Identification of neural stem cells.
神经干细胞鉴定。
Neural stem cells showed phagocytic capability.
神经干细胞具有吞噬功能。
CNTF and LIF are critical for differentiation of neural stem cells.
CNTF和LIF等在神经干细胞的分化中也有重要作用。
Conclusion NGF could induce directional migration of neural stem cells.
结论NGF有诱导神经干细胞定向迁移的作用。
Trying use the Neural stem cells transplant to treat cerebral hemorrhage.
进行神经干细胞移植治疗脑出血的初步尝试。
Methods The neural stem cells were isolated from human embryonic hippocampus.
方法从人胚胎海马分离神经干细胞。
Objective To isolate and culture human neural stem cells from elder embryonic brain.
目的从大胚龄人胚脑中分离培养并鉴定神经干细胞。
Conclusion There existed neural stem cells in mice nucleus of inferior colliculus area.
结论①小鼠下丘核区存在着具有多向分化潜能的神经干细胞。
STEM123 detects human GFAP + astrocytes differentiated from human neural stem cells in vitro.
STEM 123在体外检测从人神经干细胞分化的人GFAP +星形胶质细胞。
Objective:To study the identification and cultivation of neural stem cells in neonatal rats in vitro.
前言: 目的:探讨新生大鼠神经干细胞的分离培养和鉴定。
STEM101 detects nuclei of transplanted human neural stem cells in the olfactory bulb of a mouse brain.
STEM 101检测小鼠脑的嗅球中移植的人神经干细胞的核。
Objective to explore the biocompatibility of biodegradable material of chitosan and neural stem cells.
目的探讨生物降解材料壳聚糖与神经干细胞的生物相容性。
Objective To investigate the effects of aluminum on differentiation of rat neural stem cells in vitro.
目的探讨铝对大鼠神经干细胞向神经元样细胞分化的影响。
To study the effects of neural stem cells transplantation (NSCT) for treating spinal cord transection injury.
目的研究神经干细胞移植治疗对脊髓横断损伤的修复作用。
ObjectiveTo study the isolation, culture and characterization of neural stem cells from newborn rat spinal cords.
目的从新生大鼠的脊髓中分离培养神经干细胞并观察其增殖和分化能力。
Objective to explore the effect of hepatic growth factor on the neuronal differentiation of the neural stem cells.
目的观察肝细胞生长因子对神经干细胞向神经元细胞方向分化的作用。
Conclusion The neural stem cells isolated from different periods of ontogeny have different biological specificities.
结论个体发育不同阶段所得的神经干细胞有不同的生物学特性。
AIM: To observe influences of ischemic brain injury on proliferation and transference of endogenous neural stem cells.
目的:观察缺血性脑损伤对内源性神经干细胞增殖、迁移的影响。
STEM121 detects migration and differentiation of transplanted human neural stem cells in the hippocampus of a mouse brain.
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。
Objective to study the integration and differentiation of spinal neural stem cells after transplantation into mice retina.
目的研究原代培养的脊髓神经干细胞在小鼠视网膜的整合和分化情况。
OBJECTIVE: to investigate the effects of ascorbic acid on the differentiation of neural stem cells into DA neurons in vitro.
目的:观察不同浓度抗坏血酸对神经干细胞向多巴胺能神经元分化的影响。
STEM123 detects human GFAP + astrocytes differentiated from human neural stem cells after transplantation into a mouse brain.
STEM 123检测在移植入小鼠脑中后从人神经干细胞分化的人GFAP +星形胶质细胞。
New neurons are born not from mature nerve cells but rather develop from neural stem cells that remain in our brains throughout life.
新生神经元不是由成熟神经细胞产生的,而是来源于终身存在于大脑中的神经干细胞。
The survival, migration and differentiation of the transplanted neural stem cells were observed with immunohistochemical staining.
观察移植神经干细胞存活、迁移、分化情况采用免疫组织化学染色方法。
These neural stem cells could be induced to differentiate into cholinergic neurons by using embryonic chick skeletal muscle extract.
在加有鸡胚骨骼肌提取液的培养基诱导下,能向胆碱能神经元方向分化。
The researchers also are grafting neural stem cells grown in culture dishes into the hippocampus, to stimulate those already present.
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。
Methods The serum free culturing technology was used to isolate, culture and pass neural stem cells from embryonic human hippocampus.
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。
Objective To explore the feasibility of neural stem cells (NSCs) transplantation for focal brain ischemia-reperfusion injury in rats.
目的探讨大鼠胚胎神经干细胞移植治疗局灶性脑缺血再灌注损伤的可行性。
HNG-E cells were characterized as transformed neural stem cells, and can be differentiated into dopaminergic neurons by ra induction.
而HNG - E则为发生转化的神经干细胞系,但能在RA诱导下向多巴胺能神经元分化。
Objective To observe the effects of transplanting cholinergic neurons after inducing neural stem cells on treating spinal cord injury.
目的研究神经干细胞向胆碱能神经元定向分化后对脊髓横断损伤的修复作用。
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