Fetal stem cell transplantation: Past, present, and future

Since 1928, human fetal tissues and stem cells have been used worldwide to treat various conditions. Although the transplantation of the fetal midbrain substantia nigra and dopaminergic neurons in patients suffering from Parkinson's disease is particularly noteworthy, the history of other types of grafts, such as those of the fetal liver, thymus, and pancreas, should be addressed as there are many lessons to be learnt for future stem cell transplantation. This report describes previous practices and complications that led to current clinical trials of isolated fetal stem cells and embryonic stem(ES) cells. Moreover, strategies for transplantation are considered, with a particular focus on donor cells, cell processing, and the therapeutic cell niche, in addition to ethical issues associated with fetal origin. With the advent of autologous induced pluripotent stem cells and ES cells, clinical dependence on fetal transplantation is expected to gradually decline due to lasting ethical controversies, despite landmark achievements.

Differentiation and functional connectivity of fetal tectal transplants

Data from studies analyzing the differentiation and functional connectivity of embryo nic neural tissue grafted into the mammalian nervous system has led to the clinical testing of the fetal graft approach in patients with neurodegenerative disease.While some success has been achieved,ethical concerns have led to a search for alternative therapeutic strategies,mostly exploring the use of neural precursors or neurons derived from pluripotent stem cells to replace damaged host neurons and restore lost circuitries.These more recent studies address questions of graft viability,differentiation,and connectivity similar to those posed by researchers in earlier fetal transplant work,thus reviews of the fetal graft literature may inform and help guide ongoing research in the stem cell/organoid field.This brief review describes some key observations from research into the transplantation of neural tissue into the rat visual syste m,focusing on grafts of the fetal supe rior colliculus(tectal grafts) into neonatal or adult hosts.In neonate hosts,grafts quickly develop connections with the underlying host mid b rain and attain a morphology typical of mature grafts by about 2 weeks.G rafts consistently contain numerous localized regions which,based on neurofibrillar staining,neuronal morphology(Golgi),neurochemistry,receptor expression,and glial architecture,are homologous to the stratum griseum supe rficiale of normal superior colliculus.These localized "patches" are also seen after explant culture and when donor tectal tissue is dissociated and reaggregated prior to transplantation.In almost all circumstances,host retinal innervation is restricted to these localized patches,but only those that are located adjacent to the graft surfa ce.Synapses are formed and there is evidence of functional drive.The only exception occurs when Schwann cells are added to dissociated tecta prior to reaggregation.In these co-grafts,the peripheral glia appear to compete with local target fa ctors and host retinal ingrowth is more widespread.Other afferent systems(e.g.,host co rtex,serotonin) show different patterns of innervation.The host cortical input originates more from extrastriate regions and establishes functional excitato ry synapses with grafted neurons.Finally,when grafted into optic tra ct lesions in adult rat hosts,spontaneously regrowing host retinal axons retain the capacity to selectively innervate the localized patches in embryonic tectal grafts,showing that the specific affinities between adult retinal axons and their targets are not lost during regeneration.While the research described here provides some pertinent information about development and plasticity in visual pathways,a more general aim is to highlight how the review of the extensive fetal graft lite rature may aid in an appreciation of the positive(and negative) fa ctors that influence survival,differentiation,connectivity and functionality of engineered cells and organoids transplanted into the central nervous system.

Are there fetal stem cells in the maternal brain?

Fetal cells can enter maternal blood during pregnancy but whether they can also cross the blood-brain barrier to enter the maternal brain remains poorly understood. Previous results suggest that fetal cells are summoned to repair damage to the mother＇s brain. If this is confirmed, it would open up new and safer avenues of treatment for brain damage caused by strokes and neural diseases. In this study, we aimed to investigate whether a baby＇s stem cells can enter the maternal brain during pregnancy. Deceased patients who had at least one male offspring and no history of abortion and blood transfusion were included in this study. DNA was extracted from brain tissue samples of deceased women using standard phenol-chloroform extraction and ethanol precipitation methods. Genomic DNA was screened by quantitative fluorescent-polymerase chain reaction amplification together with short tandem repeat markers specific to the Y chromosome, and 13, 18, 21 and X. Any foreign DNA residues that could be used to interpret the presence of fetal stem cells in the maternal brain were monitored. Results indicated that fetal stem cells can not cross the blood-brain barrier to enter the maternal brain.

