1)chronic aluminum overload慢性铝过负荷
1.Neurotoxicity of chronic aluminum overload and protective effects of nimodipine in rats;慢性铝过负荷致大鼠认知功能损伤及尼莫地平保护作用观察
2.Effects of caffeic acid on brain damage induced by chronic aluminum overload in rats咖啡酸对慢性铝过负荷致大鼠脑损伤的保护作用
3.Conclusion Administration of caffeic acid could prevent the rat brain from damage induced by chronic aluminum overload.方法灌胃给予大鼠葡萄糖酸铝(A l3+200mg/kg),1次/d,5d/周,持续20周,建立慢性铝过负荷致大鼠脑损伤AD动物模型;咖啡酸(40mg/kg、10mg/kg)分别在每次大鼠铝给予1h后灌胃。
英文短句/例句
1.Effect of Caffeic Acid on Brain Damage Induced by Chronic Aluminum Overload in Rats and Its Mechanism咖啡酸对慢性铝过负荷致大鼠脑损伤的保护作用及机制
2.Protective Effects and Mechanisms of Meloxicam on Chronic Aluminum Overload-Induced Neurodegeneration of Rats美洛昔康对慢性铝过负荷致大鼠神经元退变的保护作用及机制
3.Effects of caffeic acid on brain damage induced by chronic aluminum overload in rats咖啡酸对慢性铝过负荷致大鼠脑损伤的保护作用
4.Protective effect of meloxicam on chronic aluminum overload-induced neurodegeneration of rats美乐昔康对慢性铝过负荷致大鼠神经元退变的保护作用研究
5.Preliminary Study on the Roles of SOD2 and Metal Ions Involved in the Process of Neuron Damage Induced by Chronic Aluminum Overload;慢性铝过负荷致小鼠神经元退变与SOD2表达和金属离子关系的初步研究
6.Study on the Relationship between Cu-Zn SOD Expression and the Neurodegeneration Caused by Chronic Aluminum Overload in Mice;Cu-Zn SOD表达与铝过负荷致小鼠神经元退行性变的关系研究
7.Effect of meloxicam on cyclooxygenase 2 expression of chronic aluminum overload-induced nerve degenaration in rat hippocampus美洛昔康对慢性铝超负荷致神经元退变大鼠海马环氧化酶2表达的影响
8.The Synthesis and Removing Aluminum Effect and the Mechanism of DFP Protecting Against Chronic Aluminum-Exposed Animals;DFP的合成、排铝作用及对慢性荷铝动物的保护机制的研究
9.Study on Protective Effects of Total Alkaloids from Rhizoma Coptis Chinensis Against Neurodegeneration Induced by Chronic Aluminum Overload in Rats;黄连总碱对铝过负荷致神经元退变保护作用的研究
10.Study of Relationship between the Behaviour Disfunction and the Imblance of Intracerebrol Metal Ion Induced by Aluminum Overloading in Mice;铝过负荷致小鼠学习记忆功能障碍与脑内金属离子失衡关系研究
11.overload current过载电流过负荷电流
12.The Relationship between the Serum HBVDNA Quantification and AICD of Peripheral Blood Mononuclear Cells and the Expression of FasL in Chronic Hepatitis B;慢性乙型肝炎病毒负荷与外周血单个核细胞AICD及FasL表达的关系
13.The Study about Heat Stress on Hemodynamics of Animal Model in Chronic Heart Fatlure;热负荷对动物模型慢性心力衰竭血流动力学影响的研究
14.The Effects of Low and Moderate Intensity Exercises and Psychological Stress on Immune System;中小负荷运动及慢性情绪应激对免疫机能的影响
15.Effect of chronic salt loading on vascular endothelium markers in normotensive salt-sensitive people慢性盐负荷对血压正常盐敏感者血管内皮标志物的影响
