Difference in F2 Isoprotane Levels in Male Model Mice (Mus musculus L.) in Maximum Physical Exercise Without Supplementation

E. Yuniarti, M. Des, P. M. Indika
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Abstract

Vigorous physical exercise that exceeds the limit of fatigue can increase the formation of free radicals that lead to oxidative stress. One of the biomarkers used to determine the presence of oxidative stress is the level of F2isoprostane. This study aims to determine the differences in levels of F2-isoprostan in male model mice (Mus musculus L.) in maximum physical exercise without supplementation. This research is an experiment. The population in this study were 30-35gram male mice aged 8-10 weeks. Based on the provisions in the study, the sample was 30 male mice that met the criteria. Examination of samples using ELISA reader and data processed in tables and graphs. The results of statistical tests obtained p value <0.05 (p <0.01), it can be concluded that there is a difference in F2-isoprostane levels between the groups that were not given weight training and those who were given maximum weight training. Where the levels of F2-isoprostane given maximum weight, training were 2 times greater than those not given weight training.
最大运动条件下雄性模型小鼠(小家鼠)F2异丙烷水平的差异
超过疲劳极限的剧烈体育锻炼可以增加自由基的形成,从而导致氧化应激。用于确定氧化应激存在的生物标志物之一是f2异前列腺素的水平。本研究旨在确定雄性模型小鼠(Mus musculus L.)在无补充的最大运动条件下f2 -异前列腺素水平的差异。这项研究是一项实验。本研究以8-10周龄30-35克雄性小鼠为研究对象。根据研究中的规定,样本是30只符合标准的雄性小鼠。使用ELISA阅读器检测样品,数据以表格和图表处理。统计学检验结果p值<0.05 (p <0.01),提示未进行重量训练组与最大重量训练组间f2 -异前列腺素水平存在差异。给予最大重量训练的f2 -异前列腺素水平是未给予重量训练的2倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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