目的探讨低氧预处理对大鼠晕船程度及对脑区与血清中铁含量的影响。
Objective to investigate the effect of hypoxic preconditioning on severity of seasickness, and to detect iron concentrations in brain and serum of rat.
目的探索线粒体ATP敏感钾通道在低氧预处理抗低氧性肺损伤中的作用。
Objective To observe the Role of Mitochondrial ATP Sensitive Potassium Channel in Hypoxic Preconditioning Against Hypoxic Pulmonary Injury.
结果5分钟的低氧预处理可对细胞低氧复氧所引起的损伤提供显著的保护作用。
Results A 5-minute hypoxic preconditioning offered a significant protection from cell injury in subsequent hypoxia-reoxygenation.
本文用新生大鼠下丘脑培养细胞,研究了低氧预处理对下丘脑细胞缺氧耐受性的影响及其与线粒体膜电位的关系。
The relationship between enhanced anoxic tolerance induced by hypoxic preconditioning and mitochondrial membrane potential (MMP) was studied in cultured hypothalamic cells.
结果低氧预处理使晕船大鼠高岭土摄入量增多,并进一步降低晕船时多脑区的铁铜水平,高岭土摄入量与多脑区铁铜水平之间存在相关性。
Results HPC increased kaolin intake in rats and further reduced the iron and copper levels in those regional brains. Correlations between them were revealed.
结论分离的豚鼠心肌细胞可用短时间的低氧作预处理。
Conclusion Isolated guinea pig cardiomyocytes can be preconditioned with a brief period of hypoxia.
对这些经预处理的细胞给予低氧20-180分钟并再复氧。
The cells were then subjected to 20-180 minutes of hypoxia and reoxygenation.
对这些经预处理的细胞给予低氧20-180分钟并再复氧。
The cells were then subjected to 20-180 minutes of hypoxia and reoxygenation.
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