CONCLUSION Hyperoxic CPB leads to direct myocardial and cerebral injury induced by oxygen free radical.
结论高氧分压体外循环再氧合可导致心肌和脑组织氧自由基介导的再氧合损伤;
Objective: To explore the mechanism and therapeutical effect of anti-oxidation on hyperoxic lung injury.
目的:探讨抗氧化剂治疗高氧肺损伤的疗效及机制。
Objective To evaluate the efficacy and safety of hyperoxic solution in treatment of acute cerebral infarction.
目的通过临床研究,对高氧液治疗急性脑梗死的疗效和安全性进行客观评价。
AIM To observe the protective effects of hyperoxic liquid on myocardial ischemia reperfusion injury in rabbits.
目的观察高氧液对家兔心肌缺血再灌注损伤的保护作用。
Conclusion Hyperoxic liquid preconditioning can protect rabbit myocardial injury caused by ischemic reperfusion.
结论高氧液预处理对家兔在体心肌缺血再灌注损伤具有明显的保护作用。
Objective To study the protective effect of hyperoxic liquid preconditioning in myocardial ischemia-reperfusion injury.
目的探讨高氧液预处理对兔心肌缺血再灌注损伤的保护作用。
The growth does seem to vary by species, however, since cockroaches exhibited no notable growth in the hyperoxic environment.
然而,不同物种在高氧环境下的反应不尽相同,蟑螂就没有表现出明显的变化。
Objective To observe and explore the effects of compound hyperoxic sodium chloride solution on the management of burn shock.
目的观察并探讨高氧复方氯化钠溶液对烧伤休克的防治作用。
Objective To investigate protective effects of reperfusion with hyperoxic solution on acute cerebral ischemia in the rabbits.
目的探索高氧液对兔急性全脑缺血再灌注损伤的保护作用。
Results: (1) Hyperoxic lung injury was mainly featured with destroyed alveoli, thickened alveoli septum and the deposition of collagen fibers.
结果:1高氧组肺损伤主要表现为肺泡结构破坏、大小不一、肺间隔增厚以及胶原纤维沉积。
Conclusion: Hyperoxic liquid can improve the situation of myocardial ischemia, and is a safe and effective method of giving oxygen by intravenous drip.
结论:高氧液可以改善心肌缺血状况,是静脉输液给氧的有效途径。
CONCLUSION: Application of hyperoxic Ringer's solution during the early post injury stage is obviously beneficial to the improvement of pulmonary injury.
结论:早期应用高氧平衡盐溶液对改善肺功能有显著效果。
Destroyed alveolars, decreased number of alveoli, local atelectasis and thickened alveoli septum were observed in the hyperoxic-damaged lungs of the 7th and 14th day.
结果:1.7天和14天高氧组肺组织出现肺泡结构破坏明显、肺泡大小不等、数目较少、局部肺不张、肺间隔明显增厚;
The study was constructed to provide more insight into the effects a hyperoxic environment — like the kind our planet enjoyed in the late Paleozoic — might have had on animal gigantism.
开展这项研究是为了进一步掌握高氧环境(类似地球在古生代晚期的环境)对动物体型巨大产生的影响。
Conclusion Hyperoxic solution possesses antifatigue effect, thus can improve moving capability. The mechanism may associate with the increased oxygen supply and anti lipid peroxidation effect.
结论高氧液有显著的抗急性运动性疲劳作用,其机制可能与高氧液增加氧供及抗脂质过氧化有关。
Conclusion Hyperoxic solution possesses antifatigue effect, thus can improve moving capability. The mechanism may associate with the increased oxygen supply and anti lipid peroxidation effect.
结论高氧液有显著的抗急性运动性疲劳作用,其机制可能与高氧液增加氧供及抗脂质过氧化有关。
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