鼠脑梗死后自体神经干细胞的原位增殖、分化及其可塑性

目的研究成年大鼠脑梗死后自体神经干细胞的原位增殖、分化及其可塑性。方法雄性Wistar大鼠共90只,分对照组(n=10)、脑梗死后1d组(n=16)、脑梗死后3d组(n=16)、脑梗死后7d组(n=16)、脑梗死后14d组(n=16)、脑梗死后28d组(n=16)。用免疫组织化学方法动态检测BrdU、GFAP、NeuN、PSA-NCAM的表达。BrdU确定神经干细胞的增殖,GFAP、NeuN确定神经干细胞的分化,PSA-NCAM确定神经干细胞的可塑性。结果与对照组相比,大鼠海马BrdU 细胞数在脑梗死后1d组开始增加,7d组达到高峰,28d组接近正常水平;BrdU /GFAP 细胞数在脑梗死前后无明显变化;BrdU /NeuN 细胞数在脑梗死后14d组开始增加,28d组最多;BrdU /PSA-NCAM 细胞数在脑梗死后7d组开始增加,14d组达到高峰,28d组开始下降,但仍高于对照组,大约占同期BrdU阳性细胞数60%。结论大鼠脑梗死激活自体神经干细胞原位增殖,大多数增殖的神经干细胞分化成神经元并且具有可塑性。     

胰岛素样生长因子1在脑梗死大鼠神经干细胞增殖、迁移和分化中的作用*

背景：胰岛素样生长因子1是一种多肽类激素,已证明其对前体细胞增殖有促进作用。 目的：探讨静脉注射胰岛素样生长因子1对大鼠脑缺血后神经干细胞增殖、迁移和分化的影响。 方法：成年雄性SD大鼠80只,随机分为对照组和实验组,40只/组。两组大鼠均采用改良线栓法制备局灶性脑缺血模型,实验组大鼠通过尾静脉注射胰岛素样生长因子1,按100 μg/kg计算,连续注射6 d;对照组给予等剂量的生理盐水。分别于干预后7,14,21,28 d断头去脑,各组分别在处死前1 d腹腔注射BrdU。采用免疫组织化学及其双重染色法检测BrdU阳性细胞、PSA-NCAM阳性细胞、BrdU+PSA-NCAM双阳性细胞、BrdU+MAP2双阳性细胞的表达。 结果与结论：BrdU阳性细胞、PSA-NCAM阳性细胞数均在缺血后7 d最多;BrdU+PSA-NCAM双标阳性细胞在缺血后双侧室管膜下区和海马齿状回区均可以检测到,于7 d计数最多,之后逐渐减少;BrdU+MAP2双阳性细胞却从14 d开始逐渐增多,随BrdU+PSA-NCAM双阳性表达的逐渐降低,BrdU+MAP2双阳性表达逐渐增高,呈现此消彼涨的变化。提示静脉途经给予胰岛素样生长因子1能诱导大鼠缺血性脑损伤后神经干细胞的增殖、分化和迁移。     

