实验研究证明,异叶青兰有提高机体抗缺氧耐力的作用。其作用机制可能与维持脑、心组织中生物能的正常代谢有关。我们观察了几个代谢环节,包括:(1)神经介质:CA、ACh、5-HT、组胺、GABA、GA;(2)内分泌:皮质醇、皮质酮、醛固酮、甲状腺素(T_3、T_4);(3)CAMP;(4)酶活力:细胞色素氧化酶、琥珀酸脱氢酶、超氧化物歧化酶。发现缺氧时青兰对这些重要代谢环节有调节作用。在对减压缺氧的恒河猴行为观察中,发现青兰可明显改善猴的缺氧状态。同样,在现场人体观察中,发现青兰可明显减少高山反应发生率并减轻高山反应症状。 Experimental studies have shown that different Ye Qinglan have improved the body’s role in anti-hypoxia endurance. Its mechanism of action may be related to the maintenance of normal metabolism of bioenergy in brain and heart tissue. (2) Endocrine: cortisol, corticosterone, aldosterone, thyroxine (T_3, T_4), thyroid hormone ); (3) CAMP; (4) enzyme activity: cytochrome oxidase, succinate dehydrogenase, superoxide dismutase. Found that hypoxia Qinglan on these important metabolic processes have a regulatory role. In the hypoxic hypoxia rhesus monkey behavior observation, we found that blue lanterns can significantly improve the hypoxia state of the monkey. Similarly, in field human observation, we found that Qinglan can significantly reduce the incidence of alpine reactions and reduce the symptoms of alpine reactions.