组织,细胞质蛋白,病人,狼疮,肾。
组织,细胞质蛋白, 病人,肝硬化,肾。
Tissue, Cytoplasmic Protein, Human Disease, Liver Cirrhosis , Kidney.
组织,细胞质蛋白,人肿瘤,肾。
组织,细胞质蛋白,人正常胚胎,肾。
目的探讨自制脂质类超声造影剂对正常兔肾的增强效果,以及不同显像方式、造影剂量对造影效果的影响与变化规律。
Objective To evaluate the enhancement effect of self made lipid ultrasound contrast agent for normal rabbit kidney and the relationship of doses or different imaging methods with enhancement effects.
观察所见,5周胚肾已有肾小体发生,肾内的间充质首先分化成造血干细胞,在造血干细胞的诱导下形成毛细血管及肾小囊。
The result showed that the renal corpuscle had generated at the age of 5th week. First mesenchymal proper order the capillary of the glomerulus and the renal capsule were induced by the stem cells.
目的探讨氯化镉对NRK大鼠肾细胞毒性作用和脂质过氧化的影响。
Objective to investigate the effects of cadmium chloride on cytotoxicity and lipid - peroxidation reaction in NRK cells.
目的探讨淋巴管内皮细胞透明质酸受体-1染色阳性(LYVE-1+)淋巴管在大鼠肾内的分布。
Objective To investigate the distribution of intrarenal lymphatic vessels in developing rat using the lymphatic marker LYVE-1.
目的:探讨肝X受体在肾系膜细胞脂质代谢中的作用及机制。
Objective: To examine the role of liver X receptors (LXRs) in lipid metabolism in cultured mouse mesangial cells.
原肾管的毛细排泄管细胞质索之间没有隔状联结;
The cytoplasmic cords of protonephridial capillaries do not contain a septate junction.
发现阿托品使器质性梗阻的异常肾图加重,或保持原型,甚至使结石尚未造成异常肾图者显为异常;
It was found that atropine exaggerated or maintained the abnormal renograms of parenchymal obstruction, Showed abnormal renograms that would not appear without atropine.
方法利用染镉动物和凝胶渗透层析技术,观察非蛋白结合镉、总镉在肾脂质过氧化时的作用。
Methods Gel filtration chromatography and cadmium-injured Wistar rats were used to observe the action of nonprotein bound cadmium and total cadmium in renal lipid peroxidation.
目的:观察益肾活血软坚法治疗慢性肾衰竭氮质血症期患者的临床疗效及对病程进展的影响。
Aim: the observation the affection of tonifying kidney, activating blood circulation and softening hard modes to treat the clinical curative effect that the chronic renal failure.
结论:HGF通过促进系膜细胞表达LDL受体,增加系膜细胞对LDL的摄取,可能参与了脂质肾损伤过程。
Conclusion: HGF can up-regulate expression of LDL receptor in mesangial cells and increase mesangial cells uptake of LDL, so HGF may play a role in lipid-induced kidney injury.
探讨混配农药染毒对家兔大脑、肝及肾组织脂质过氧化的影响及意义。
The purpose was to study the effects of low dose mixed pesticide on lipid peroxidation in the brain, liver and kidney in rabbits.
目的:观察固肾胶囊对糖尿病肾病(DN)大鼠脂质代谢及氧自由基的影响。
Objective:To observe the effects of Gushen capsule on lipidic metabolism and oxygen derived free radidicals in rats model of diabetic nephropathy(DN).
目的探讨宽叶缬草在脂质肾损害肾小管上皮细胞转分化中的作用。
Objective To evaluate the possible effects of valeriana officinalis var latifolia(VOL) on transdifferentiation of renal tubular epithelial cells in hypercholesterolemic rats.
肾近曲小管细胞的胞质内有大量溶酶体。
A lot of lysosomes were seen in the cytoplasm of the renal proximal convoluted tubule cells.
本例,右肾可见一不均质肿物,边缘呈爪样替代正常肾实质。
In this case, there is a heterogenous mass involving the right kidney. On CT, the claw sign is seen as the mass displaces the normal renal parenchyma.
原发性高血压又称高血压病,以动脉血压升高为特征,伴有心、脑、肾、血管等器官功能或器质性改变,其高发病率和死亡率严重威胁了人们的健康。
Main characteristics of essential hypertension are high arterial blood pressure with functional and organic injury of heart, brain, kidney, blood vessel and so on.
结果:淫羊藿提取液可降低血肌酐和尿素氮水平的升高,抑制肾皮质脂质过氧化物的产生及减轻谷胱甘肽的耗竭。
RESULTS Extraction of Herba Epimedii reduced elevation of serum concentration of BUN, Scr and renal cortex MDA content induced by gentamicin, and depletion of GSH was also alleviated.
多发结节型6例,增强后结节边缘清楚,呈轻度均质强化或强化不明显,肾外形无明显外凸;
Multiple nodes were in 6 cases, which presented clear border and lightly enhanced. the kidney's shape had no significantly outer convex.
结论:淫羊藿提取液对庆大霉素所致肾损伤具保护作用,其机制可能与抗脂质过氧化作用有关。
CONCLUSIONS Extraction of Herba Epimedii can protect renal injury induced by gentamicin. The mechanism is associated with inhibitory lipid peroxidation.
在以后的二、三、四部分中,我们着重探讨了脂质肾损害的可能发病机制。
In the following part 2, 3, 4, we studied the possible mechanisms of lipid-induced nephropathy.
目的:研究p选择素在高胆固醇血症小鼠肾脏的表达,探讨脂质肾毒性损伤的机制。
Objective: to detect the expression of P-selectin in mice with hypercholesterolemia, and to explore the mechanism of toxic injury to the kidney induced by lipid.
所述尿毒症综合症选自:肾实质损害或肾功能不全引起的氮质血症、肾性高脂血症、肾性贫血以及电解质紊乱导致的尿毒症综合症。
The uremia syndrome includes kidney essence damage or kidney incompetence caused azotemia, renal hyperlipemia, renal anemia and electrolyte disorder caused uremia syndrome.
所述尿毒症综合症选自:肾实质损害或肾功能不全引起的氮质血症、肾性高脂血症、肾性贫血以及电解质紊乱导致的尿毒症综合症。
The uremia syndrome includes kidney essence damage or kidney incompetence caused azotemia, renal hyperlipemia, renal anemia and electrolyte disorder caused uremia syndrome.
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