匹罗卡品诱发成年大鼠普遍癫痫与难治性癫痫海马神经发生的变化

背景：神经发生包括细胞增殖、迁移、分化和存活等,是人和多数哺乳动物部分脑区产生新生神经元的过程,主要分布在侧脑室下区和海马齿状回。癫痫可导致海马齿状回的神经发生改变,BrdU是目前公认最理想检测未成熟细胞增殖的标记物之一。 目的：观察匹罗卡品诱发成年大鼠癫痫后神经发生的特点,以及普通癫痫与难治性癫痫神经发生的差异。 设计、时间及地点：随机分组,细胞分子生物学实验,于2006-08/2007-06在华中科技大学同济医学院中心实验室及附属协和医院中心实验室完成。 材料：选用健康Sprague-Dawley雄性大鼠100只,随机分为2组,对照组8只,实验组92只,分为普通癫痫组,自发发作组,难治性癫痫组和非耐药组。匹罗卡品为武汉晶美公司产品,兔抗鼠BrdU抗体为美国sigma公司产品,辣根过氧化物酶标记的羊抗兔IgG为武汉博士德公司产品。 方法：对照组大鼠腹腔注射生理盐水;实验组腹腔注射匹罗卡品15mg/kg,最多注射4次,出现癫痫持续状态的大鼠注射水合氯醛终止发作。致癫大鼠癫痫发作终止后6h腹腔注射BrdU,观察自发发作情况。以脑电图、自发发作频率持续时间,无自发发作为普通癫痫组,有自发发作为自发发作组。行卡马西平灌胃2周并记录发作频率,对卡马西平治疗无效,发作频率减少<50%的为难治性癫痫组,治疗有效即发作频率减少>50%为非耐药组。普通癫痫组分别于注射后第1,2,3,7,14,21和28d取鼠脑海马部做冠状连续切片。非耐药组和难治性癫痫组的大鼠,再次行腹腔注射BrdU,每次为50mg/kg,连续注射4次,每次间隔2h,48h后取脑海马部制作石蜡切片。 主要观察指标：脑海马部切片行免疫组化染色,镜下观察不同时间点BrdU阳性细胞的分布、形态和数量及注射匹罗卡品后大鼠癫痫发作状况。 结果：匹罗卡品第1次注射后所有大鼠无癫痫发作,第2次注射发作16只,第3次注射发作42只,第4次注射后发作11只,14只大鼠4次注射仍无癫痫发作,9只大鼠癫痫持续状态后死亡,77只进入结果分析。神经发生主要位于海马颗粒细胞层和齿状回。与对照组比较,普通癫痫组BrdU阳性细胞明显增多（P<0.01）,难治性癫痫组新生细胞较普通癫痫组明显减少（P<0.01）,神经发生减少。癫痫后第2天BrdU 阳性细胞数目开始增加,14-15d达到高峰,1个月后回到初始水平。 结论：与普通癫痫相比,难治性癫痫可导致神经发生减少。     

锂-匹罗卡品致癫大鼠早期大脑皮质MyT1 mRNA表达变化

目的 探讨氟化锂-匹罗卡品致癫大鼠脑髓鞘转录因子1基因表达变化及其意义。方法 以氯化锂、匹罗卡品对雄性成年SD大鼠先后腹腔注射，制成癫痫持续状态动物模型；采用5′末端标记地高辛的寡核苷酸探针荧光原位核酸分子杂交检测癫性发作后早期大鼠大脑皮质MyT1 mRNA阳性细胞数量。结果 与对照组相比，癫痫后1d组大鼠脑皮质MyT1 mRNA阳性细胞数减少（P＜0.05）；其他各组大鼠脑皮质MyT1 mRNA阳性细胞数都有明显的增加，其中癫痫后7d和14d组MyT1mRNA阳性细胞数都有非常显著的增加（P＜0.05，P＜0.01）。结论 氯化锂-匹罗卡品致癫大鼠早期大脑MyT1 mRNA表达增加，并有时程性变化，提示与早期脑损伤修复有关。     

TLR9、MyD88在颞叶癫痫大鼠海马组织中表达的动态变化

目的观察氯化锂-匹罗卡品致痫大鼠各期海马中Toll-样受体9(TLR9)、髓样分化因子(MyD88)表达的变化,探讨其是否与颞叶癫痫发生有关。方法 SD雄性大鼠120只,随机分为对照组(30只)和模型组(90只),腹腔注射氯化锂。18 h~20 h后模型组腹腔注射匹罗卡品诱导癫痫持续状态(SE);对照组予等量生理盐水取代匹罗卡品腹腔注射。对照组和造模成功的模型组依据腹腔注射后时间随机分为10个亚组:急性模型组(SE后3 h、6 h、9 h、12 h、1 d、3 d、7 d);潜伏模型组(SE后14 d、28 d);慢自发发作组(SE后56 d)。每亚组动物模型组9只,对照组3只。免疫组化、蛋白印迹、RT-PCR技术测定各亚组癫痫大鼠海马内TLR9、MyD88的表达。结果TLR9、MyD88在模型组海马内表达明显增多,与对照组相比,差异有显著性(P0.05)。模型亚组内,TLR9、MyD88在急性期和慢性期表达明显增高,而潜伏期无明显表达变化。其中急性期内的增高多集中在癫痫发作后6 h;3组比较差异有显著性(P0.05)。结论大鼠海马内TLR9、MyD88表达增多可能与颞叶癫痫发病有关,探讨其机制可能为颞叶癫痫的治疗提供新的靶点。     

新生期大鼠反复痫性发作的形态学及行为学结果与糖皮质激素水平升高有关(英文)

