骨髓间充质干细胞移植修复大鼠半横断脊髓损伤

目的初步探讨骨髓间充质干细胞诱导为神经细胞,及其移植对大鼠脊髓半横断损伤神经功能恢复和运动的影响。方法贴壁培养法分离培养大鼠骨髓间充质干细胞(mesenchymal stem cells,MSCs),大鼠脊髓匀浆上清诱导第3代向神经细胞分化,经免疫组化鉴定分化后细胞的性质。制备大鼠半横断脊髓损伤模型,脊髓损伤局部注射BrdU标记诱导后的神经细胞。细胞移植5周后观察移植细胞在脊髓内存活分布情况。结果倒置显微镜下可见MSCs呈纺锤形和多角形,有1~2个核仁,经脊髓匀浆上清诱导后,发出数个细长突起,并交织成网,诱导后的细胞表达Nestin,可推测诱导后的细胞为MSCs源神经细胞。5周后移植的MSCs在宿主损伤脊髓内聚集并存活,表达MAP-2、NF、GFAP与对照组比较有统计学意义(P0.05)。大鼠运动功能较移植前有所改善。结论MSCs经脊髓匀浆上清诱导后移植治疗大鼠半横断脊髓损伤可使运动功能得到改善。     

骨髓间充质干细胞源神经细胞移植治疗帕金森病大鼠模型

目的探讨骨髓间充质干细胞（mesenchymal stemcells,MSCs）源神经细胞脑内移植对帕金森病（Parkinson s disease,PD）大鼠的治疗作用。方法贴壁培养法分离、培养大鼠骨髓MSCs,脑匀浆上清诱导第3代MSCs向神经细胞分化,采用免疫细胞化学法鉴定诱导分化后细胞的性质,激光共聚焦显微镜检测诱导前后细胞Ca2＋浓度变化,6只PD大鼠行纹状体内MSCs源神经细胞移植作为细胞移植组,6只PD大鼠作为对照组。细胞移植术后4周检测PD大鼠的行为变化,观察移植细胞在脑内的分布情况。结果倒置显微镜下可见MSCs呈纺锤形和多角形,有1～2个核仁,MSCs经脑匀浆上清诱导后其胞体折光性增强,发出数个细长突起,互相交织成网,有的似轴突。诱导后细胞表达神经元特异性标志物神经元特异性烯醇化酶（NSE）和神经丝蛋白（NF）,胞质Ca2＋荧光强度显著增强,可推测诱导后的细胞为MSCs源神经细胞,将BrdU标记的MSCs源神经细胞移植到PD大鼠纹状体治疗4周后,可见细胞散在分布于注射侧脑组织,有少量细胞可迁移到对侧脑组织,PD大鼠的旋转行为得到显著改善。结论MSCs源神经细胞移植治疗帕金森病大鼠可使其旋转行为得到改善。     

神经妥乐平体外诱导大鼠骨髓基质细胞分化为神经元样细胞

目的探索神经妥乐平(NT)体外诱导大鼠骨髓基质细胞(bone marrow stromal cells,rMSCs)分化为神经元样细胞的可行性,以期为临床应用MSCs治疗神经系统疾病奠定基础。方法取一月龄SD大鼠骨髓,分离出MSCs进行培养、扩增、纯化。用NT诱导MSCs分化为神经元样细胞。用神经元特异性烯醇化酶(NSE)、神经胶质纤维酸性蛋白(GFAP)免疫细胞化学染色鉴定阳性细胞。结果MSCs经诱导后胞体变圆,伸出细长突起,呈神经元样形态。免疫组化鉴定显示(31.50±7.32)%的细胞表达NSE阳性,(45.30±9.38)%的细胞表达GFAP阳性。结论MSCs在体外可被NT诱导分化为神经元样细胞。     

