Previous findings from our laboratory have demonstrated that simulated microgravity may result in atrophic change and depressed vasoconstrictor responsiveness in hindquarter vessels, and hypertrophic change in cerebral arteries.
本实验室前期工作已发现,模拟失重可引起大鼠后身动脉血管发生萎缩性改变和收缩反应性降低,以及脑部血管肥厚的分化性适应变化。
参考来源 - 模拟失重下脑血管的适应性变化及间断性重力作用的对抗效果Objective To study the effect of microfilament cytoskeleton changes induced by simulated microgravity on the NO/NOS system of osteoblasts, and explore the mechanism of weightlessness leading to osteoporosis.
目的研究模拟微重力诱导细胞微丝结构变化对一氧化氮/一氧化氮合酶(NO/NOS)系统的调控作用,探讨失重导致骨质疏松的机制。
参考来源 - 模拟微重力诱导成骨细胞微丝变化对一氧化氮/一氧化氮合酶系统的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
Cell growth in simulated microgravity environment: cells were prone to aggregate, and much higher cell density was generated.
微重力环境下细胞的生长:细胞易于聚集,产生更高的细胞密度。
The paper studies the heat, mass transfer and some basic problems of SHS under gradient strong magnetic field simulated microgravity.
本文主要开展梯度强磁模拟微重力环境下SHS过程的传热传质等基础性研究。
The mode number of chromosomes also varies with the multiple polar spindle rates from 61 to 62 after simulated microgravity for 72hours.
伴随着纺锤体多极率的增加,微重力72小时后,细胞的染色体众数由61变为62。
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