目的探讨新生期大鼠反复痫性发作后的形态学,行为学以及糖皮质激素水平的变化。方法64只出生后一天的Wistar大鼠随机分为惊厥组40只和对照组24只。惊厥组的新生鼠在出生后1天(P1)、4天(P4)、7天(P7)给予腹腔注射匹罗卡品,制备新生鼠癫痫模型;对照组的新生鼠腹腔注射生理盐水。惊厥组分别在第 3次致痫后在即刻(Ⅰ组)、第4 天(Ⅱ组)、第14 天(Ⅲ组)、第42天(Ⅳ组)四个时间点处死,各时间点设相应对照组,处死前36 h惊厥组和对照组的大鼠腹腔注射BrdU。所有大鼠处死前均取血检测糖皮质激素。第Ⅳ组从P40开始进行Morris水迷宫试验。结果新生鼠3次发作后即刻和第4天与相应日龄对照组相比,齿状回BrdU阳性细胞数明显减少(P<0.05),而癫痫发作后14天和42天BrdU阳性细胞数增加,但发作后14天差异无统计学意义(P>0.05)。在4天的Morris水迷宫试验中,匹罗卡品处理组大鼠到达平台的时间均长于对照组,但是只有第1天和第2天有统计学意义(P<0.05)。检测结果表明高水平的糖皮质激素一直持续到发作后第4天,糖皮质激素水平与BrdU阳性细胞数呈负相关。结论新生大鼠反复痫性发作会造成早期神经发生减少,而后期神经发生增加;造成大鼠成年后认知功能缺陷;造成糖皮质激素水平增高,这与痫性大鼠形态学和行为学方面的改变有关。     

锂-匹罗卡品致痫大鼠脑组织中驱动蛋白家族成员17的表达情况

目的 观察驱动蛋白家族成员17 (KIF17)在锂-匹罗卡品致痫大鼠海马和颞叶皮质表达的变化,探讨其在癫痫发生、发展中的作用.方法 采用氯化锂-匹罗卡品诱导癫痫大鼠模型,将49只雄性正常Wistar大鼠采用随机数字表法分成实验组(n=42)和对照组(n=7),实验组又分为6个亚组(n=7):包括癫痫后24h、72 h、7d、14 d、1个月、2个月组.运用蛋白质印迹法检测KIF17在致痫大鼠海马和颞叶皮质的表达变化,免疫荧光双标染色法确定KIF17的表达部位.结果 大鼠海马KIF17蛋白表达在癫痫持续状态(SE)后开始增高[积分吸光度(L4)比值:24 h 0.516±0.196、72 h0.742±0.313],在癫痫后7d时达到高峰(0.888±0.319),之后逐渐降低(14 d 0.770±0.271、1个月0.742±0.261、2个月0.714±0.271),但均显著高于对照组(0.495±0.203),差异均有统计学意义(t=7.051、4.974、7.419、8.795、8.264、6.676,均P＜0.05).大鼠颞叶皮质KIF17蛋白的表达在SE后24h时开始持续增高,并在30 d时达到高峰,且IA比值均明显高于对照组.免疫荧光双标染色法显示KIF17蛋白主要存在于神经元,包括兴奋性神经元和抑制性神经元,而在星形胶质细胞中不表达.结论 KIF17在锂-匹罗卡品致癫痫模型的发生发展过程中可能起着重要的作用.     

不同程度的性发作对成年大鼠空间学习记忆影响的研究

目的研究不同程度的性发作对成年大鼠空间学习记忆的影响。方法采用氯化锂和匹罗卡品联合诱导大鼠不同程度的癫模型(轻型和重型)。于造模后第6d给所有大鼠腹腔注射5-溴脱氧尿苷嘧啶(BrdU+)标记海马齿状回增殖的内源性神经前体细胞;用免疫组化方法观察各组大鼠注射BrdU+后第1d和第28d齿状回BrdU+阳性细胞数以及第28d的BrdU+/神经元核性蛋白(NeuN+)阳性细胞数及分布情况;利用Morris水迷宫评价大鼠的学习记忆功能。结果与正常组及轻型组比较,在各个时间点重型组海马齿状回BrdU+细胞数均增加(P<0.05),28d时BrdU+/NeuN+细胞数相应增多,但其占BrdU+细胞数的比例明显下降(P<0.05)。28d时重型组大鼠的学习记忆功能较正常组及轻型组明显下降(P<0.05)。结论严重的癫发作造成大鼠对空间学习记忆功能的损害,可能与其刺激大鼠海马齿状回内源性神经前体细胞增殖水平,抑制其分化为新生的成熟神经元有关。     