骨髓间充质干细胞移植治疗大鼠脊髓损伤的神经分化研究

目的探讨骨髓间充质干细胞(BMSC)对移植脊髓损伤(SCI)模型神经再生修复的作用及其机制。方法 (1)分离原代SD大鼠BMSC;(2)体外诱导BMSC向神经分化,应用免疫荧光技术检测神经诱导分化后的BMSC神经标志Nestin、Neu N的表达;(3)运用改良的Allen撞击装置制备SD大鼠SCI模型,成年雌性SD大鼠12只,随机分组:损伤对照(n=6),BMSC细胞移植组(n=6),并选择在SCI后半小时内在蛛网膜下腔原位移植1×106 BMSC细胞注射治疗,对照组原位注射10μl PBS作为对照。每周对SCI大鼠进行BBB运动功能行为学评价。(4)在治疗后1个月处死SCI大鼠取脊髓样本进行冰冻切片检测Nestin、NeuN神经标记物表达情况,从而评判BMSC对SCI的治疗效果。计量资料结果服从正态分布、方差齐性时,采用t检验;若不服正态分布,采用KruskalWallis H秩和检验。结果 (1)分离的BMSC纯度高、生物学特征稳定。(2)BMSC在体外神经诱导环境下可分化为神经细胞,对比正常对照组,神经诱导组Nestin与Neu N的表达具有统计学差异(t=11.49、6.76,P0.05)。(3)BMSC移植治疗SCI大鼠运动行为学功能显著改善,移植组比对照组治疗5周后的BBB评分具有统计学意义(t=5.59,P0.05);损伤导致组织形态学出现脊髓白质灰质结构性损毁,神经细胞大量丢失,而BMSC移植组Nestin、GFAP与Neu N表达细胞均较损伤组差异有统计学意义(t=4.74、6.59、15.46,均P0.05)。结论 BMSC移植可促进SCI后神经细胞的存活与再生分化,在一定程度上促进SCI脊髓组织功能的恢复。     

移植骨髓间充质干细胞源性神经元样细胞治疗大鼠脊髓损伤

目的:研究骨髓间充质干细胞源性神经元样细胞移植治疗成鼠脊髓损伤的可行性。方法:选取成年SD大鼠32只,两只用以提取骨髓间充质干细胞,其余被分为3组,其中细胞移植组10只,PBS缓冲液组10只,空白对照组10只。骨髓间充质干细胞分离传代培养并诱导成神经元样细胞后用Hoechst33342标记,损伤1周后采取静脉注射移植的方法移植于大鼠脊髓损伤区,移植六周后用免疫荧光方法检测细胞的存活及与宿主脊髓的整合情况。脊髓损伤后的1~6周对各组动物进行BBB评分,用SPSS12.0进行数据分析。结果:细胞移植组动物的BBB评分提高显著,于其他两组差异有统计学意义。细胞移植组免疫荧光显示,移植细胞在体内大量存活并桥接于脊髓损伤区的两端,存活的多数细胞神经元特异性标记物NSE、NF-200、星形胶质细胞特异性标记物GFAP表达呈阳性。结论:移植定向诱导的神经元样细胞有助于大鼠脊髓损伤后的功能恢复。     

