Morphological differences in skeletal muscle atrophy of rats with motor nerve and/or sensory nerve injury

Skeletal muscle atrophy occurs after denervation. The present study dissected the rat left ventral root and dorsal root at L4-6 or the sciatic nerve to establish a model of simple motor nerve injury, sensory nerve injury or mixed nerve injury. Results showed that with prolonged denervation time, rats with simple motor nerve injury, sensory nerve injury or mixed nerve injury exhibited abnormal behavior, reduced wet weight of the left gastrocnemius muscle, decreased diameter and cross-sectional area and altered ultrastructure of muscle cells, as well as decreased cross-sectional area and increased gray scale of the gastrocnemius muscle motor end plate. Moreover, at the same time point, the pathological changes were most severe in mixed nerve injury, followed by simple motor nerve injury, and the changes in simple sensory nerve injury were the mildest. These findings indicate that normal skeletal muscle morphology is maintained by intact innervation. Motor nerve injury resulted in larger damage to skeletal muscle and more severe atrophy than sensory nerve injury. Thus, reconstruction of motor nerves should be considered first in the clinical treatment of skeletal muscle atrophy caused by denervation.     

Perlecan and synaptophysin changes in denervated skeletal muscle

The present study observed sciatic nerve and gastrocnemius muscle changes in denervated rats using morphology methods,and assessed expression of perlecan,an extracellular matrix com-ponent,which is located at the skeletal muscle cell surface as acetylcholine esterase,as well as synaptophysin,a synaptic marker.Results showed degeneration and inflammation following transection of the sciatic nerve.In addition,the sciatic nerve-dominated skeletal muscle degen-erated with mild inflammation,indicating that skeletal muscle atrophy primarily contributed to denervation-induced nutritional disturbances.With prolonged injury time(1-4 weeks post-injury),perlecan expression gradually decreased and reached the lowest level at 4 weeks,but synap-tophysin expression remained unchanged after denervation.Results suggested that perlecan expression was more sensitive to denervation and reflected regional extracellular matrix changes following denervation.     

Combination therapy using evening primrose oil and electrical stimulation to improve nerve function following a crush injury of sciatic nerve in male rats

Peripheral nerve injuries with a poor prognosis are common. Evening primrose oil (EPO) has beneficial biological effects and immunomodulatory properties. Since electrical activity plays a major role in neural regeneration, the present study investigated the effects of electrical stimulation (ES), combined with evening primrose oil (EPO), on sciatic nerve function after a crush injury in rats. In anesthetized rats, the sciatic nerve was crushed using small haemostatic forceps followed by ES and/or EPO treatment for 4 weeks. Functional recovery of the sciatic nerve was assessed using the sciatic functional index. Histopathological changes of gas-trocnemius muscle atrophy were investigated by light microscopy. Electrophysiological changes were assessed by the nerve conduction velocity of sciatic nerves. Immunohistochemistry was used to determine the remy-elination of the sciatic nerve following the interventions. EPO + ES, EPO, and ES obviously improved sciatic nerve function assessed by the sciatic functional index and nerve conduction velocity of the sciatic nerve at 28 days after operation. Expression of the peripheral nerve remyelination marker, protein zero (P0), was in-creased in the treatment groups at 28 days after operation. Muscle atrophy severity was decreased significantly while the nerve conduction velocity was increased significantly in rats with sciatic nerve injury in the injury+ EPO + ES group than in the EPO or ES group. Totally speaking, the combined use of EPO and ES may pro-duce an improving effect on the function of sciatic nerves injured by a crush. The increased expression of P0 may have contributed to improving the functional effects of combination therapy with EPO and ES as well as the electrophysiological and histopathological features of the injured peripheral nerve.     

Apelin inhibits motor neuron apoptosis in the anterior horn following acute spinal cord and sciatic nerve injuries

Rat models of acute spinal cord injury and sciatic nerve injury were established.Apelin expression in spinal cord tissue was determined.In normal rat spinal cords,apelin expression was visible;however,2 hours post spinal cord injury,apelin expression peaked.Apelin expression increased 1 day post ligation of the sciatic nerve compared with normal rat spinal cords,and peaked at 3 days.Apelin expression was greater in the posterior horn compared with the anterior horn at each time point when compared with the normal group.The onset of neuronal apoptosis was significantly delayed following injection of apelin protein at the stump of the sciatic nerve,and the number of apoptotic cells after injury was reduced when compared with normal spinal cords.Our results indicate that apelin is expressed in the normal spinal cord and central nervous system after peripheral nerve injury.Apelin protein can reduce motor neuron apoptosis in the spinal cord anterior horn and delay the onset of apoptosis.     