卡马西平对匹罗卡品诱导成年癫间疒大鼠海马齿状回神经前体细胞增殖的影响

目的研究卡马西平对成年癫大鼠海马齿状回内源性神经前体细胞增殖的影响。方法采用氯化锂和匹罗卡品联合诱导大鼠癫模型,将癫大鼠随机分为癫对照组和癫卡马西平组,正常大鼠随机分为正常对照组和正常卡马西平组。癫对照组和正常对照组给以蒸馏水灌胃,同时癫卡马西平组和正常卡马西平组给予卡马西平灌胃。于灌胃后第6d腹腔注射5-溴脱氧尿苷嘧啶(BrdU)标记海马齿状回的内源性神经前体细胞的增殖情况;用免疫组化方法观察各组大鼠在注射BrdU后第1d、第7d齿状回BrdU阳性细胞数量的表达。结果①注射BrdU后第1d,癫对照组大鼠海马齿状回BrdU阳性细胞数较正常对照组明显增加(P<0.01),癫卡马西平组大鼠海马齿状回BrdU阳性细胞数较癫对照组减少(P<0.05);②注射BrdU后第7d,癫对照组大鼠海马齿状回BrdU阳性细胞数较正常对照组明显增加(P<0.01),癫卡马西平组大鼠海马齿状回BrdU阳性细胞数较癫对照组明显减少(P<0.05)。结论卡马西平抑制癫大鼠海马齿状回内源性神经前体细胞增殖。     

匹罗卡品癫痫大鼠海马TrkB受体表达与苔藓纤维突触重建的关系

目的 探讨匹罗卡品诱导慢性癫痫大鼠海马齿状颗粒细胞苔藓纤维突触重建与神经营养素受体TrkB表达的关系。方法 取匹罗卡品诱导大鼠急性癫痫持续状态及慢性自发性颞叶癫痫发作期大鼠脑片，用免疫组织化学方法检测TrkB及突触体素(P38，一种突触形成标志物)在大鼠海马的表达。结果 急性癫痫持续状态诱导颗粒细胞表达TrkB一过性增高，第2次表达高峰呈现在7～30d；P38免疫反应性在齿状回内分子层则呈进行性增加，与neo-Timm显示的异常苔藓纤维出芽相一致。结论 TrkB受体激活有助于海马齿状回苔藓纤维轴突生长及突触形成从而有利于颞叶癫痫的发生。     

Changes of localization of highly polysialylated neural cell adhesion molecule (PSA-NCAM) in rat hippocampus with exposure to repeated kindled seizures

Highly polysialylated neural cell adhesion molecules (PSA-NCAMs) are involved in migration of neural stem cells as well as neural plasticity. Immunoreactive PSA-NCAM expression was examined in rat with repeated exposure to amygdaloid kindled generalized seizures (GS). The number of PSA-NCAM positive cells in bilateral dentate gyrus (DG) increased significantly at GS. Although total positive cell number was not significantly different between 3 times GS (3 GS) and 30 times GS (30 GS) groups, a greater number of positive cells was located in the outer granule cell layer (GCL), and the immunopositive dendrite greatly extended to the molecular layer in the 30 GS group. These observations indicate that increased migration of newly generated cells as well as plastic change of originally-existed neural cells may occur in response to the recurrent GS, which may contribute to abnormal reconstruction of synaptic network in hippocampus and epileptogenisity in kindling.     

Induction of highly polysialylated neural cell adhesion molecule (PSA-NCAM) in postischemic gerbil hippocampus mainly dissociated with neural stem cell proliferation

We investigated a possible expression of highly polysialylated neural cell adhesion molecule (PSA-NCAM) in gerbil hippocampus after 5 min of transient global ischemia in association to the proliferation of neural stem cell labeled with bromodeoxyuridine (BrdU). The number of PSA-NCAM positive cells increased in the granule cell layer (GCL) of dentate gyrus (DG) by 1.9 to 2.7-fold at 10 and 20 days after the reperfusion. The number of BrdU-labeled cells increased mainly in the subgranular zone of DG by 7.2 to 8.0-fold at 5 and 10 days after the reperfusion. Immunofluorescence for PSA-NCAM and BrdU showed that the majority of DG cells were not double labeled, while one or two cells per section were double labeled in the deepest portion of the GCL only at 10 days after the reperfusion. These results suggest different predominant spatial distribution and chronological change of PSA-NCAM positive and BrdU-labeled cells in DG after transient ischemia.     