大鼠骨髓间充质干细胞在正常及激光损伤视网膜下移植分化的差异

观察骨髓间充质干细胞(mesenchymal stem cells, MSCs)在体外不诱导的条件下视网膜移植于正常或大鼠Nd︰YAG激光损伤视网膜后的定位以及蛋白表达情况. 体外培养大鼠MSCs, 用荧光染料DAPI标记MSCs, 视网膜下移植后分别于10, 20, 35和50天处死动物, 做DAPI荧光观察, 并在阳性的连续切片上做神经元核(neuronal nuclei, NeuN)、神经元特异性烯醇化酶(neuron specific enolase, NSE)、胶质纤维酸性蛋白(glial fibrillary acidic protein, GFAP)和角蛋白(pancytokeratin, CK)免疫组化染色及HE染色. 对损伤大鼠分别于损伤前及损伤后即刻、1~7周检测损伤移植组、损伤组和损伤注射生理盐水组的视网膜电流图(ERG)b波分析. 培养的MSCs集落生长迅速, 均一性好, DAPI染色观察表明, 10天时移植细胞多集中于移植部位周围, 正常移植组可见分层, 而损伤移植组分布散乱; 20天时两组均可见阳性细胞分布范围扩大, 分布于视网膜各层; 35天正常移植组阳性细胞范围与20天基本相同, 而损伤组则进一步扩大, 且细胞开始向损伤部位迁移; 50天正常移植组荧光范围比35天小, 未发现细胞增生, 损伤组损伤范围与35天相比扩大不明显, 但许多部位有增生. 免疫组织化学染色发现阳性区域的细胞在NeuN, NSE, GFAP和CK 的表达有不均一性. HE染色表明移植组损伤的恢复好于损伤对照组, ERG b波检测表明5周后损伤移植组的b波水平高于对照组. MSCs可在正常及激光损伤的大鼠视网膜下与原视网膜结构相融合, 检测到的阳性细胞分布于视网膜色素上皮层、视细胞层、双极细胞层及节细胞层, 正常移植组随时间延长荧光范围缩小, 损伤移植组荧光分布范围随时间延长分布较广, 但细胞的排列和蛋白表达有紊乱. MSCs的移植对激光损伤斑及ERG b波的恢复有促进作用.     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的：研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法：采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果：纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论：分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的:研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法:采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果:纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论:分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

茂丹通脉片含药血清体外诱导 S 分M化C为 内皮细胞的作用

目的：观察芪丹通脉片含药血清体外诱导大鼠骨髓间充质干细胞（MSCs）向内皮细胞分化的作用。方法：灌胃法制备芪丹通脉片含药血清和对照血清。采用密度梯度离心法分离和培养大鼠MSCs,取第三代MSCs,采用10wg／LVEGF预诱导24h后,分别加入15％芪丹通脉片含药血清与对照血清体外时MSCs诱导分化,至第7天,利用相差显微镜观察细胞形态改变,透射电镜观察细胞超微结构。免疫荧光方法检测内皮细胞特异性表面标志CD31、Ⅷ因子的表达。结果：至第7天,合15％芪丹通脉片合药血清组诱导后的MSCs形态发生明显改变,呈“卵石样”改变,透射电镜下细胞胞浆内可见Weible-Palade小体,共聚焦显微镜下可见CD31、Ⅷ因子阳性细胞。对照血清组MSCs形态仍呈长梭型,电镜下胞浆内无Weible-Palade小体,共聚焦显微镜下无CD31、Ⅷ因子阳性细胞。结论：益气活血复方芪丹通脉片含药血清具有体外诱导大鼠MSCs向内皮细胞定向分化的作用。     

叶酸联合成体神经干细胞治疗创伤性脑损伤大鼠的实验

目的观察叶酸联合成体神经干细胞对创伤性脑损伤大鼠的治疗作用,探讨其可能作用机制。方法 120只Wistar大鼠随机分为6组,正常组,模型组,假手术组,叶酸注射组,成体神经干细胞移植组,成体神经干细胞移植＋叶酸注射组。倒置显微镜下观察神经干细胞形态学变化;流式细胞仪检测神经干细胞表面标记物CD105、CD45、CD44、CD29的表达;免疫荧光法检测神经元特异性烯醇酶（NSE成熟神经元的特异性标志）、胶质纤维酸性蛋白（GFAP胶质细胞的标记物）的表达;平衡木实验检测大鼠运动协调与整和能力;Morris水迷宫实验测试各组大鼠的学习记忆能力;HE染色及Brdu免疫组化实验观察脑组织形态学变化;酶联免疫吸附试验检测大鼠脑组中脑源性神经生长因子（BDNF）、神经生长因子（NGF）的表达;蛋白质印迹法检测脑组织中凋亡相关蛋白BCL-2、Bax、Caspase-3的表达。结果分离所得细胞能在体外传代培养,流式细胞仪检测发现细胞阳性表达CD44、CD29,阴性表达CD105、CD45,细胞经胎牛血清诱导分化后能形成NSE或GFAP阳性细胞。实验表明,叶酸与成体神经干细胞干预创伤性脑损伤大鼠模型后能显著改善其行为学变化,减轻脑组织的炎症反应,恢复受损神经细胞,增加脑组织内BDNF、NGF的含量,上调BCL-2的表达,下调Bax、Caspase-3的表达。结论叶酸联合成体神经干细胞干预创伤性脑损伤大鼠能显著改善中枢神经功能,对维持神经元微环境稳态具有重要的作用。     

