摘要
将40只SD雄性大鼠随机分为安静2组(常氧对照组和间歇低氧对照组)和运动2组 (常氧运动组和间歇低氧运动组),人工制造14.5%低氧(O2)环境,4周后对各组大鼠血清总蛋白(TP)和白蛋白(Alb)进行检测.检测结果显示:常氧运动组血清TP、Alb最高,与其他各组比较具有统计学意义(p<0.05);而间歇低氧运动组的血清TP、Alb虽然比常氧对照组低,但与间歇低氧对照组比较有上升趋势.结论:低氧环境下可使机体蛋白质代谢受阻, 但4周的间歇低氧运动可提高蛋白质代谢适应能力,有利于身体机能能力的提高.
40 SD male rats were divided into four groups randomly. Two of them were quiet (including the Standard-O2 Comparative Group and the Intermittent Low-O2 Comparative Group). The other two were motive (including the Standard-O2 Motive Group and the Intermittent Low-O2 Motive Group ).A man-made 14.5% low-O2 environment was created. Four weeks later,the rats' AP and Alb contents in serum of every group wcrc checked and measured. The result shows as follows: the TP and Alb contents in serum of the Standard-O2 Motive Group are the highest,which are of Statistics significant (p 〈0.05) ; Though the content of the TP in serum of the Intermittent Low-O2 Motive Group is lower than that of the Intermittent Low-O2 Motive Group, it tends to rise higher by comparing with the TP and Alb content in serum of the Intermittent Low-O2 Comparative Group. The conclusion is : the organism's protein will be restrained while metabolizing in low-O2 environment, but 4 weeks' intermittent low-O2 movement causes the adaptation of protein's metabolism and is good for promoting body's functional ability.
出处
《韩山师范学院学报》
2006年第3期74-76,共3页
Journal of Hanshan Normal University
关键词
低氧运动
大鼠
血清蛋白
影响
low-O2 movement
rat
protein in serum
effect