成年大鼠脑创伤后神经前体细胞的增殖及迁移

目的 研究液压冲击性脑损伤后成年大鼠神经前体细胞的增殖及迁移。方法 制作液压冲击性脑损伤模型，免疫组织化学方法动态检测巢蛋白（Nestin）和5溴脱氧尿苷（BrdU）的表达。BrdU标记方法确定增列殖的前体细胞；Nestin的表达用于确定神经前体细胞。结果 同正常对照组相比较，伤侧皮层、海马及室下区的Nestin阳性细胞数于伤后1d明显增多，7d达高峰,30d消失；BrdU阳性细胞数于作后3d达高峰，而7d以后逐渐减小，室下区BrdU阳性细胞及Nestin阳性细胞经胼胝体向对侧迁移。结论 液压冲击性脑损伤可激发成年大鼠神经前体细胞增殖及迁移。     

Temporal profile of stem cell division, migration, and differentiation from subventricular zone to olfactory bulb after transient forebrain ischemia in gerbils.

The stage of neurogenesis can be divided into three steps: proliferation, migration, and differentiation. To elucidate their detailed relations after ischemia, the three steps were comprehensively evaluated, in the subventricular zone (SVZ) through the rostral migratory stream (RMS) to the olfactory bulb (OB), in adult gerbil brain after 5 minutes of transient forebrain ischemia. Bromodeoxyuridine (BrdU), highly polysialylated neural cell adhesion molecule (PSA-NCAM), neuronal nuclear antigen (NeuN), and glial fibrillary acidic protein (GFAP) were used as markers for proliferation, migration, and differentiation, respectively. The number of BrdU-labeled cells that coexpressed PSA-NCAM and the size of PSA-NCAM-positive cell colony increased in the SVZ with a peak at 10 d after transient ischemia. In the RMS, the number of BrdU-labeled cells that coexpressed PSA-NCAM increased, with a delayed peak at 30 d, when the size of RMS itself became larger and the number of surrounding GFAP-positive cells increased. In the OB, BrdU + NeuN double positive cells were detected at 30 and 60 d. NeuN staining and terminal deoxynucleotidyl dUTP nick-end labeling staining showed no neuronal cell loss around the SVZ, and in the RMS and the OB after transient ischemia. These findings indicate that transient forebrain ischemia enhances neural stem cell proliferation in the SVZ without evident neuronal cell loss, and has potential neuronal precursor migration with activation of GFAP-positive cells through the RMS to the OB.     

大鼠脑缺血再灌注诱导自体神经干细胞原位增殖的研究

目的研究缺血性脑损伤对内源性神经干细胞增殖、迁移的影响。方法参照Pulsinelli-Brierley法制作短暂性全脑缺血动物模型,全脑缺血10min后再灌注,采用SABC免疫组化染色显示5'-溴脱氧尿嘧啶(BrdU)阳性细胞和神经巢蛋白(Nestin)阳性细胞,光镜下观察并统计分析脑缺血损伤后内源性神经干细胞增殖、迁移的变化过程。结果脑缺血再灌流24h后,海马、齿状回和室管膜下区的BrdU阳性细胞和Nestin阳性细胞增多,7～10d达到高峰,术后20d仍有表达;在室管膜下区,BrdU阳性细胞和Nestin阳性细胞有向皮质、海马迁移的现象。结论①成年大鼠全脑缺血后7～10d,内源性神经干细胞的增殖达到高峰。②增殖的内源性神经干细胞存在由增殖区向靶区迁移的现象。     

Temporal and spacial changes of highly polysialylated neural cell adhesion molecule immunoreactivity in amygdala kindling development

To investigate the migration of neural stem cells as well as neural plastic changes in epileptic brain, spaciotemporal expression of immunoreactive highly polysialylated neural cell adhesion molecule (PSA-NCAM) was examined in amygdala kindling development of rat. The neural migration and synaptic remodeling detected with PSA-NCAM staining occurred in dentate gyrus of hippocampus, subventricular zone and pyriform cortex with amygdaloid kindling in generalized seizure but not in partial seizure. Although PSA-NCAM positive dendrite in dentate gyrus was minimally found in the control brain, it extended slightly in animals with partial seizure, and greatly toward the molecular layer with generalized seizure. Thus, the migration of neural stem cells as well as neural plastic changes were specially and temporally different between brain regions depending on different kindling stages. These changes may mainly contribute to the reorganization of neural network in epileptic brain.     