Umbilical cord hypercoiling in two rhesus macaques (Macaca mulatta)

Obstruction of umbilical blood flow is a common cause of death in fetal nonhuman primates, but cord accidents have not been reported in the macaque. We describe two cases of cord accident in rhesus macaques (Macaca mulatta) resulting in fetal death at approximately 110 and 50 days of gestation, respectively.     

Complete nationwide survey on umbilical cord blood freezing bag breakage in Japan

Background aimsAlthough umbilical cord blood (UCB) has now become a common stem cell source, UCB bag breakage is a known risk in UCB transplantation (UCBT). This survey provides the first comprehensive data on the frequency and causes of UCB bag breakage in Japan.MethodsData regarding UCB bag breakage from all causes, identified between April 1, 2010, and September 3, 2013, were collected from all transplant centers registered for UCBT (209 hospitals) and all public cord blood banks (CBBs) (8 CBBs) in Japan.ResultsSeventeen incidents of UCB bag breakage at CBBs were confirmed, none of which resulted in bags being shipped to transplant centers. From among 3836 UCBT, 16 incidents (0.4%) of UCB bag breakage were confirmed at transplant centers. Although all these bags were used for transplantation, no direct health hazard was reported. The major cause of UCB bag breakage confirmed at transplant centers was considered to be external force (75%). In addition, 11 incidents of unexplained UCB bag breakage at sealing between compartments were reported.ConclusionsUCB bag breakage was confirmed at both CBBs and transplant centers. UCB bags should be handled with particular care and attention.     

The umbilical cord matrix is a better source of mesenchymal stem cells (MSC) than the umbilical cord blood

Many studies have drawn attention to the emerging role of MSC (mesenchymal stem cells) as a promising population supporting new clinical concepts in cellular therapy. However, the sources from which these cells can be isolated are still under discussion. Whereas BM (bone marrow) is presented as the main source of MSC, despite the invasive procedure related to this source, the possibility of isolating sufficient numbers of these cells from UCB (umbilical cord blood) remains controversial. Here, we present the results of experiments aimed at isolating MSC from UCB, BM and UCM (umbilical cord matrix) using different methods of isolation and various culture media that summarize the main procedures and criteria reported in the literature. Whereas isolation of MSC were successful from BM (10:10) and (UCM) (8:8), only one cord blood sample (1:15) gave rise to MSC using various culture media [DMEM (Dulbecco's modified Eagle's medium) +5% platelet lysate, DMEM+10% FBS (fetal bovine serum), DMEM+10% human UCB serum, MSCGM®] and different isolation methods [plastic adherence of total MNC (mononuclear cells), CD3⁺/CD19⁺/CD14⁺/CD38⁺‐depleted MNC and CD133⁺‐ or LNGFR⁺‐enriched MNC]. MSC from UCM and BM were able to differentiate into adipocytes, osteocytes and hepatocytes. The expansion potential was highest for MSC from UCM. The two cell populations had CD90⁺/CD73⁺/CD105⁺ phenotype with the additional expression of SSEA4 and LNGFR for BM MSC. These results clearly exclude UCB from the list of MSC sources for clinical use and propose instead UCM as a rich, non‐invasive and abundant source of MSC.     

Optimal umbilical cord blood collection,processing and cryopreservation methods for sustained public cord blood banking

Background aimsUmbilical cord blood is an established source of stem cells in patients with hematologic malignancies who do not have HLA-compatible matched related or unrelated donors. The success of an umbilical cord blood transplant depends on the dose of total nucleated and CD34+ cells infused. Therefore, collecting, banking and listing high-quality cord blood units with high total nucleated and CD34+ cell dose are essential.MethodsHere the authors describe their cord blood bank's novel collection technique, which involves both in utero and ex utero collection of a single cord blood unit. The authors also evaluated maternal, neonatal and collection parameters that may impact the cell dose.ResultsMaternal gestational age and race, and neonatal weight and sex correlated with the total nucleated cell dose.ConclusionsThe optimized collection of umbilical cord blood is critical for its use as a source of stem cells for transplantation.     

