deconditioning
英
美
网络 去条件作用; 去适应; 适应状态; 失用; 条件作用
双语例句
- Anti-effects of X-prescription on Cardiovascular Deconditioning in Rats after 7 d Tail Suspension
中药X方剂对7d尾部悬吊大鼠心血管脱锻炼的对抗效应 - Objective To study the effects of hypovolemia on cardiovascular response to orthostatic stress, and to investigate the role of hypovolemia in the mechanism of cardiovascular deconditioning and orthostatic intolerance induced by space weightlessness.
目的研究不同程度的血容量减少对心血管系统立位应激反应的影响,探讨血容量降低在航天失重后心血管失调和立位耐力降低机理中的意义。 - AIM Artificial gravity is considered one of the most effective and rational countermeasures to cardiovascular deconditioning after spaceflight.
目的间断性人工重力被认为是对抗长期失重下心血管系统脱适应的最有效、合理措施之一。 - Studies on the mechanisms of postflight cardiovascular deconditioning and its countermeasures have important theoretical and practical implications to fully unravel the cardiovascular effects of microgravity and to realize the manned-spaceflight project in the new millennium.
航天飞行后心血管失调发生机理及其对抗措施研究对阐明微重力心血管影响基本规律及实现新世纪载人航天目标具有重要的理论与实际意义。 - The mechanism of Qi Gong to prevent the cardiovascular deconditioning of weightlessness osteoporosis q& a on sex
气功防治失重性心血管功能失调的机理 - Objective To disclose the changes in pathophysiology of cardiovascular deconditioning ( CVD) induced by tail-suspension ( TS) and to explore the effects of NOS inhibitor on CVD in TS rats.
目的揭示模拟微重力大鼠心血管脱锻炼(CVD)病理生理学变化; - Objective To investigate the effects of head down bed rest ( HDBR), the simulated weightlessness, on the diastolic function of human left ventricle, and to discuss its role in cardiovascular deconditioning after space flight.
目的观察模拟失重条件对人体左心舒张功能的影响,探讨其在航天后心血管功能失调中的作用。 - Exposure to weightlessness/ microgravity during space flight may lead to an altered state of cardiovascular function in crewmembers termed "cardiovascular deconditioning", manifested most clearly by their orthostatic intolerance.
航天飞行过程中,航天人员暴露于失重(微重力)环境将导致机体心血管功能状态的变化,称作心血管脱锻练,其主要表现为立位耐力不良。 - The recent observations during spaceflight have suggested that adaptive alterations in the arterial vasculature may play a pivotal role in the occurrence of postflight cardiovascular deconditioning.
近年航天观察已提示,脑血管的适应性变化在飞行后立位耐力不良发生中可能起重要作用。