Cortical plasticity and nerve regeneration after peripheral nerve injury

With the development of neuroscience, substantial advances have been achieved in peripheral nerve regeneration over the past decades. However, peripheral nerve injury remains a critical public health problem because of the subsequent impairment or absence of sensorimotor function. Uncomfortable complications of peripheral nerve injury, such as chronic pain, can also cause problems for families and society. A number of studies have demonstrated that the proper functioning of the nervous system depends not only on a complete connection from the central nervous system to the surrounding targets at an anatomical level, but also on the continuous bilateral communication between the two. After peripheral nerve injury, the interruption of afferent and efferent signals can cause complex pathophysiological changes, including neurochemical alterations, modifications in the adaptability of excitatory and inhibitory neurons, and the reorganization of somatosensory and motor regions. This review discusses the close relationship between the cerebral cortex and peripheral nerves. We also focus on common therapies for peripheral nerve injury and summarize their potential mechanisms in relation to cortical plasticity. It has been suggested that cortical plasticity may be important for improving functional recovery after peripheral nerve damage. Further understanding of the potential common mechanisms between cortical reorganization and nerve injury will help to elucidate the pathophysiological processes of nerve injury, and may allow for the reduction of adverse consequences during peripheral nerve injury recovery. We also review the role that regulating reorganization mechanisms plays in functional recovery, and conclude with a suggestion to target cortical plasticity along with therapeutic interventions to promote peripheral nerve injury recovery.

A comprehensive musculoskeletal and peripheral nervous system assessment of war-related bilateral upper extremity amputees

Background: Upper limb amputations are one of the unpleasant war injuries that armed forces are exposed to frequently. The present study aimed to assess the musculoskeletal and peripheral nervous systems in Iraq-Iran war veterans with bilateral upper extremity amputation.Methods: The study consisted of taking a history and clinical examinations including demographic data, presence and location of pain, level of amputation, passive and active ranges of movement of the joints across the upper and lower extremities and spine, manual palpation, neurological examination, blood circulation pulses and issues related to a prosthetic limb. In this study, 103 Iranian bilateral upper extremity amputees(206 amputations) from the IranIraq war were evaluated, and a detailed questionnaire was also administered.Results: The most common level of amputation was the finger or wrist level(108, 52.4%). Based on clinical examination, we found high frequencies of limited active and passive joint range of movement across the scapula, shoulder, elbow, wrist and metacarpophalangeal, interphalangeal and thumb joints. Based on muscle strength testing, we found varying degrees of weakness across the upper limbs. Musculoskeletal disorders included epicondylitis(65, 31.6%), rotator cuff injury(24, 11.7%), bicipital tendonitis(69, 33.5%), shoulder drop(42, 20.4%) and muscle atrophy(19, 9.2%). Peripheral nerve disorders included carpal tunnel syndrome in 13(6.3%) and unilateral brachial plexus injury in 1(1%). Fifty-three(51.5%) were diagnosed with facet joint syndrome at the level of the cervical spine(the most frequent site). Using a prosthesis was reported by 65(63.1%), both left and right sides. The back was the most common site of pain(71.8%).Conclusion: The high prevalence of neuro-musculoskeletal disorders among bilateral upper extremity amputees indicates that they need regular rehabilitation care.

Effects of different frequencies of repetitive transcranial magnetic stimulation on the recovery of upper limb motor dysfunction in patients with subacute cerebral infarction