Radiography used to measure internal spinal cord deformation in an in vivo rat model

Little is known about the internal mechanics of the in vivo spinal cord during injury. The objective of this study was to develop a method of tracking internal and surface deformation of in vivo rat spinal cord during compression using radiography. Since neural tissue is radio-translucent, radio-opaque markers were injected into the spinal cord.Two tantalum beads (260 µm) were injected into the cord (dorsal and ventral) at C5 of nine anesthetized rats. Four beads were glued to the lateral surface of the cord, caudal and cranial to the injection site. A compression plate was displaced 0.5 mm, 2 mm, and 3 mm into the spinal cord and lateral X-ray images were taken before, during, and after each compression for measuring bead displacements. Potential bead migration was monitored for by comparing displacements of the internal and glued surface beads.Dorsal beads moved significantly more than ventral beads with a range in averages of 0.57–0.71 mm and 0.31–0.35 mm respectively. Bead displacements during 0.5 mm compressions were significantly lower than 2 mm and 3 mm compressions. There was no statistically significant migration of the internal beads.The results indicate the merit of this technique for measuring in vivo spinal cord deformation. The pattern of bead displacements illustrates the complex internal and surface deformations of the spinal cord during transverse compression. This information is needed for validating physical and finite element spinal cord surrogates and to define relationships between loading parameters, internal cord deformation, and biological and functional outcomes.     

Differences in the Neurons That Project from the Dorsal Column Nuclei to the Diencephalon,Pretectum, and Tectum in the Cat

The dorsal column nuclei (DCN) project to a number of targets in the nervous system besides the ventroposterolateral nucleus (VPL) of the thalamus. Recent evidence obtained using double-labeling techniques indicates that DCN's diencephalic-projecting neurons differ in their location and morphology from those that project to some of its other targets, such as the cerebellum and tectum. The purpose of the present study was to characterize anatomically the DCN neurons that project another of DCN's targets, the pretectum, and to determine if any of these neurons have collateral projections to the tectum or diencephalon.

The projections were studied using two double-labeling methods. One method made use of either tritiated inactivated horseradish peroxidase ([³H]apoHRP) or tritiated N-acetyl wheatgerm agglutinin ([³H]WGA) as a marker and HRP or WGA conjugated to HRP. The other method made use of the dyes Fast Blue and Nuclear Yellow. In each cat, one marker was injected into the DCN-recipient portions of the pretectum, tectum, or diencephalon, and the other marker was injected into another of these three targets.

Neurons labeled by pretectal or tectal injections were of all sizes, fusiform and multipolar in shape, and similarly located. They were scattered through the rostral zone of DCN, but were distributed at the periphery of and at the junction between the gracile and cuneate nuclei in DCN's middle and caudal zones.

In contrast to the pretectal-and tectal-labeled neurons, neurons labeled by diencephalic injections were round and large. They were found throughout the DCN complex, but were concentrated in DCN's middle and caudal zones. When both the pretectum and diencephalon were injected in the same cat, the two groups of neurons occupied similar locations in the rostral zone, but were distinct in the middle and caudal zones, with the pretectal-projecting neurons surrounding the clusters of diencephalic-projecting neurons. Very few neurons were double-labeled.

These results demonstrate that the projections to the pretectum, tectum, and diencephalon originate from different populations of neurons within specific domains in DCN. When these results are compared with the results of electrophysiological and other anatomical studies, it appears that the pretectal- and tectal-projecting neurons may be part of a previously unrecognized system originating in DCN. In contrast with the well-known lemniscal system, recognized for its function in tactile discrimination, and composed of DCN's VPL-projecting neurons together with VPL's projections to the cerebral cortex, this other system may serve some role in the regulation of posture or the coordination of movement.     