An Eperimental Study on the Transplantation of Human Fetal Brain Cells into Monkey Models of Parkinson's Disease.

Unilateral administration of methly-phenyl-tetrahydropyridine(MPTP) into the common carotid artery

Combined cell-based therapy strategies for the treatment of Parkinson's disease:focus on mesenchymal stromal cells

Parkinson’s disease is a neurodegenerative condition characterized by motor impairments caused by the selective loss of dopaminergic neurons in the substantia nigra.Levodopa is an effective and well-tolerated dopamine replacement agent.However,levodopa provides only symptomatic improvements,without affecting the underlying pathology,and is associated with side effects after long-term use.Cell-based replacement is a promising strategy that offers the possibility to replace lost neurons in Parkinson’s disease treatment.Clinical studies of transplantation of human fetal ventral mesencephalic tissue have provided evidence that the grafted dopaminergic neurons can reinnervate the striatum,release dopamine,integrate into the host neural circuits,and improve motor functions.One of the limiting factors for cell therapy in Parkinson’s disease is the low survival rate of grafted dopaminergic cells.Different factors could cause cell death of dopaminergic neurons after grafting such as mechanical trauma,growth factor deprivation,hypoxia,and neuroinflammation.Neurotrophic factors play an essential role in the survival of grafted cells.However,direct,timely,and controllable delivery of neurotrophic factors into the brain faces important limitations.Different types of cells secrete neurotrophic factors constitutively and co-transplantation of these cells with dopaminergic neurons represents a feasible strategy to increase neuronal survival.In this review,we provide a general overview of the pioneering studies on cell transplantation developed in patients and animal models of Parkinson’s disease,with a focus on neurotrophic factor-secreting cells,with a particular interest in mesenchymal stromal cells;that co-implanted with dopaminergic neurons would serve as a strategy to increase cell survival and improve graft outcomes.

MORPHOLOGICAL STUDY OF FETAL NEOCORTICAL TRANSPLANT GRAFTED TO THE CEREBRAL CORRESPONDING AREA IN YOUNG RATS DIFFERENTIATION OF IMMATURE NEURONS AND RECIPROCAL CONNECTIONS OF FIBERS BETWEEN GRAFT-HOST BRAIN

The fetal neocortical transplant (E15-17 days gestation) of Wistar rat was grafted to the corresponding neocortical region (frontal-parietal lobe) of the same strain in young rats (4-5 weeks old). On the 7th, 15th, 30th, 60th, 150th day after transplantation, the sections cut through the middle area of graft-ost brain were examined by HE, Nissl, Glees stain, immunohistochemical technique for GFAP and NF, Nissl, Glees stain, immunohistochemical technique for GFAP and NF, acetylcholinesterase (AChE) histochemistry as well as horseradish peroxidase (HRP) retrograde tracing with light microscope. Some of the sections were also examined with TEM. The result showed that most immature neurons within the graft can survive, grow, differentiate and mature, and are similar to the structure of the neocortical neurons of host brain. This study also provides patterns of integration of the interface between graft-host brain varying with the proliferation of reactive astrocyte as well as graft-host reciprocal connection of fibers.