Studies have confirmed that low-frequency repetitive transcranial magnetic stimulation can decrease the activity of cortical neurons, and high-frequency repetitive transcranial magnetic stimulation can increase the excitability of cortical neurons. However, there are few studies concerning the use of different frequencies of repetitive transcranial magnetic stimulation on the recovery of upper-limb motor function after cerebral infarction. We hypothesized that different frequencies of repetitive transcranial magnetic stimulation in patients with cerebral infarction would produce different effects on the recovery of upper-limb motor function. This study enrolled 127 patients with upper-limb dysfunction during the subacute phase of cerebral infarction. These patients were randomly assigned to three groups. The low-frequency group comprised 42 patients who were treated with 1 Hz repetitive transcranial magnetic stimulation on the contralateral hemisphere primary motor cortex （M1）. The high-frequency group comprised 43 patients who were treated with 10 Hz repetitive transcranial magnetic stimulation on ipsilateral M1. Finally, the sham group comprised 42 patients who were treated with 10 Hz of false stimulation on ipsilateral M1. A total of 135 seconds of stimulation was applied in the sham group and high-frequency group. At 2 weeks after treatment, cortical latency of motor-evoked potentials and central motor conduction time were significantly lower compared with before treatment. Moreover, motor function scores were significantly improved. The above indices for the low- and high-frequency groups were significantly different compared with the sham group. However, there was no significant difference between the low- and high-frequency groups. The results show that low- and high-frequency repetitive transcranial magnetic stimulation can similarly improve upper-limb motor function in patients with cerebral infarction.

Use of FK506 and bone marrow mesenchymal stem cells for rat hind limb allografts

Dark Agouti rat donor hind limbs were orthotopically transplanted into Lewis rat recipients to verify the effects of bone marrow mesenchymal stem cells on neural regeneration and functional recovery of allotransplanted limbs in the microenvironment of immunotolerance, bone marrow mesenchymal stem cells were intramuscularly （gluteus maximus） injected with FK506 （tacrolimus） daily, and were transplanted to the injured nerves. Results indicated that the allograft group not receiving therapy showed severe rejection, with transplanted limbs detaching at 10 days after transplantation with complete necrosis. The number of myelinated axons and Schwann cells in the FK506 and FK506 ＋ bone marrow mesenchymal stem cells groups were significantly increased. We observed a lesser degree of gastrocnemius muscle degeneration, and increased polymorphic fibers along with other pathological changes in the FK506 ＋ bone marrow mesenchymal stem cells group. The FK506 ＋ bone marrow mesenchymal stem cells group showed significantly better recovery than the autograft and FK506 groups. The results demonstrated that FK506 improved the immune microenvironment. FK506 combined with bone marrow mesenchymal stem cells significantly promoted sciatic nerve regeneration, and improved sensory recovery and motor function in hind limb allotransplant.

Improved C_(3-4) transfer for treatment of root avulsion of the brachial plexus upper trunk Animal experiments and clinical application

Experimental rats with root avulsion of the brachial plexus upper trunk were treated with the improved C34 transfer for neurotization of 05-6. Results showed that Terzis grooming test scores were significantly increased at 6 months after treatment, the latency of C5-6 motor evoked potential was gradually shortened, and the amplitude was gradually increased. The rate of C3 instead of C5 and the C4 ＋ phrenic nerve instead of C6 myelinated nerve fibers crossing through the anastomotic stoma was approximately 80%. Myelinated nerve fibers were arranged loosely but the thickness of the myelin sheath was similar to that of the healthy side. In clinical applications, 39 patients with root avulsion of the brachial plexus upper trunk were followed for 6 months to 4.5 years after treatment using the improved C3 instead of C5 nerve root transfer and C4 nerve root and phrenic nerve instead of C6 nerve root transfer. Results showed that the strength of the brachial biceps and deltoid muscles recovered to level IIHV, scapular muscle to level Ill-W, latissimus dorsi and pectoralis major muscles to above level Ⅲ, and the brachial triceps muscle to level 0 Ill. Results showed that the improved 03-4 transfer for root avulsion of the brachial plexus upper trunk in animal models is similar to clinical findings and that C3-4 and the phrenic nerve transfer for neurotization of C5-6 can innervate the avulsed brachial plexus upper trunk and promote the recovery of nerve function in the upper extremity.