Direct muscle neurotization after end-to-end and end-to-side neurorrhaphy An experimental study in the rat forelimb model

The need for the continuous research of new tools for improving motor function recovery after nerve injury is justified by the still often unsatisfactory clinical outcome in these patients. It has been previously shown that the combined use of two reconstructive techniques, namely end-to-side neurorrhaphy and direct muscle neurotization in the rat hindlimb model, can lead to good results in terms of skeletal muscle reinnervation. Here we show that, in the rat forelimb model, the combined use of direct muscle neurotization with either end-to-end or end-to-side neurorrhaphy to reinnervate the denervated flexor digitorum muscles, leads to muscle atrophy prevention over a long postoperative time lapse (10 months). By contrast, very little motor recovery (in case of end-to-end neurorrhaphy) and almost no motor recovery (in case of end-to-side neurorrhaphy) were observed in the grasping activity controlled by flexor digitorum muscles. It can thus be concluded that, at least in the rat, direct muscle neurotization after both end-to-end and end-to-side neurorrhaphy represents a good strategy for preventing denervation-related muscle atrophy but not for regaining the lost motor function.     

Neurological function following intra-neural injection of fluorescent neuronal tracers in rats

Fluorescent neuronal tracers should not be toxic to the nervous system when used in long-term labeling.Previous studies have addressed tracer toxicity,but whether tracers injected into an intact nerve result in functional impairment remains to be elucidated.In the present study,we examined the functions of motor,sensory and autonomic nerves following the application of 5% Fluoro-Gold,4% True Blue and 10% Fluoro-Ruby (5μL) to rat tibial nerves via pressure injection.A set of evaluation methods including walking track analysis,plantar test and laser Doppler perfusion imaging was used to determine the action of the fluorescent neuronal tracers.Additionally,nerve pathology and ratio of muscle wet weight were also observed.Results showed that injection of Fluoro-Gold significantly resulted in loss of motor nerve function,lower plantar sensibility,increasing blood flow volume and higher neurogenic vasodilatation.Myelinated nerve fiber degeneration,unclear boundaries in nerve fibers and high retrograde labeling efficacy were observed in the Fluoro-Gold group.The True Blue group also showed obvious neurogenic vasodilatation,but less severe loss of motor function and degeneration,and fewer labeled motor neurons were found compared with the Fluoro-Gold group.No anomalies of motor and sensory nerve function and no myelinated nerve fiber degeneration were observed in the Fluoro-Ruby group.Experimental findings indicate that Fluoro-Gold tracing could lead to significant functional impairment of motor,sensory and autonomic nerves,while functional impairment was less severe following True Blue tracing.Fluoro-Ruby injection appears to have no effect on neurological function.     

Brain injury in combination with tacrolimus promotes the regeneration of injured peripheral nerves

Both brain injury and tacrolimus have been reported to promote the regeneration of injured peripheral nerves. In this study, before transection of rat sciatic nerve, moderate brain contusion was (or was not) induced. After sciatic nerve injury, tacrolimus, an immunosup-pressant, was (or was not) intraperitoneally administered. At 4, 8 and 12 weeks after surgery, Masson's trichrome, hematoxylin-eosin, and toluidine blue staining results revealed that brain injury or tacrolimus alone or their combination alleviated gastrocnemius muscle atrophy and sciatic nerve fiber impairment on the experimental side, simultaneously improved sciatic nerve function, and increased gastrocnemius muscle wet weight on the experimental side. At 8 and 12 weeks after surgery, brain injury induction and/or tacrolimus treatment increased action potential amplitude in the sciatic nerve trunk. Horseradish peroxidase retrograde tracing revealed that the number of horseradish peroxidase-positive neurons in the anterior horn of the spinal cord was greatly increased. Brain injury in combination with tacrolimus ex-hibited better effects on repair of injured peripheral nerves than brain injury or tacrolimus alone. This result suggests that brain injury in combination with tacrolimus promotes repair of peripheral nerve injury.     