大鼠FBN与胶原蛋白细胞载体联合培养及移植治疗脑损伤的实验研究

目的评价胶原蛋白(Collagen)的细胞相容性;研究胶原与大鼠胎脑神经细胞(FBN)复合体(C-FBN)脑内移植对脑损伤的修复作用。方法将大鼠FBN与Collagen联合体外培养,进行光镜、电镜观察,并将体外联合培养4天的C-FBN(移植前48h培养液中加入Brdu)移植到大脑皮质损伤模型的大鼠脑损伤部位,术后3d、6d、10d、15d及30d观察脑组织对移植物的反应、移植细胞生长状态及载体在体内的降解情况等。结果Collagen对FBN生长无不良影响;脑组织对移植物无明显的免疫排斥反应;Collagen与周围脑组织整合好,有血管长入移植物中;载体内有大量存活神经细胞,术后各时段都检出Brdu阳性细胞;Collagen吸收、降解快,可诱导组织再生。结论Collagen具有良好的细胞相容性和组织相容性,是神经组织工程的一种较为理想的生物载体材料;移植的FBN在脑内可以长时间存活。

SPIO标记脂肪干细胞移植治疗大鼠脑梗死的磁共振示踪成像研究

目的通过采用多聚左旋赖氨酸(PLL)与超顺磁氧化铁纳米微粒(SPIO)的复合物对脂肪干细胞(ADSCs)体外进行标记,观察SPIO标记ADSCs脑内移植治疗大鼠脑梗死的分布和迁徙情况。方法显微镜下直接结扎大脑中动脉方法制备大鼠脑梗死模型36只,随机分成缺血未干预对照组(12只)、磁性标记ADSCs移植组(12只)和未磁性标记ADSCs移植组(12只),采用立体定向方法脑内移植。对移植后大鼠的神经系统行为和运动功能进行评估,病理组织化学染色观察ADSCs在体内的分布情况,并用磁共振成像的方法在体观察ADSCs的分布,并与病理结果进行对比。结果移植后3周神经系统行为学评分显示移植组动物明显改善,ADSCs脑内移植后3周MRT2WI显示移植区低信号改变并通过胼胝体向病灶迁移。病理组织检查显示磁共振低信号改变区可见普鲁士蓝染色阳性细胞。结论移植ADSCs可以有效地促进大鼠脑梗死后神经行为功能的恢复,MRI可用于在体评价经SPIO和PLL复合物标记的ADSCs细胞移植后在体内的分布、迁移过程。

人脐血间充质干细胞移植对新生大鼠缺氧缺血性脑损伤的神经保护

背景:目前研究虽已证实脐血间充质干细胞移植可促进神经功能的恢复,但其具体作用机制尚不明确。目的:观察人脐血间充质干细胞移植对新生大鼠缺氧缺血性脑损伤的治疗作用,分析其可能的作用机制。方法:取10 d龄新生SD大鼠(由川北医学院实验动物中心提供),置于6 000 m海拔高原低压环境模拟仓生活和运动(运动方式为在舱内游泳槽内进行为期15 d的运动,60 min/d),建立高原缺血缺氧性脑损伤模型。造模成功24 h后,将60只大鼠随机分为移植组、模型组,移植组脑组织海马内注射DAPI标记的脐血间充质干细胞悬液,模型组以同样方法注射等量PBS;另取30只大鼠作为空白对照组,不建模不移植。细胞移植48 h后,TUNEL法检测神经细胞凋亡,Western blot法检测脑组织Caspase-3、p-Akt蛋白表达;细胞移植后21 d,Morris水迷宫实验测试大鼠学习记忆能力;细胞移植28 d后,ELISA法检测大鼠脑组织炎性因子表达,组织学观察脑组织病理变化。结果与结论:①TUNEL染色显示空白对照组仅见极少量凋亡细胞,模型组可见大量细胞凋亡,移植组细胞凋亡介于空白对照组与模型组之间,3组间细胞凋亡数量比较差异有显著性意义;②移植组脑组织Caspase-3蛋白表达明显低于模型组(P <0.05),p-Akt蛋白表达明显高于模型组(P <0.05);③Morris水迷宫实验测试结果显示,移植组大鼠逃避潜伏期与游泳距离均明显短于模型组(P <0.05);④与模型组比较,移植组肿瘤坏死因子α、白细胞介素1β、白细胞介素10质量浓度明显降低(P <0.05),白细胞介素8质量浓度明显升高(P <0.05);⑤模型组大鼠海马区神经元水肿,核染色质结构不清,有空泡形成,室管膜细胞重度水肿;移植组大鼠海马区神经元水肿程度轻于模型组,核染色质结构不清,未见空泡形成;⑥结果提示,人脐血间充质干细胞可通过调控炎性因子的表达、抑制神经细胞凋亡来改善新生大鼠缺氧缺血性脑损伤的学习记忆能力,发挥脑保护作用的,其中PI3K/Akt信号通路在抑制细胞凋亡中可能发挥了一定的作用。