Calretinin/PSA-NCAM immunoreactive granule cells after hippocampal damage produced by kainic acid and DEDTC treatment in mouse

There is a dramatic increase in the number of lightly immunoreactive calretinin cells in the granular layer of the dentate gyrus of the mouse hippocampus 1 day after excitotoxic injury using kainic acid combined with the zinc chelator diethyldithiocarbamate. At 7 days after treatment, these cells are strongly immunoreactive for calretinin and for the polysialated form of the glycoprotein neural cell adhesion molecule (PSA-NCAM). The reexpression of calretinin and PSA-NCAM after treatment corresponds well with the loss of input from the damaged hilar mossy cells. These cells could be considered immature granule cells since they are immunoreactive to markers for immature cells such as PSA-NCAM, and are not immunoreactive to calbindin D28k and neuronal nuclear specific protein NeuN (present in mature granule cells), or GABA (present in interneurons). Ultrastructural analysis of these cells indicates that they are immature. Labelling of cell proliferation with 5-bromo-2'-deoxyuridine (BrdU) shows that by day 1 no calretinin immunoreactive cell of the dentate gyrus corresponds to newly generated cells. By day 7 only 6% of the calretinin immunoreactive cells in the dentate gyrus are marked for BrdU. Our data indicate that the CR/PSA-NCAM immunoreactive cells of the dentate gyrus, in spite of their immature characteristics, are not the products of reactive neurogenesis. These cells could represent a reservoir of pre-existing not completely differentiated granule cells that react to damage.     

Intrathecal injection of epidermal growth factor and fibroblast growth factor 2 promotes proliferation of neural precursor cells in the spinal cords of mice with mutant human SOD1 gene

We investigated three steps of neural precursor cell activation--proliferation, migration, and differentiation--in amyotrophic lateral sclerosis spinal cord treated with intrathecal infusion of epidermal growth factor (EGF) and fibroblast growth factor 2 (FGF2) into the lumbar spinal cord region of normal and symptomatic transgenic (Tg) mice with a mutant human Cu/Zn superoxide dismutase (SOD1) gene. We observed that 5-bromodeoxyuridine (BrdU) + nestin double-labeled neural precursor cells increased in the spinal cords of Tg mice compared with non-Tg mice, with a much greater increase produced by EGF and FGF2 treatment. The number of BrdU + nestin double-labeled cells was larger than that of BrdU + ionized calcium-binding adapter molecule-1 (Iba1), BrdU + glial fibrillary acidic protein (GFAP), or BrdU + highly polysialylated neural cell adhesion molecule (PSA-NCAM) double-labeled cells, but none expressed neuronal nuclear antigen (NeuN). On further analysis of the gray matter of Tg mice, the number of BrdU + nestin and BrdU + PSA-NCAM double-labeled cells increased more in the ventral horns than the dorsal horns, which was again greatly enhanced by EGF and FGF2 treatment. Because neural precursor cells reside close to the ependyma of central canal, the present study suggests that proliferation and migration of neural precursor cells to the ventral horns is greatly activated in symptomatic Tg mice and is further enhanced by EGF and FGF2 treatment and, furthermore, that the neural precursor cells preferentially differentiate into neuronal precursor cells instead of astrocytes in Tg mice with EGF and FGF2 treatment.     

头针诱导神经干细胞的增殖分化

目的研究脑缺血再灌注大鼠神经干细胞（neural stem cells,NSCs）增殖、分化情况及头针对其影响。方法将Wistar大鼠70只,随机分为假手术组10只、模型组和头针组各30只;模型组和头针组采用线栓法制作大脑中动脉闭阻（middle cerebralartery occlusion,MCAO）模型,各组大鼠又按照缺血时间（7、14、28d）分为3个亚组,每个时相点10只。头针组大鼠于缺血再灌注成功后即行头针治疗,每日1次,直至处死前;各组大鼠处死前1d腹腔注5-溴脱氧尿核苷（bromodeoxyuridine,BrdU）液;对各亚组大鼠行神经功能缺损评分（neurological severity score,NSS）,免疫荧光法计数各组大鼠海马（dentate gyrus,DG）BrdU阳性细胞和BrdU/NeuN阳性双标细胞。结果第28d头针组的NSS显著低于模型组（P〈0.05）。大鼠缺血再灌注后各组阳性细胞有明显表达,而头针组在不同时相的阳性细胞数较同时相模型组有明显增加。结论头针能促进神经干细胞的增殖和分化,改善神经功能缺损评分,从而促进神经功能的修复。