肾气丸对阿尔茨海默病模型大鼠额叶皮质神经元NT-3表达的影响[J].中国中医急症,2013,22(2):211-213.
[229]马军利,刘洪臣,王冠超,等.食物硬度对离乳后大鼠咬肌神经营养因子3及其受体TrkC mRNA表达的影响[J].中华老年口腔医学杂志,2007,5(1):4-7.
[230]董玉珍,宗海斌,杨林,等.神经营养素3对坐骨神经损伤大鼠肌萎缩的修复作用[J].新乡医学院学报,2012,29(11):831-833.
[231]何成.第三讲 神经营养因子的神经修复作用及其机制[J].中国神经科学杂志,2002,18(01):466-471.
[232]Sahenk Z, Oblinger J, Edwards C. Neurotrophin-3 deficient Schwann cells impair nerve regeneration [J]. Exp Neurol,2008,212(2):552-556.
[233]李志全,胡蕴玉,朱庆生,等.脊髓内注射NT3重组腺病毒对前角神经元的保护作用[J].中华手外科杂志,2006,22(04):249-251.
[234]李芳,李昌琪,石咏梅,等.内源性神经营养因子-3对小鼠周围神经损伤后再生与髓化的影响[J].神经解剖学杂志,2005,21(03):241-246.
[235]Gillespie L N. Regulation of axonal growth and guidance by the neurotrophin family of neurotrophic factors[J]. Clinical and Experimental Pharmacology and Physiology,2003,30(10):724-733.
[236]Matsuo S, Ichikawa H, Silos-Santiago I, et al. Proprioceptive afferents survive in the masseter muscle of trkC knockout mice[J]. Neuroscience,2000,95(1):209-216.
[237]Ivanov S V, Panaccione A, Brown B, et al. TrkC signaling is activated in adenoid cystic carcinoma and requires NT-3 to stimulate invasive behavior[J]. Oncogene,2013,32(32):3698-3710.
[238]Bonni A, Brunet A, West A E, et al. Cell survival promoted by the Ras-MAPK. signaling pathway by transcription-dependent and-independent mechanisms [J]. Science,1999,286(5443):1358-1362.
[239]曾洪艳,李力燕,郭小兵,等.神经营养因子、凋亡相关因子和轴突导向因子在大鼠神经管畸形发育中的表达[J].昆明医科大学学报,2012,33(11):13-18.
[240]鲍伟,于晓辉,万小平.TrkB信号转导通路在肿瘤中的作用[J].上海交通大学学报(医学版),2012,32(12):1652-1655.
[241]杨青峰,陈彪,周长满,等.脊髓TrkC mRNA的表达及其坐骨神经损伤后的变化[J].中国应用生理学杂志,1999,15(1):40-43.
[242]黄纯海,庞江霞,王廷华.正常大鼠脊髓内微血管及TrkC分布的研究[J].昆明医学院学报,2008,29(1):43-45.
[243]Johnson H, Hokfelt T, Ulfhake B. Expression of p75(NTR), trkB and trkC in nonmanipulated and axotomized motoneurons of aged rats[J]. Brain Res Mol Brain Res,1999,69(1):21-34.
[244]Sagot Y, Rosse T, Vejsada R, et al. Differential effects of neurotrophic factors on motoneuron retrograde labeling in a murine model of motoneuron disease[J].J Neurosci,1998,18(3):1132-1141.
[245]王迅,刘兴波,王泓杰.17β雌二醇对大鼠坐骨神经损伤的保护[J].中国临床康复,2006,10(26):101-103.
[246]李仁斌,柯铁,陈文昌.白血病抑制因子促进大鼠坐骨神经再生的作用研究[J].福建医药杂志,2012,34(1):61-64.
[247]梅旭晖.推拿对坐骨神经损伤大鼠NGF及其受体选择的研究[D].北京中医药大学,2013.