1) ME content
代谢能量
2) energy metabolism
能量代谢
1.
Effect of cold exposure on energy metabolism of rats;
冷暴露对大鼠机体能量代谢影响
2.
Effect of salvianolic acid B on brain energy metabolism and hydrocephalus of cerebral ischemia in mice at different time;
丹酚酸B对小鼠脑缺血不同时间脑能量代谢及脑水肿的作用
3.
Effects of Simultaneous Antegrade/Retrograde Cardioplegia on Cellular Volumes and Energy Metabolism;
顺/逆行同时心肌灌注对于细胞容量和能量代谢影响的研究
3) energy expenditure
能量代谢
1.
Clinical study on respiratory dynamics and energy expenditure between synchronized intermittent mandatory ventilation (SIMV) with different inspiratory flow modes and pressure regulatedvolume control ventilation (PRVC);
不同流速模式同步间歇指令通气和压力调节容量控制通气的呼吸力学与能量代谢
2.
Character of energy expenditure in gastrointestinal fistula patients;
肠瘘病人的能量代谢特点
4) metabolism
[英][mə'tæbəlɪzəm] [美][mə'tæbə'lɪzəm]
能量代谢
1.
Effect and Mechanisms of Isoflurane on energy metabolism after Ischemia in Isolated Rat Hearts [WT5BZ];
异氟烷对离体大鼠心脏缺血后能量代谢的影响及其机制
2.
Changes of cardio-respiratory function, metabolism and muscular adaptations in detrained athletes;
运动员停训后心肺功能、能量代谢和骨骼肌代谢的变化
3.
Objective To study the effects of trimetazidine(TMZ) on myocardial metabolism in rabbits with congestive heart failure and its cardioprotective effect.
目的探讨曲美他嗪(TMZ)对慢性心衰家兔心肌能量代谢的影响及其保护作用。
5) energetic metabolism
能量代谢
1.
Carbon and energetic metabolism of Synechococcus sp.PCC7942 under photoautotrophic conditions
聚球藻7942光自养培养的碳代谢和能量代谢
2.
This article summarized recent advances in studies on energetic metabolism,such as cytokine,hormone,and receptors.
营养治疗在慢性阻塞性肺疾病等慢性疾病的治疗中起着积极的作用,对能量代谢的研究促进了营养治疗的量化及个体化施治。
6) metabolism of energy
能量代谢
1.
Objective To observe the improving effect of acupuncture zhongchong on the metabolism of energy in mice with acute hypoxia.
[目的]观察针刺中冲能否改善急性缺氧小鼠的能量代谢。
2.
This paper analysed and disoussed some traditional views of physical fitness training through literature review,such as metabolism of energy of badminton,anaerobic threshold training relation between general physical fitness and specifio physical fitness,and the principle of power training.
本文通过文献综述法, 对我国羽毛球界在项目能量代谢特征、无氧阈训练、专项体能与一般体能的关系及爆发力训练原理等方面的传统认只进行了剖析和再论证, 指出: 无氧糖酵解在羽毛球供能体系中占重要地位, 无氧阈训练能更有效地提高爆发力, 且对改善力量耐力也有明显的促进作
补充资料:代谢能
分子式:
CAS号:
性质: 代谢是生物体利用食物转化成生活原生质和贮存物,产生能量,排除废物等一系列的生化过程,实质上也是一系列化学反应过程。它包括营养物质的转化、能量的转换、合成和降解过程、废物的排出以及生物体所有其他机能。进行上述过程所需要的能量称为代谢能,在体内其能量主要来自于三磷酸腺苷(ATP)循环。
CAS号:
性质: 代谢是生物体利用食物转化成生活原生质和贮存物,产生能量,排除废物等一系列的生化过程,实质上也是一系列化学反应过程。它包括营养物质的转化、能量的转换、合成和降解过程、废物的排出以及生物体所有其他机能。进行上述过程所需要的能量称为代谢能,在体内其能量主要来自于三磷酸腺苷(ATP)循环。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条