目的观察新生鼠缺血缺氧性损伤后皮层及海马神经干细胞的变化。
Objective To investigate the influence of hypoxic- ischemic(H-I) injury on the endogenous Neural Stem Cells (NSCs) of the cerebral cortex and hippocampus in the neonatal rats.
目的:探讨脑缺血大鼠脑脊液对新生大鼠海马神经干细胞生存及分化的影响。
Objective: To investigate the effect of the rat cerebrospinal fluid on the survival and differentiation of the neural stem cells isolated from the hippocampus of neonatal rats.
目的研究人胚胎海马神经干细胞体外长期培养的条件和其在自主分化条件下的分化能力和分化特点。
Objective To study the conditions of in vitro culture and the features of differentiation of neural stem cells from human embryonic hippocampus.
STEM 121检测移植的人神经干细胞在小鼠脑的海马中的迁移和分化。
STEM121 detects migration and differentiation of transplanted human neural stem cells in the hippocampus of a mouse brain.
研究人员还将培养基中生长的神经干细胞移植到大鼠海马区,刺激其中已有的神经干细胞活化。
The researchers also are grafting neural stem cells grown in culture dishes into the hippocampus, to stimulate those already present.
方法从人胚胎海马区分离神经干细胞,采用无血清培养基,进行体外扩增培养、传代。
Methods The serum free culturing technology was used to isolate, culture and pass neural stem cells from embryonic human hippocampus.
方法从胚胎大鼠的大脑皮质、海马、纹状体等组织分离神经干细胞,用无血清培养技术在体外进行培养、扩增、传代和诱导分化。
The advantage of serum free and clone culturing technology was performed to isolate, culture, passage and induce neural stem cells from embryonic rat cortex, hippocampus and striatum.
目的从胚胎大鼠海马和上丘脑区中分离、培养神经干细胞,并进行体外增殖能力的比较。
Objective To compare the regional specificity in proliferation capacity of neural stem cells derived from hippocampus and epithalamus: study with rats.
方法从人胚胎海马分离神经干细胞。
Methods The neural stem cells were isolated from human embryonic hippocampus.
目的探讨新生小牛血清对人胎脑海马组织神经干细胞分化的影响。
Objective To investigate the effects of neonatal calf serum on the differentiation of human neural stem cells in the hippocampus.
方法:利用无血清培养和细胞克隆培养技术,从胚胎大鼠海马、纹状体、脊髓等区分离神经干细胞,进行体外扩增培养、传代、贴壁分化观察。
Methods: The advantage of serum free and clone culturing technology was performed to isolate, culture and passage neural stem cells from embryonic rat hippocampus, striatum and spinal cord.
结果:记忆力强组小鼠海马齿状回的神经干细胞数目明显多于记忆力弱组(P<0·01),而记忆力弱组与对照组比较,其神经干细胞数目差异无统计学意义(P>0·05)。
Result:the number of neural stem cells in dentate gyrus of the mice in HMG was higher than that in PMG(P<0.01), but there was no difference between the PMG and the control(P>0.05).
Bartlett和他的同事表明,海马包含了一群神经干细胞,通常处于非活化的,但可在神经去极化的时候被激活。
Here, Bartlett and colleagues show that the hippocampus contains a population of neural stem cells that are usually latent but can be activated by neural depolarization.
Bartlett和他的同事表明,海马包含了一群神经干细胞,通常处于非活化的,但可在神经去极化的时候被激活。
Here, Bartlett and colleagues show that the hippocampus contains a population of neural stem cells that are usually latent but can be activated by neural depolarization.
应用推荐