垂体下丘脑作为神经内分泌组织具有一定的特殊性,而PET作为功能影像方法在垂体下丘脑疾病中的应用具有重要意义。
As neuroendocrine tissues, the hypothalamus and pituitary gland have their unique features, and PET can be valuable in evaluating hypothalamic-pituitary diseases lesions.
这样做的原因是一些和产前神经系统和内分泌损害有关的有毒物质是储存在脂肪组织中的。
Here's why: Some toxins linked to prenatal nervous system and hormonal damage are stored in fatty tissue.
神经垂体类似神经组织,有神经胶质细胞、神经纤维、神经末梢及轴突内的神经内分泌颗粒。
The neurohypophysis shown here resembles neural tissue, with glial cells, nerve fibers, nerve endings, and intra-axonal neurosecretory granules.
他的骨胳、结缔和肌肉组织,他的新陈代谢,他的心脏及血管系统,神经和内分泌系统都己准备好迎接更快的速度训练。
His skeletal, connective, and muscle tissues; his metabolism; and his cardiovascular, nervous, and endocrine systems are now prepared for some faster training.
已经证实在消化道以及大部分神经内分泌肿瘤活检组织和体外培养的细胞株中有sstr尤其是亚型SSTR2的表达。
It is proved that there are SSTRs, especially SSTR2 in digestive duct and neuroendocrine tumor tissue and cell strain cultured in vitro.
胰抑素是近年来新发现的一个具有抑制胰岛素分泌作用的多肽,广泛分布于神经组织和内分泌系统中。
Pancreastatin, a newly discovered 49-residue peptide, has been found to be capable of inhibiting insulin secretion, and widely distributed in the nervous tissue and endocrine system.
从氟对骨相组织牙齿和骨骼,非骨相组织肝脏、肾脏、脑、胃肠道、中枢神经系统、内分泌系统及生殖系统不同程度的损伤作用入手,较深入的探讨了氟的毒性作用机制。
Fluoride mechanism has been shown by illustrating the damage effects of fluoride on bone, tooth, liver, kidney, brain, stomach nervous system, endocrine system and generational system in this essay.
目的检测胃异型增生上皮及胃腺癌组织中神经内分泌的表达。
Objective To detect the neuroendocrine differentiation in gastric epithelial dysplasia and adenocarcinoma.
肺组织的神经内分泌细胞较常见。
肺小细胞癌与类癌、不典型性类癌皆属于肺神经内分泌肿瘤,也是肺组织常见的肿瘤。
Small cell lung carcinoma and carcinoid, atypical carcinoid tumors are the property of pulmonary neuroendocrine tumors, is also a common tumor lung tissue.
组织,切片,人肿瘤,肺肿瘤,神经内分泌癌(石蜡切片)。
Tissue, Section, Human Tumor, Lung Tumor, Neuroendocrine Carcinoma (Paraffin).
目的探讨小站台水环境不同应激时间对小鼠胸腺、脾、脑组织中5羟色胺含量的变化,了解应激如何调节神经、内分泌而影响免疫功能。
ObjectiveTo investigate the effect of the content of 5-hydroxytryptamine of animal's brain, thymus, spleen with different stress time on the platform-over-water.
目的探讨小站台水环境不同应激时间对小鼠胸腺、脾、脑组织中5羟色胺含量的变化,了解应激如何调节神经、内分泌而影响免疫功能。
ObjectiveTo investigate the effect of the content of 5-hydroxytryptamine of animal's brain, thymus, spleen with different stress time on the platform-over-water.
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