Regenerative peripheral nerve interface prevents neuroma formation after peripheral nerve transection

Neuroma formation after peripheral nerve transection often leads to severe neuropathic pain.Regenerative peripheral nerve interface has been shown to reduce painful neuroma in the clinic.However,no reports have investigated the underlying mechanisms,and no comparative animal studies on regenerative peripheral nerve interface and other means of neuroma prevention have been conducted to date.In this study,we established a rat model of left sciatic nerve transfection,and subsequently interfered with the model using the regenerative peripheral nerve interface or proximal nerve stump implantation inside a fully innervated muscle.Results showed that,compared with rats subjected to nerve stump implantation inside the muscle,rats subjected to regenerative peripheral nerve interface intervention showed greater inhibition of the proliferation of collagenous fibers and irregular regenerated axons,lower expressions of the fibrosis markerα-smooth muscle actin and the inflammatory marker sigma-1 receptor in the proximal nerve stump,lower autophagy behaviors,lower expressions of c-fos and substance P,higher expression of glial cell line-derived neurotrophic factor in the ipsilateral dorsal root ganglia.These findings suggested that regenerative peripheral nerve interface inhibits peripheral nerve injury-induced neuroma formation and neuropathic pain possibly via the upregulation of the expression of glial cell line-derived neurotrophic factor in the dorsal root ganglia and reducing neuroinflammation in the nerve stump.

正中神经重复外周磁刺激联合常规康复训练对痉挛型偏瘫患儿上肢和手功能的疗效分析

目的分析正中神经重复外周磁刺激(rPMS)联合常规康复训练对痉挛型偏瘫患儿上肢和手功能的疗效。方法招募2022年6月至2023年6月徐州市儿童医院康复科收治的痉挛型偏瘫患儿61例。采用随机数字表法将其分为观察组(30例)和对照组(31例)。两组患儿均进行常规康复训练,观察组在常规康复训练之前进行正中神经rPMS,对照组在常规康复训练之前进行正中神经伪刺激。分别于治疗前、治疗4周后通过Caroll上肢功能测试(UEFT)、组块测试(BBT)和复旦中文版脑瘫幼儿手功能分级系统(Mini-MACS)对患儿上肢和手功能进行疗效评定。结果与治疗前比较,两组患儿治疗后抓握能力、协调性明显改善,且UEFT总分、BBT评分显著提高,差异有统计学意义(P<0.05)。治疗后,观察组抓握能力改善程度优于对照组,UEFT总分、BBT评分高于对照组,差异有统计学意义(P<0.05)。两组治疗前后Mini-MACS分级比较差异无统计学意义(P>0.05),治疗后,观察组Mini-MACS分级显著优于对照组(P<0.05)。结论正中神经rPMS联合常规康复训练能有效改善痉挛型偏瘫患儿上肢和手功能。

导向任务作业康复训练在上肢周围神经损伤患者中的应用效果及对患者神经功能恢复的影响

目的 探讨导向任务作业康复训练在上肢周围神经损伤患者中的应用效果及对患者神经功能恢复的影响。方法 选取2020年1月~2023年1月成都八一骨科医院收治的100例上肢周围神经损伤患者。随机数字表法将患者分为对照组(予以常规康复治疗)和观察组(予以导向任务作业康复训练),各50例。连续治疗3个月,比较两组患者的临床疗效、手实用功能及治疗前后神经功能恢复情况。结果 治疗后,观察组患者的优良率是98.00%(49/50),高于对照组患者的86.00%(43/50),差异有统计学意义(χ^(2)=4.891,P=0.027)。治疗后,观察组患者的手实用功能总有效率是96.00%(48/50),高于对照组患者的80.00%(40/50),差异有统计学意义(χ^(2)=6.061,P=0.014)。治疗后3个月时,观察组尺神经、正中神经及桡神经功能的波幅均高于对照组,运动神经传导速度均快于对照组患者,肌电潜伏期均短于对照组患者,差异有统计学意义(P<0.05)。结论 导向任务作业康复训练在上肢周围神经损伤患者中的应用可取得显著效果,不仅能提高其临床疗效,改善手实用功能,还能促进神经功能恢复。