冻融胚胎移植98周期结果分析

目的分析冻融胚胎移植后结局,探索提高冻融胚胎移植妊娠率的方法。方法采用慢速冷冻-快速融冻方法行胚胎移植,子宫内膜的准备分自然排卵周期及激素替代周期,移植前融胚过程分为辅助孵化组和未辅助孵化组,对移植融胚的妊娠结局进行分析。结果冻融胚胎移植98周期,妊娠率24.5%。自然周期与激素替代周期比较妊娠率无统计学意义,流产率亦无统计学意义。辅助孵化组与对照组相比妊娠率有差异,流产率相比无显著差异。结论自然周期与激素替代周期作为冻融胚胎移植前子宫内膜的准备可获得相近的妊娠率。应用激光辅助孵化技术可提高冻融胚胎移植妊娠率。

彩色多普勒超声对胎鼠大脑Fos蛋白表达影响的实验研究

目的 探讨诊断用彩色多普勒超声对胎鼠中枢神经系统的影响。方法 利用彩超照射孕 18天大鼠子宫体表投影区 ,滑行照射 30min ,间隔不同时间留取胎鼠脑组织标本 ,分为照射后即刻、30min、2h、4h、8h及 2 4h共 6组及各自的对照组。应用免疫组化方法检测Fos蛋白的表达及出现的时间顺序。结果 ①照射后即刻及 30min组仅见极少量着色浅淡的Fos阳性细胞 ,照射后 2h出现密集分布的深染Fos阳性细胞 ,照射后 4h及 8h阳性细胞数逐渐下降 ,而照射后 2 4h再次出现Fos蛋白高表达。②对照组各时间点均未见着色的Fos阳性细胞。结论 诊断用的彩超照射孕鼠 30min ,可激活胎鼠脑组织c fos基因 ,并诱导其转录和表达 ,其高表达时间出现于照射后 2h及 2 4h。

弓形虫感染孕鼠后胎鼠脑病变动态定位研究

经孕鼠尾静脉注射弓形虫 NT 强毒株滋养体孵育液后分批处死,观察胎鼠脑动态病理变化。结果表明,胎鼠脑病变主要为神经细胞变性、坏死、数量减少,胶质细胞明显增生。孕鼠感染后2小时,免疫组化即可在胎鼠脑组织内发现弓形虫。提示,先天性弓形虫感染的新生儿出现的中枢神经系统发育异常,是由于弓形虫对大脑神经细胞的损害所致;免疫组化显示组织、细胞内的弓形虫是一个简便、准确的诊断方法。