16.Effects of Xinfukang oral liquid on myocardial energy metabolism in chronic pressure overload rats心复康口服液对慢性压力超负荷大鼠心肌能量代谢的影响
17.Dynamic changes of electrical remodeling in midmyocardium of rabbit left ventricle during the early stage of chronic pressure-overload慢性压力超负荷早期兔左心室肌中层细胞电重构的动态变化
18.Effects of Qiangxinyiqi decoction on myocardium remodeled rats with chronic pressure overload强心益气汤对慢性压力超负荷大鼠心室重构的影响
相关短句/例句
Aluminum overload铝过负荷
1.Method:Aluminum overload models were established by injection of 3μl AlCl3 into lateral ventricle of miceeach day for 5d.5%的AlCl3 3μl,连续给药5天,建立不同量铝过负荷致脑损伤小鼠模型。
2.Objective To study the protective effects and mechanisms of meloxicam on neurodegeneration induced by chronic aluminum overload in rats.目的:观察美洛昔康对慢性铝过负荷致大鼠神经元退变的保护作用及其机制。
3)aluminum-overload铝过负荷
1.Protection and mechanism of berberine against chronic brain injury induced by aluminum-overload in rats;小檗碱对铝过负荷致小鼠慢性脑损伤的保护作用及机制
2.Animal model:Aluminum-overloaded model was established by intragastric administration of aluminum gluconate(equal to Al 400 mg/kg)to mice once a day,5 times per week,for 12 weeks.目的:观察在铝过负荷致小鼠脑神经元退行性变时程中小鼠大脑内Cu-Zn SOD酶蛋白表达量、活性变化以及与酶蛋白相关金属离子水平变化规律,分析铝过负荷致神经元退行性变的可能机制。
4)Chronic pressure overload慢性压力超负荷
1.Method:Chronic pressure overload rats were mimicked by partly a- orta eoaretation.目的:研究参附注射液对慢性压力超负荷大鼠的血流动力学、左室重量、心肌组织病理学及心肌细胞超微病理结构的影响。
5)pressure overload慢性压力负荷
1.Serial high-frequency ultrasound assessment of progressive changes in left ventricular structure and function in rats with chronic pressure overload;高频超声显像评价慢性压力负荷大鼠心肌结构和功能的动态变化(英文)
6)chronic pressure afterload慢性压力后负荷
1.Objective:Our purpose was to establish an ideal chronic pressure afterload heart failure rat model which has the transition from cardiac hypertrophy to heart failure.结论 :此方法有效且重复性好 ,可较理想地模拟慢性压力后负荷心肌肥厚—心力衰竭的转变 ,对心衰机制的研究有重要价
延伸阅读
电力系统甩负荷过电压电力系统甩负荷过电压load rejection overvoltage in electric power system 由于甩掉负荷和发电机加速旋转而产生的工颇过电压。在长线路传输大功率的悄况下,首端母线电压等于额定电压,而首端发电机的等效电动势E则高于此顿定电压.当由于故障等原因,使线路首端断路器QBI开断后(见图).负荷被甩掉,而原动机调速器和发电机自动调压装置因惯性在一开始起不到调节作用,母线电压就从额定电压上升到E,这是形成甩负荷过电压的第一个因素。此外,由于空载发电机继续受到驱动而加速旋转,汽轮发电机在短时间内的转速可增至原来的1.10~1.15倍,水轮发电机转速可增至原转速的1.3。倍以上,电源电动势和母线电压将按上述同样倍数而继续增大,这是形成甩负荷过电压的另一个因素。 断路器QFI或QFZ分闸后的甩负荷接线图 如果线路末端断路器QFZ首先分闸.由于长线路的电容效应,线路电压进一步升高,同时,由于电源频率随着发电机的转速正比增大.长线路电容效应将更为强烈,使得线路电压升得更高。 甩负荷后,发电机转速和线路电压约在数秒钟内到达最大值,线路最高电压可达额定值的1.5~1.6倍,然后由于原动机调速器和发电机自动调压装里的作用,首端母线电压将逐渐下降到额定值。麟录巍器疑豁。ny飞loadvoltage in eleetrie和wer system)rejeetlon over- 电力系统中