Human umbilical cord mesenchymal stem cell transplantation restores damaged ovaries

Ovarian injury because of chemotherapy can decrease the levels of sexual hormones and potentia generandi of patients, thereby greatly reducing quality of life. The goal of this study was to investigate which transplantation method for human umbilical cord mesenchymal stem cells (HUMSCs) can recover ovarian function that has been damaged by chemotherapy. A rat model of ovarian injury was established using an intraperitoneal injection of cyclophosphamide. Membrane‐labelled HUMSCs were subsequently injected directly into ovary tissue or tail vein. The distribution of fluorescently labelled HUMSCs, estrous cycle, sexual hormone levels, and potentia generandi of treated and control rats were then examined. HUMSCs injected into the ovary only distributed to the ovary and uterus, while HUMSCs injected via tail vein were detected in the ovary, uterus, kidney, liver and lung. The estrous cycle, levels of sex hormones and potentia generandi of the treated rats were also recovered to a certain degree. Moreover, in some transplanted rats, fertility was restored and their offspring developed normally. While ovary injection could recover ovarian function faster, both methods produced similar results in the later stages of observation. Therefore, our results suggest that transplantation of HUMSCs by tail vein injection represents a minimally invasive and effective treatment method for ovarian injury.     

脐带血移植的应用进展及脐带血库建设

脐带血(umbilical cord blood)作为公认的造血干细胞重要来源之一,已经被广泛地用于治疗儿童和成人的良恶性血液系统疾病以及中枢神经系统疾病、实体瘤、缺血性下肢血管病和组织再生等。相对于骨髓移植和外周血来源的造血干细胞移植,脐带血移植(UCBT)在细胞收集使用、干细胞增殖能力以及移植物抗宿主反应等方面都具有明显的优势。目前的数据显示,因为HLA配型等原因而无法进行骨髓移植的患者应该尽早进行UCBT。此外,UCBT的增多促进了脐带血库的快速建设。本文针对UCBT和脐带血库的最新进展进行了综述。     

脐带间充质干细胞移植治疗脊髓损伤的临床研究

目的:探讨脐带间充质干细胞移植治疗脊髓损伤的疗效及安全性。方法:40例脊髓损伤患者给予脐带间充质干细胞移植治疗,移植方法采用静脉输注联合腰穿鞘内注射的方法。术后随访1年余定期观察患者临床症状及各项指标的变化并进行综合分析。移植过程中为促进干细胞的生长和分化,根据患者病情及身体状况给予相应的康复功能锻炼。结果:与入院时比较,脐带间充质干细胞移植治疗3、6、12个月后,不完全性脊髓损伤患者针刺觉评分、轻触觉评分、运动评分均有明显改善(P<0.05或0.01),完全性脊髓损伤患者针刺觉评分、轻触觉评分、运动评分均无明显变化(P>0.05),两组残损分级均无明显改善(P>0.05)。移植后各项生化指标正常,未出现严重的并发症和明显的不良反应。结论:脐带间充质干细胞移植治疗脊髓损伤近期疗效明显,可以改善患者的临床症状,提高患者的生存质量,是一种值得借鉴的治疗方法。     

Locomotion induced by epidural stimulation in a decerebrated cat after spinal cord injury

The effect of partial and complete spinal cord transection (Th7–Th8) on locomotor activity evoked in decerebrated cats by electrical epidural stimulation (segment L5, 80–100 μA, 0.5 ms at 5 Hz) has been investigated. Transection of dorsal columns did not substantially influence the locomotion. Disruption of the ventral spinal quadrant resulted in deterioration and instability of the locomotor rhythm. Injury to lateral or medial descending motor systems led to redistribution of the tone in antagonist muscles. Locomotion could be evoked by epidural stimulation within 20 h after complete transection of the spinal cord. The restoration of polysynaptic components in EMG responses correlated with recovery of the stepping function. The data obtained confirm that initiation of locomotion under epidural stimulation is caused by direct action on intraspinal systems responsible for locomotor regulation. With intact or partially injured spinal cord, this effect is under the influence of supraspinal motor systems correcting and stabilizing the evoked locomotor pattern.