手部神经支配参照卡联合概念构图教学法在上肢骨折合并周围神经损伤护理培训中的应用效果

目的:探讨手部神经支配参照卡联合概念构图教学法在上肢骨折合并周围神经损伤护理培训中的应用效果。方法:选取2022年1—12月广州市正骨医院收治的上肢骨折合并周围神经损伤患者20例以及15名护理人员作为对照组,选取2023年1—12月收治的上肢骨折合并周围神经损伤患者20例以及15名护理人员作为观察组。对照组护理人员接受常规培训后进行护理工作,观察组护理人员接受手部神经支配参照卡联合概念构图教学法培训后进行护理工作。比较两组培训效果及患者护理满意度。结果:观察组护理人员理论与实践考核成绩、分析、评价、推理、归纳推理、演绎推理评分及总分,学习动机、自我管理、学习合作、信息素养评分高于对照组(P<0.05)。观察组患者护理总满意度高于对照组(P<0.05)。结论:手部神经支配参照卡联合概念构图教学法在上肢骨折合并周围神经损伤护理培训中的应用效果显著,可以提高护理人员理论考核成绩、实践能力、临床判断性思维能力、主动学习能力,从而为患者提供优质护理服务,提高患者护理满意度。

脑卒中恢复期软瘫患者上肢周围神经损伤与运动功能的相关性

目的通过神经电生理检查,评估脑卒中恢复期软瘫患者上肢周围神经损伤发生率,探讨上肢周围神经损伤与上肢运动功能之间的相关性,指导临床治疗及康复。方法2015年12月至2019年10月,符合条件的脑卒中患者77例患侧上肢行运动神经传导、F波、皮肤交感反应(SSR)、针极肌电图(EMG)检查,采用简式Fugl-Meyer评定量表上肢部分(FMA-UE)进行评定。根据神经传导结果分为正常组和损伤组。结果损伤组共41例(53.25%)。损伤组FMA-UE评分低于正常组(t=2.193,P<0.05);F波振幅和出现率降低(t>2.002,P<0.05),SSR振幅和潜伏期明显下降(t>3.140,P<0.01),但损伤组F波出现率、SSR潜伏期均处正常参考值范围内。神经损伤数与FMA-UE评分负相关(r=-0.858,P<0.001);线性回归分析显示,尺神经、桡神经、肌皮神经振幅是FMA-UE评分的影响因素(B>0.317,P<0.05)。结论脑卒中恢复期患者患侧上肢出现软瘫后,有可能出现上肢周围神经损伤,且与运动功能恢复有关;应尽量避免、及时治疗周围神经损伤。

儿童上肢晚期神经损伤的治疗

报告并评价儿童上肢晚期神经损伤的治疗效果。方法：报道１３岁以下儿童平均７岁上肢晚期神经损伤１５例２１条（正中神经８条，尺神经７条，桡神经５条，肌皮神经１条）。完全断裂９条，粘连、压迫１２条。损伤神经的处理时间为伤后１年至１４年（平均４年４个月）。采用神经外膜对端缝合术７条，神经松解术１２条，自体神经移植术１条，神经瘤对端缝合术１条。结果：１３例１８条神经随访１年至２３年６个月（平均４年９个月），优良率为６６．７％，尚有２７．８％病人恢复了保护性感觉。结论：本研究证实晚期神经损伤有修复价值，儿童病人能取得更满意疗效。

正中神经显微减压术治疗糖尿病性上肢周围神经病

目的探讨正中神经显微减压术治疗糖尿病性上肢周围神经病的疗效。方法应用正中神经显微减压术治疗12例糖尿病性上肢周围神经病患者(19侧手)。结果平均随访35个月。12例糖尿病性上肢周围神经病患者19侧手部麻木、疼痛症状术后100%缓解,手部力弱、运动功能不良症状术后缓解率58.8%,随访期间症状复发1侧手(6%)。并发症:手术切口愈合不良2侧(12%)。结论周围神经显微减压术是治疗糖尿病性上肢周围神经病的有效方法,其改善手部感觉障碍的疗效好于改善运动功能不良的疗效。

