Conclusion The oxidative stress state of mice changed obviously in simulated air diving environment and hyperbaric oxygen may play an important role in it.
结论在空气模拟潜水条件下小鼠氧化应激状态发生显著变化,高分压氧在其中扮演了极为重要的角色。
Conclusion In simulated air diving, rats suffered stress but adaptation rapidly occurred.
结论空气模拟潜水对大鼠是应激刺激,但很快能适应;
The changes of mice peritoneal cavity macrophages' functions in simulated air diving environment may be related to its own oxidative stress states.
小鼠腹腔巨噬细胞功能在空气模拟潜水条件下受到显著抑制可能与其自身氧化应激状态发生变化有关。
Objective:To examine the protective effect of N acetylcysteine (NAC) on the immunosuppression after repetitive simulated air diving in rats.
目的 :观察N-乙酰半胱氨酸 (NAC)对大鼠模拟空气反复潜水后免疫抑制的预防作用。
Objective:To examine the protective effect of N acetylcysteine (NAC) on the immunosuppression after repetitive simulated air diving in rats.
目的 :观察N-乙酰半胱氨酸 (NAC)对大鼠模拟空气反复潜水后免疫抑制的预防作用。
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