间充质干细胞移植改善脑梗死预后的Meta分析

背景:目前国内外已逐步开展间充质干细胞移植改善脑梗死预后及其后遗症的临床试验,结果证明其有效且安全,但研究的样本量均较少,缺乏循证医学证据。目的:系统评价间充质干细胞移植改善脑梗死预后的疗效。方法:计算机检索Cochrane Library,Pub Med,Ovid,CBM,CNKI,Wan Fang,VIP数据库,收集间充质干细胞移植改善脑梗死预后的临床随机对照试验,其中间充质干细胞移植组单独进行间充质干细胞移植、间充质干细胞移植联合常规药物治疗和/或康复训练,对照组进行常规药物治疗或常规药物治疗联合康复训练。检索的截止日期为2016年11月。由2名作者按照纳入与排除标准独立实施文献筛选、提取文献资料及纳入文献的偏倚风险评估,最终将获得的资料运用Meta分析进行合并或仅进行定性描述。结果与结论:①共纳入10个随机对照试验,合计626例脑梗死患者;②Meta分析结果显示间充质干细胞移植组治疗3个月后的日常生活能力(Barthel指数评分)[MD=20.06,95%CI(9.95,30.18),P=0.000 1]、运动功能(Fugl-Meyer评定表评分)[MD=14.60,95%CI(12.96,16.25),P<0.000 01]、个体残疾状态(FIM评分)[MD=15.16,95%CI(9.06,21.26),P<0.000 01]及神经功能缺损程度(NIHSS评分)[MD=-2.59,95%CI(-3.14,-2.05),P<0.000 01]均优于对照组,且差异均有显著性意义;③共有4项研究报道患者出现低热及轻微头痛,1项研究报道患者出现腰部酸痛,但未经治疗或经对症治疗后症状均可迅速消失;④亚组分析结果显示,自体骨髓来源间充质干细胞的效应要优于脐带和脐血来源间充质干细胞,但异质性较大;⑤结果表明,间充质干细胞移植治疗脑梗死患者可显著改善其日常生活能力、运动功能、个体残疾状态及神经功能缺损程度,且未发生严重不良反应。但对于间充质干细胞移植改善脑梗死预后有待于进一步研究,以期获取更可靠的数据供临床决策。

大鼠胎脑神经细胞与几丁质多孔体、胶原蛋白海绵及明胶海绵生物相容性的实验研究

目的 评价大鼠胎脑神经细胞与几丁质多孔体、胶原蛋白海绵及明胶海绵的细胞相容性 ,为中枢神经组织工程材料的选择提供实验依据。方法 将大鼠胎脑神经细胞分别与几丁质多孔体、胶原蛋白海绵及明胶海绵联合体外培养 ,进行光、电镜观察 ,并测定 3种材料与细胞的吸附率。结果 神经细胞均能在 3种材料上贴附并生长 ,细胞吸附率分别为 31.5 4 %、30 .5 8%和 15 .5 4 % ,并且几丁质有促进细胞生长的作用。结论 几丁质、胶原蛋白及明胶 3种材料 ,尤其是几丁质 ,具有良好的神经细胞相容性 。

胚胎脊髓不同移植方法对成年大鼠损伤脊髓神经元的影响

目的 探讨胚胎脊髓不同移植方法防止成年鼠脊髓轴突损伤后引起的神经元萎缩的作用。方法采用 Wistar成年大鼠腰脊髓半切洞损伤模型 ,将实验动物分为五组 :A组为正常对照组 ;B组为损伤组 ;C组为损伤 +移植组 ;D组为损伤 +移植 +椎旁肌组 ;E组为损伤 +移植 +大网膜组。手术后应用行为学和电生理检查观察大鼠神经功能恢复情况 ,应用尼氏染色方法观察神经元的大小 ,采用计算机图像分析技术 ,进行定量分析。结果 胚胎脊髓不同移植方法均可以防止成年鼠脊髓轴突损伤后引起的神经元萎缩 ,图像分析发现其作用为 E组 >D组 >C组 >B组 >A组 ,尤以 E组效果最好 ,可以完全恢复损伤神经元的形态。大鼠神经功能的恢复也出现了相同的变化趋势。结论 鼠胚胎脊髓不同移植方法能维持神经元的细胞形态 。