高压氧联合针灸治疗外伤性周围性面神经损伤的效果及肌电图分析

目的观察高压氧联合针灸治疗外伤性周围性面神经损伤的临床疗效,并对治疗前后肌电图结果进行分析。方法2007年1月~2013年1月,将本院160例外伤性周围性面神经损伤患者分为新法治疗组（n=80）和常规治疗组（n=80）。两组均常规予药物治疗,新法治疗组在此基础上加用高压氧联合针灸治疗,疗程36 d。观察患者的临床疗效,同时对治疗前后的肌电图结果进行分析。结果治疗后,新法治疗组治愈率和有效率均显著高于常规治疗组（χ~2〉7.657,P〈0.001）;新法治疗组面神经运动潜伏期较常规治疗组缩短（t〉2.214,P〈0.05）,面神经M波波幅较常规治疗组明显升高（t〉3.116,P〈0.01）,相关募集电位数较常规治疗组增加（χ~2=9.76,P〈0.05）,运动单位电位电压较常规治疗组显著升高（t〉5.45,P〈0.001）。结论高压氧联合针灸治疗可提高外伤性周围性面神经损伤的临床疗效。

高频超声在周围神经损伤诊断中的应用进展

高频超声具有无创、无辐射、便携、廉价、患者依从性好等优点,能够实时、动态显示周围神经及其周围组织的形态学信息。高频超声具有良好的空间分辨力和对比分辨率,能在损伤早期确定周围神经损伤原因、具体部位及程度,清晰显示损伤神经的内部结构变化。目前,高频超声已成为周围神经病变必不可少的影像学检查方法。本文就高频超声在周围神经损伤检查方面取得的进展扼要综述。

左上肢粉碎性骨折头外伤颅内血肿术后患者合并尿路感染与肾前性少尿的诊断与治疗

讨论左上肢粉碎性骨折头外伤颅内血肿术后患者合并尿路感染与肾前性少尿的诊治经验。1例42岁,男性患者,因头颅左上肢外伤4 d,颅内血肿术后3 d,少尿2 d入院。肾前性少尿与少尿型肾功能不全的鉴别诊断是重要的。中西医结合(手术、抗感染治疗、营养支持等)治疗对左上肢粉碎性骨折头外伤颅内血肿术后合并尿路感染与肾前性少尿的患者安全有效。

肘管尺神经显微减压术治疗糖尿病性上肢周围神经病

目的探讨肘管尺神经显微减压术治疗糖尿病性上肢周围神经病的疗效。方法应用肘管尺神经显微减压、肌下转位术治疗6例(9侧手)糖尿病性上肢周围神经病患者。结果平均随访20个月。6例糖尿病性上肢周围神经病患者9侧手部麻木、疼痛症状术后100%缓解,手部力弱、运动功能不良症状术后缓解率55.6%(5/9),随访期间症状无复发。并发症有手术切口愈合不良1侧(11.1%,1/9)。结论周围神经显微减压术是治疗糖尿病性上肢周围神经病的有效方法,其改善手部感觉障碍的疗效好于改善运动功能不良的疗效。

神经松解减压术治疗上肢神经损伤

目的 :报告采用神经松解压术治疗上肢神经损伤的效果。方法 :采用显微外科技术对 6例 48条上肢神经分别行神经外膜松解、外膜加束膜松解及神经前置治疗。结果 :48条神经中疗效优的 18条 ,良 2 4条 ,可 5条 ,差 1条 ,总优良率 87.5 %。结论 :对上肢神经损伤患者 ,应尽早选用神经探查松解减压术 ,可望获得满意效果。