Stress and strain analysis on the anastomosis site sutured with either epineurial or perineurial sutures after simulation of sciatic nerve injury

The magnitude of tensile stress and tensile strain at an anastomosis site under physiological stress is an important factor for the success of anastomosis following suturing in peripheral nerve injury treatment. Sciatic nerves from fresh adult cadavers were used to create models of sciatic nerve injury. The denervated specimens underwent epineurial and perineurial suturing. The elastic modulus (40.96 ± 2.59 MPa) and Poisson ratio (0.37 ± 0.02) of the normal sciatic nerve were measured by strain electrical measurement. A resistance strain gauge was pasted on the front, back, left, and right of the edge of the anastomosis site after suturing. Strain electrical measurement results showed that the stress and strain values of the sciatic nerve following perineurial suturing were lower than those following epineurial suturing. Scanning electron microscopy revealed that the sciatic nerve fibers were disordered following epineurial compared with perineurial suturing. These results indicate that the effect of perineurial suturing in sciatic nerve injury repair is better than that of epineurial suturing.     

Human amnion tissue injected with human umbilical cord mesenchymal stem cells repairs damaged sciatic nerves in rats

Human umbilical cord mesenchymal stem cells,incorporated into an amnion carrier tubes,were assessed for nerve regeneration potential in a rat nerve defect model.Damaged nerves were exposed to human amnion carriers containing either human umbilical cord mesenchymal stem cell (cell transplantation group)or saline(control group).At 8,12,16 and 20 weeks after cell implantation,the sciatic functional index was higher in the cell transplantation group compared with the control group.Furthermore,electrophysiological examination showed that threshold stimulus and maximum stimulus intensity gradually decreased while compound action potential amplitude gradually increased.Hematoxylin-eosin staining showed that regenerating nerve fibers were arranged in nerve tracts in the cell transplantation group and connective tissue between nerve tracts and amnion tissue reduced over time.Gastrocnemius muscle cell diameter,wet weight and restoration ratio were increased.These data indicate that transplanted human umbilical cord mesenchymal stem cells,using the amnion tube connection method,promote restoration of damaged sciatic nerves in rats.     

Nanofibrous nerve conduits for repair of 30-mm-long sciatic nerve defects*

It has been confirmed that nanofibrous poly(3-hydroxybutyrate-co-3-hydroxyvalerate) nerve conduit can promote peripheral nerve regeneration in rats. However, its efficiency in repair of over 30-mm-long sciatic nerve defects needs to be assessed. In this study, we used a nanofibrous poly(3-hydroxybutyrate-co-3-hydroxyvalerate) nerve conduit to bridge a 30-mm-long gap in the rat sciatic nerve. At 4 months after nerve conduit implantation, regenerated nerves were macroscopically observed and histologically assessed. In the nanofibrous graft, the rat sciatic nerve trunk had been reconstructed by restoration of nerve continuity and formation of myelinated nerve fiber. There were Schwann cells and glial cells in the regenerated nerves. Masson’s trichrome staining showed that there were no pathological changes in the size and structure of gastrocnemius muscle cells on the operated side of rats. These findings suggest that nanofibrous poly(3-hydroxybutyrate-co-3-hydroxyvalerate) nerve conduit is suitable for repair of long-segment sciatic nerve defects.     

Electrical stimulation impairs early functional recovery and accentuates skeletal muscle atrophy after sciatic nerve crush injury in rats

