北京体育大学学报
北京體育大學學報
북경체육대학학보
Journal of Beijing University of Physical Education
2006年
2期
204~205
,共null页
何伟黎 阎洪亮 徐海兴 姚晓敏
何偉黎 閻洪亮 徐海興 姚曉敏
하위려 염홍량 서해흥 요효민
无氧运动 自由基 抗氧化剂 抗氧化能力
無氧運動 自由基 抗氧化劑 抗氧化能力
무양운동 자유기 항양화제 항양화능력
non-oxygen exercise ; liberty ; antioxidant ; anti-oxygen ability
为了探索外源性抗氧化剂维生素E对足球运动员无氧训练血浆MDA水平和SOD活性的影响,选取20名中南大学湘雅医学院足球队队员,随机分为两组,每组10名,进行试验训练后;测定血浆MDA浓度和SOD活性。结果表明:C组血浆MDA水平于T2升高,持续至R(P〈0.05),VE组于T3、T4升高(P〈0.05),VE组于T2、T3、T4、T5、T6、低于C组;C组血浆SOD活性于T2下降,持续至T3(P〈0.05),而VE组无明显变化,于T2、T3、T4、T5均高于C组(P〈0.05)。由此可见,无氧运动训练引起组织氧耗增加,可导致氧自由基的生成量增多,而抗氧化剂VitE的补充可预防和缓解运动性自由基损伤,增进机体抗氧化能力。
為瞭探索外源性抗氧化劑維生素E對足毬運動員無氧訓練血漿MDA水平和SOD活性的影響,選取20名中南大學湘雅醫學院足毬隊隊員,隨機分為兩組,每組10名,進行試驗訓練後;測定血漿MDA濃度和SOD活性。結果錶明:C組血漿MDA水平于T2升高,持續至R(P〈0.05),VE組于T3、T4升高(P〈0.05),VE組于T2、T3、T4、T5、T6、低于C組;C組血漿SOD活性于T2下降,持續至T3(P〈0.05),而VE組無明顯變化,于T2、T3、T4、T5均高于C組(P〈0.05)。由此可見,無氧運動訓練引起組織氧耗增加,可導緻氧自由基的生成量增多,而抗氧化劑VitE的補充可預防和緩解運動性自由基損傷,增進機體抗氧化能力。
위료탐색외원성항양화제유생소E대족구운동원무양훈련혈장MDA수평화SOD활성적영향,선취20명중남대학상아의학원족구대대원,수궤분위량조,매조10명,진행시험훈련후;측정혈장MDA농도화SOD활성。결과표명:C조혈장MDA수평우T2승고,지속지R(P〈0.05),VE조우T3、T4승고(P〈0.05),VE조우T2、T3、T4、T5、T6、저우C조;C조혈장SOD활성우T2하강,지속지T3(P〈0.05),이VE조무명현변화,우T2、T3、T4、T5균고우C조(P〈0.05)。유차가견,무양운동훈련인기조직양모증가,가도치양자유기적생성량증다,이항양화제VitE적보충가예방화완해운동성자유기손상,증진궤체항양화능력。
In order to explore the effects of external source of anti-oxygen, Vitamin E, on the MDA and SOD of non-oxygen training of football players. This study selected 20 football players of Zhongnan University that were divided into two groups: 10 players each group. After the test training, the MDA and SOD of the plasma were tested. The results of this study indicated that MDA of Group C increased at T2 and the increase lasted to T6 (p 〈 0.05) ; Group VE grew at T3 and T4 (p 〈 0.05) ; Group VE is lower than Group C at T2, T3, T4 , T5, T6. The SOD of Group C decreased at T2, lasted till T5 (p 〈 0.05); however, Group VE had no significant difference and was higher than Group C at T2, T3, T4, T5 (p 〈 0. 05). Accordingly the non-oxygen training resulted in the increase of the oxygen output of the tissue, which led to the increase of the generation of the oxygen-liberty. The supply of the anti-oxygen Vitamin E can prevent and postpone the exercise-produced liberty injury, thereby promoting the anti-oxygen ability.