神经松动术和神经肌肉电刺激及二者联合治疗上肢周围神经损伤的疗效对比

目的对比神经松动术(NMT)、神经肌肉电刺激(NMES)及二者联合治疗上肢周围神经损伤(PNI)的疗效。方法将90例上肢PNI患者随机分为NMT组、NMES组、NMT联合NMES组(联合组),每组30例。在常规基础治疗基础上,NMT组行张力手法为主的NMT治疗,NMES组行NMES治疗,联合组先行NMT治疗再行NMES治疗,疗程均为4周。治疗前、治疗4周后比较3组患者的日常生活活动能力、周围神经运动传导速度(MCV)、感觉神经传导速度(SCV);治疗4周后比较3组患者的临床疗效,记录不良事件发生情况。结果联合组临床总有效率高于NMT组(P<0.05)。治疗4周后,3组患者改良Barthel(mBI)积分均高于治疗前,周围神经MCV及SCV快于治疗前,且NMT组、NMES组、联合组mBI积分依次升高,MCV及SCV依次增快(均P<0.05)。3组治疗过程中均未见明显不良反应发生。结论NMT与NMES治疗均能促进上肢PNI后神经功能恢复,改善患者的日常生活活动能力,且联合治疗效果更佳。

葛根素对大鼠后肢缺血再灌注损伤骨骼肌和周围神经的保护作用

目的研究葛根素在大鼠后肢缺血再灌注损伤中对骨骼肌及周围神经的保护作用。方法 30只健康雌性SD大鼠按随机原则分为手术+葛根素组(P组)及手术+生理盐水组(N组)、假手术+生理盐水组(S组),术前1 h开始分别行腹腔注射药物。手术采用橡皮筋套圈阻断大鼠左后肢髂总动、静脉4 h再恢复血运,建立肢体缺血再灌注损伤的动物实验模型。分别检测各组血管再通前,再通后2 h及4 h血清中超氧化物歧化酶(SOD)和丙二醛(MDA)的含量,及再通后4 h及48 h患肢电镜下骨骼肌组织及周围神经组织的组织形态学改变。结果 :在各个时间点上葛根素治疗组(P组)的SOD含量高于生理盐水治疗组(N组,P<0.05),MDA含量有升高但低于生理盐水治疗组(N组,P<0.05);电镜下葛根素治疗组(P组)的肌肉、神经对比假手术组(S组)有损伤改变,但程度轻于生理盐水治疗组(N组)。结论葛根素对大鼠后肢缺血再灌注损伤的骨骼肌及周围神经有保护作用。

早期康复训练结合综合物理干预对创伤性周围神经损伤后手功能障碍的影响

目的探讨早期康复训练结合综合物理干预对创伤性周围神经损伤后手功能障碍的影响。方法选取2018年1月~2019年4月沈阳医学院附属中心医院收治的80例外伤性周围神经损伤所致手部功能障碍患者作为研究对象,按照随机数字表法将其分为对照组与观察组,每组各40例。对照组患者行早期的被动手术功能锻炼,观察组患者实施早期康复训练结合综合物理干预。比较两组患者的上肢主要滋养血管血流峰值情况、正中神经电生理指标以及干预后1年两组患者的临床症状、手部功能评分变化情况。结果干预后,观察组患者的肱动脉及腋动脉血流峰值均高于对照组,差异有统计学意义(P<0.05)。干预后,观察组患者的感觉及运动神经传导速度均高于对照组,差异有统计学意义(P<0.05)。干预后1年,观察组患者肢体麻木、关节僵硬、慢性疼痛及肢体萎缩发生率均低于对照组,差异有统计学意义(P<0.05)。干预后3个月及干预后1年,观察组患者的手部功能评分均高于对照组,差异有统计学意义(P<0.05)。结论针对创伤性周围神经损伤所致手部功能障碍,实施早期康复治疗结合综合物理干预可显著改善手术血液循环及神经传导,减少中远期并发症,提高手部功能。