Neuromuscular recovery after peripheral nerve lesion depends on the regeneration of severed axons that re‐establish their functional connection with the denervated muscle. The aim of this study was to determine the effects of electrical stimulation (ES) on the neuromuscular recovery after nerve crush injury in rats. Electrical stimulation was carried out on the tibialis anterior (TA) muscle after sciatic nerve crush injury in a rat model. Six ES sessions were administered every other day starting from day 3 postinjury until the end of the experiment (day 14). The sciatic functional index was calculated. Muscle excitability, neural cell adhesion molecule (N‐CAM) expression, and muscle fiber cross‐sectional area (CSA) were accessed from TA muscle. Regenerated sciatic nerves were analyzed by light and confocal microscopy. Both treated (crush+ES) and untreated (crush) groups had their muscle weight and CSA decreased compared with the normal group (P < 0.05). Electrical stimulation accentuated muscle fiber atrophy more in the crush+ES than in the crush group (P < 0.05). N‐CAM expression increased in both crush and crush+ES groups compared with the normal group (P < 0.05). Regenerated nerves revealed no difference between the crush and crush+ES groups. Nevertheless, functional recovery at day 14 post‐injury was significantly lower in crush+ES group compared with the crush group. In addition, the crush+ES group had chronaxie values significantly higher on days 7 and 13 compared with the crush group, which indicates a decrease in muscle excitability in the crush+ES animals. The results of this study do not support a benefit of the tested protocol of ES during the period of motor nerve recovery following injury. Muscle Nerve, 2010     

坐骨神经非冻结性冷损伤后背根神经节细胞的凋亡

目的观察大鼠坐骨神经在非冻结性低温作用后,腰段脊髓L4-L6背根神经节(dorsal root ganglion,DRG)凋亡神经元的数量以及形态学改变,探讨周围神经非冻结性冷损伤致DRG神经元凋亡的情况。方法雄性Wistar大鼠33只,随机分为1周组、2周组、3周组,每组11只。每只大鼠取任意一侧坐骨神经为实验侧,给予冷损伤(4℃,2h),对照侧坐骨神经同样方法暴露,不给予低温处理。根据坐骨神经和DRG的病理变化,分别取两侧的L4、L5、L6背根神经节于低温结束后1周、2周、3周采用流式细胞仪(Annexin/PI法)和Tunel法对DRG神经元凋亡进行定量和定性检测。结果流式细胞仪(Annexin/PI法)定量测定结果显示,实验侧凋亡率明显高于对照侧。Tunel法检测发现受冷侧的DRG出现典型的Tunel染色阳性的早期凋亡细胞,半定量测定显示实验侧DRG神经元凋亡率明显高于对照侧。两种方法均显示受冷后1周开始凋亡细胞增多,2周时到达高峰,3周时略下降。结论非冻结性低温可以造成坐骨神经对应的L4、L5、L6DRG神经元出现凋亡,凋亡的高峰出现在冷损伤后2周,以早期凋亡为主。凋亡可能是坐骨神经冷损伤的机制之一。     

Effect of electromyostimulation on apoptosis‐related factors in denervation and reinnervation of rat skeletal muscles

Electromyostimulation (EMS) has been utilized to reduce muscle atrophy, but its effect on denervated muscles is controversial. This study was performed to determine the effect of EMS on intramuscular changes and apoptosis during denervation and reinnervation following nerve damage. Rat sciatic nerves were denervated completely (CD) or partially (PD), and EMS was applied for 2 weeks. The same numbers of cases were followed without EMS. Nerve conduction studies, muscle weights, terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay to measure apoptotic changes, and Western blot were done 4, 8, and 12 weeks after injury. TUNEL‐positive nuclei of CD muscles (18.6 ± 5.5%) were more prevalent than those of PD muscles (7.5 ± 3.3%). The EMS group showed greater muscle weight, fewer positive nuclei (4.7 ± 1.9%), and lower BAX and Bcl‐2 expression levels compared with the non‐EMS group at 4 weeks after PD but not after CD. Denervated muscle atrophy delayed by EMS may be linked with enhanced anti‐apoptosis under the control of apoptosis‐related factors. Muscle Nerve, 2010     