脑源性神经营养因子修饰人羊膜间充质干细胞移植改善老年痴呆大鼠的学习记忆能力

背景:研究发现多种干细胞治疗老年痴呆大鼠效果显著,但关于脑源性神经营养因子(brain-derived neurotrophic factor,BDNF)修饰人羊膜间充质干细胞移植治疗老年痴呆的研究报道较少。目的:探讨BDNF修饰人羊膜间充质干细胞移植对老年痴呆大鼠学习记忆能力的影响。方法:将48只SD大鼠根据随机数字法分为对照组、模型组、干细胞移植组和BDNF修饰干细胞移植组,每组12只。后3组建立老年痴呆大鼠模型,干细胞移植组和BDNF修饰干细胞移植组大鼠基底前脑注射人羊膜间充质干细胞和BDNF修饰人羊膜间充质干细胞。移植后2周,大鼠在三等份辐射式迷宫箱中检测学习记忆能力,免疫组化染色结合图像分析测定p75 NGFR阳性神经元数目。结果与结论:(1)模型组、干细胞移植组、BDNF修饰干细胞移植组斜角带和内侧隔核p75 NGFR阳性神经元数均低于对照组(P<0.05),干细胞移植组、BDNF修饰干细胞移植组斜角带和内侧隔核p75 NGFR阳性神经元数均高于模型组(P<0.05),BDNF修饰干细胞移植组斜角带和内侧隔核p75 NGFR阳性神经元数高于干细胞移植组(P<0.05);(2)模型组、干细胞移植组、BDNF修饰干细胞移植组大鼠的学习记忆能力均低于对照组(P<0.05),干细胞移植组、BDNF修饰干细胞移植组大鼠的学习记忆能力均高于模型组(P<0.05),BDNF修饰干细胞移植组大鼠的学习记忆能力高于干细胞移植组(P<0.05);(3)BDNF修饰干细胞移植组大鼠的学习次数与p75 NGFR阳性神经元数呈负相关(P<0.05),记忆能力与p75 NGFR阳性神经元数呈正相关(P<0.05);(4)结果表明,人羊膜间充质干细胞移植可提高老年痴呆大鼠的学习记忆能力,BDNF修饰人羊膜间充质干细胞可进一步提高人羊膜间充质干细胞的治疗效果。

胶原蛋白与胎脑神经细胞移植入脑缺血大鼠的形态学研究

目的 观察胶原蛋白 (Collagen)与胎脑神经细胞 (FBN)联合培养 2天后 ,神经细胞与胶原蛋白的吸附情况 ;观察胶原蛋白与胎脑神经细胞 (CFBN)移植入脑缺血大鼠后神经细胞的生长情况。方法 取孕 14天的胎脑神经细胞接种在胶原蛋白上 ;制备大脑中动脉闭塞 (MCAO)模型 ;将CFBN植入到脑缺血大鼠中 ,将移植的大鼠分别在 2、6、10、30天进行光镜和电镜观察。结果 CFBN植入 2天后 ,机体产生轻微的免疫反应 ,部分中性粒细胞和淋巴细胞浸润 ,6天后免疫反应消失。HE和尼氏染色可见实验组植入神经细胞生长良好。结论 CFBN在脑缺血大鼠中生长良好 。

小鼠胚胎干细胞植入大鼠脑内分化的研究(英文)

目的观察小鼠胚胎干(ES)细胞植人大鼠隔区和海马内后的分化情况,并对其作研究和分析。方法成年SD大鼠35只,体质量200～250g,雌雄不限。以SD大鼠为宿主,将ES细胞移植入宿主隔区和海马内,移植后l,2,3,4和8周后取脑,冷冻切片,进行Nissl,M6,NSE,GFAP免疫组织化学染色。结果ES细胞移植入大鼠隔区和海马内后,从第2周开始表达M6、GFAP、NSE等抗原,持续至第4周,主要位于移植区内,较少迁移。结论小鼠ES细胞移植入大鼠隔区和海马内后,分化为神经元,神经胶质细胞。

