纹状体

IL-6对体外培养胎鼠纹状体神经前体细胞的影响

The effects of IL-6 on fetal rat neural precursor cells from corpus striatum in vitro culture

凋亡组进行免疫组化染色，分别计数大脑皮质和纹状体区每平方毫米的bcl-2和bax的阳性细胞数。

The bcl-2 and bax positive cells were counted in the cerebral cortex and corpus striatum .

连续多巴胺转运蛋白显像与特发性快动眼睡眠行为障碍患者的黑质纹状体功能：一项前瞻性研究。

Serial dopamine transporter imaging of nigrostriatal function in patients with idiopathic rapid-eye-movement sleep behaviour disorder : a prospective study .

大鼠纹状体边缘区P物质样免疫反应神经终末的超微结构研究

Ultrastructural characteristics of substance P-like immunoreactive terminals in the marginal division of the striatum of the rat

大鼠纹状体边缘区内P物质、脑啡肽和胆囊收缩素免疫阳性反应的分布

Distribution of substance p - , leu-enkephalin - , cholecystokinin-immunoreactivity in the marginal division of the rat striatum

大鼠纹状体Patch和Matrix间区及其神经元形态学特征的观察

Experimental Observation of Morphological Traits on Striatal Patch-Matrix Compartments and Their Neurons in Rats

大鼠纹状体边缘区内烟碱型乙酰胆碱受体mRNA的表达

Expression of nicotinic acetylcholine receptor mRNA in the marginal region of rat striatum

PD大鼠健侧纹状体多巴胺能系统的功能性改变

The functional changes of striatal dopaminergic system in non-lesioned sides of Parkinsonian rats

注射热损伤大鼠纹状体mRNA的爪蟾卵母细胞对多巴胺的反应

Responses induced by dopamine in Xenopus laevis oocytes injected with mRNA from heat injured rat striatum

温胆汤及其配伍对大鼠纹状体DA代谢的影响

Effect of Wendan Decoction on the DA Metabolism in Rats ' Striatum

新生大鼠纹状体神经元ATP敏感钾通道的特性

Properties of ATP-sensitive K ￣ + channels in neonatal rat cultured

方法在大鼠纹状体透析探头，待大鼠清醒后24h用人造脑脊液进行透析灌流实验。

Methods A microdialysis probe was transversely implanted in rat striatum .

NGF对烧伤大鼠血清引起纹状体神经元细胞毒性的影响

NGF protects striatal neurons against neurotoxicity induced by serum of burnt rat

大鼠PD模型多巴胺能神经元损毁与纹状体相关神经元内c-fos的表达

Parkinson Disease Models with 6-OHDA-lesioned Rats with Dopaminergic Neurons Loss and Proto oncogene c-fos Expression

本文对纹状体调节DA神经元生长发育的机制进行了讨论。

The regulated mechanism of striatal cells to growth and development of mesencephalic dopaminergic neurons was discussed .

单唾液酸神经节苷脂（GM1）对经MPTP破坏的小鼠黑质纹状体多巴胺神经元的保护作用

The effect of ganglioside gm , on MPTP treated mice

ET-1在大鼠纹状体微血管表达的增龄变化

Aging Changes of and the Expression of ET-1 on Microvessels of the Rat Striatus

本文通过胚胎腹侧中脑和纹状体联合培养研究纹状体对中脑多巴胺（DA）神经元形态发育的影响。

The effects of striatal target cells on morphological development of mesencephalic dopaminergic neurons were studied using coculture method .

体外观察到雌二醇对纹状体DA释放作用的剂量-效应曲线呈钟形。

The effect of estrodial-17 β on the DA release of striatum slices in vitro showed in bell-shaped dose-response curve .

3种NOS表达阳性细胞主要分布于脑皮质、海马、下丘脑、脑室旁核团、纹状体神经细胞。

Positive immunoreactivity was detected in the cerebral cortex , hippocampus , hypothalamus , paraventricular nucleus and striatum .

成年大鼠纹状体海人藻酸损伤后nestin的表达

Expression of nestin in striatum after kainic acid injury in adult rat

纹状体和中脑的kappa受体分布密度最高。

The distribution of the kappa receptors is highest in corpus callosum and mid brain .

目的观察几种不同浓度酒精对大鼠背侧纹状体长时程突触抑制（LTD）诱导的影响。

Objective To investigate the effects of ethanol at several concentrations on the induction of corticostriatal long-term depression ( LTD ) .

min-1，纹状体毁损侧c-fos表达。

Conclusion APO induces c-fos expression in the ipsilateral striatum .

通过脑立体定位技术，将表达TH的NIH-3T3&TH工程细胞注入模型鼠损毁侧纹状体，观察阿朴吗啡诱导的旋转行为改善情况。

After transplanting NIH-3T3-TH engineered cells into the lesioned striatum by stereotaxic technique , the rats were tested for rotational behavior induced by apomorphine .

SNP、GLU及GABA对纹状体神经元活动的影响

Effects of SNP , GLU and GABA on the neuronal activity of striatum nucleus in rats

纹状体梗死后黑质继发性损害的DTI研究

The Research of DTI on the Secondary Degeneration of Substantial Nigra after Striatum Infarct

本研究首先建立大鼠背侧纹状体长时程突触抑制（LTD）的诱导方法；

This study first establish the method of the induction of long-term depression ( LTD ) in the dorsal striatum of rats .

多巴胺耗竭、缺血对纹状体CaMKⅡα、β亚基mRNA表达的影响

The expression of CaMK ⅱα and β subunits mRNA in dopamine depletion and ischemic striatum of rats

因此可推测，早期人胚DA能神经元移植到PD人新纹状体后，可能具有类似的形态学发育特性。

It is , therefore , inferable that embryonic human DA neurons transplanted into human neostriatum may have the same fate as in monkeys .