成肌调节因子Myf-5在失神经骨骼肌萎缩不同时段的表达

背景：成肌调节因子Myf-5是参与肌肉发生过程分子调控、启动和维持骨骼肌细胞生长发育的重要基因,可能与失神经骨骼肌萎缩的发生有关。 目的：观察不同部位、不同时段骨骼肌失神经支配后成肌调节因子Myf-5基因的表达情况。 设计、时间及地点：随机对照动物实验,于2008-03/04在山西医科大学完成。 材料：选择健康8周龄雄性SD大鼠24只,随机分成4组,即假手术组(有神经支配)、去神经2 d组、去神经7 d组、去神经28 d组,每组6只。 方法：假手术组不切断坐骨神经,仅做假手术。去神经组右下肢后部中段切断坐骨神经1 cm以上,分别于去神经第2,7,28天用脊椎脱臼法处死大鼠,分离出右小腿的胫骨前肌、比目鱼肌、腓肠肌、跖肌标本。 主要观察指标：用反转录-聚合酶链反应技术检测各组肌肉Myf5 mRNA表达情况,抗Myf-5 多克隆抗体免疫组织化学染色(ABC 法),测量灰度值。 结果：去神经骨骼肌早期,Myf-5的mRNA在去神经支配后第2,7,28天均表达上调(P < 0.05)。Myf-5 抗体阳性染色细胞核数在SD大鼠骨骼肌失神经28 d时的肌卫星细胞中最多。 结论：Myf-5在大鼠失神经骨骼肌萎缩早期不同肌肉表达均为上调。大鼠骨骼肌失神经支配后早期肌卫星细胞中Myf-5表达上调。     

Functional recovery following peripheral nerve injury in the transgenic Thy1‐GFP rat

Transgenic mice have been previously used to assess nerve regeneration following peripheral nerve injury. However, mouse models are limited by their small caliber nerves, short nerve lengths, and their inability to fully participate during behavioral assessments. The transgenic Thy1 GFP rat is a novel transgenic rat model designed to assess regeneration following peripheral nerve injury. However, return of functional and behavioral recovery following nerve injury has not yet been evaluated in these rats. In this study, we ask whether differences in anatomy, recovery of locomotion, myological, and histomorphological measures exist between transgenic Thy1 GFP rats when compared to wild type (WT) Sprague Dawley rats following unilateral sciatic nerve injury. We found that both motor and sensory neuronal architecture, overground and skilled locomotion, muscle force, motor unit number estimation (MUNE) and wet muscle weights, and histomorphometric assessments are similar between both genetic phenotypes. Overall, these data support the use of the transgenic Thy1‐GFP rat in experiments assessing functional and behavioral recovery following nerve injury and repair.     

A decline in glial cell-line-derived neurotrophic factor expression is associated with impaired regeneration after long-term Schwann cell denervation.

In the peripheral nervous system, regeneration of motor and sensory axons into chronically denervated distal nerve segments is impaired compared to regeneration into acutely denervated nerves. In order to find possible causes for this phenomenon we examined the changes in the expression pattern of the glial cell-line-derived neurotrophic factor (GDNF) family of growth factors and their receptors in chronically denervated rat sciatic nerves as a function of time with or without regeneration. Among the GDNF family of growth factors, only GDNF mRNA expression was rapidly upregulated in Schwann cells as early as 48 h after denervation. This upregulation peaked at 1 week and then declined to minimal levels by 6 months of denervation. The changes in the protein expression paralleled the changes in the expression of the GDNF mRNA. The mRNAs for receptors GFRalpha-1 and GFRalpha-2 were upregulated only after maximal GDNF upregulation and remained elevated as late as 6 months. There were no significant changes in the expression of GFRalpha-3 or the tyrosine kinase coreceptor, RET. When we examined the expression of GDNF in a delayed regeneration paradigm, there was no upregulation in the distal chronically denervated tibial nerve even when the freshly axotomized peroneal branch of the sciatic nerve was sutured to the distal tibial nerve. This study suggests that one of the reasons for impaired regeneration into chronically denervated peripheral nerves may be the inability of Schwann cells to maintain important trophic support for both motor and sensory neurons.     

周围神经损伤后脊神经节感觉神经元胞体形态学的变化

目的 研究周围神经损伤后脊神经节感觉神经元胞体形态学的变化以探讨其主要死广性质。方法 切断并原位吻合大鼠右侧坐骨神经，左侧不作任何处理，作为对照；于术后不同时间取L4-L6脊神经节作光镜和电镜观察，观察脊神经节感觉神经元胞体形态的变化。结果 光镜下，损伤的脊神经节感觉神经元胞体染色质浓染；电镜下，细胞膜内陷，分割细胞内容物成凋亡小体；而对侧脊神经节感觉神经元胞体均一、无变化。结论 大鼠坐骨神经损伤后，脊神经节感觉神经元有死亡，其胞体的形态学变化符合细胞凋亡特征。