三七皂苷联合骨髓间充质干细胞移植促进急性脑损伤的恢复

背景:研究证明,三七皂苷治疗脑缺血损伤有着广泛的药理基础,骨髓间充质干细胞移植治疗脑损伤动物模型的实验研究也已广泛开展,但二者联用鲜有报道。目的:观察三七皂苷联合骨髓间充质干细胞移植促进大鼠急性脑损伤的恢复作用。方法:采用液压冲击法建立SD大鼠脑损伤模型,将60只SD大鼠随机分为脑损伤组、骨髓间充质干细胞移植组及骨髓间充质干细胞+三七皂苷联合治疗组。治疗后采用Bederson神经缺损评分评估神经功能恢复情况,Western blot法检测脑组织中神经生长因子蛋白表达变化,苏木精-伊红染色观察脑组织形态学变化,TUNEL法检测皮质神经元凋亡情况。结果与结论:(1)Bederson评分:脑损伤组>骨髓间充质干细胞移植组>联合治疗组,各组间比较差异有显著性意义(P<0.05);(2)神经生长因子蛋白表达:联合治疗组>骨髓间充质干细胞移植组>脑损伤组,各组间比较差异有显著性意义(P<0.05);(3)与脑损伤组及骨髓间充质干细胞移植组比较,联合治疗组脑组织炎症浸润细胞明显减少,水肿程度明显减轻;(4)与脑损伤组及骨髓间充质干细胞移植组比较,联合治疗组神经元凋亡细胞显著减少;(5)结果表明,三七皂苷联合骨髓间充质干细胞移植能够促进大鼠急性脑损伤后的神经功能恢复,其可能与促进神经生长因子表达及减少神经元细胞凋亡有关。

超声联合微泡增效骨髓间充质干细胞归巢治疗缺血性脑卒中

背景:国内外动物实验结果表明,超声微泡能够促进移植干细胞归巢到缺血区,增强血管新生和小动脉生成,改善缺血心肌局部血流量,恢复心肌收缩功能。目的:探讨超声联合微泡对静脉移植骨髓间充质干细胞归巢的影响及治疗缺血性脑卒中的有效性。方法:插线法建立大脑中动脉栓塞大鼠模型,建模72 h后,随机分为4组:PBS组(n=15),骨髓间充质干细胞组(n=18),超声+骨髓间充质干细胞组(n=18),超声+微泡+骨髓间充质干细胞组(n=18)。PBS组经尾静脉注射2 mL PBS;骨髓间充质干细胞组将骨髓间充质干细胞(约3×10~6)用2 mL PBS稀释后经尾静脉缓慢注射;超声+骨髓间充质干细胞组经颅骨超声(频率1 MHz,功率2 W/cm^2)辐照120 s,给予骨髓间充质干细胞;超声+微泡+骨髓间充质干细胞组在超声辐照前静注微泡对比剂0.1 mL/kg,再给予骨髓间充质干细胞。结果与结论:(1)移植后48 h,超声+微泡+骨髓间充质干细胞组细胞的脑内归巢率高于骨髓间充质干细胞组和超声+骨髓间充质干细胞组,差异均有显著性意义(P<0.05);(2)造模后28 d,超声+微泡+骨髓间充质干细胞组的神经损害程度较其余组轻,差异均有显著性意义(P<0.05);(3)移植后7 d,超声+微泡+骨髓间充质干细胞组的脑组织含水率较其余组低,差异均有显著性意义(P<0.05);(4)移植后7 d,超声+微泡+骨髓间充质干细胞组脑梗死体积较其余组小,差异有显著性意义(P<0.05);(5)结果表明,超声联合微泡可促进骨髓间充质干细胞的脑内靶向归巢,能够减少脑水肿和脑梗死体积,改善神经功能评分,增效骨髓间充质干细胞移植治疗缺血性脑卒中的效果。