体育研究与教育
體育研究與教育
체육연구여교육
Journal of Physical Education Institute of Shanxi Teachers University
2012年
2期
119-122
,共4页
雷志军%郑澜%凡婷%陈伊琳%林丽容
雷誌軍%鄭瀾%凡婷%陳伊琳%林麗容
뢰지군%정란%범정%진이림%림려용
有氧运动%衰老%心肌%抗氧化酶%线粒体
有氧運動%衰老%心肌%抗氧化酶%線粒體
유양운동%쇠로%심기%항양화매%선립체
aerobic exercise%aging%myocardium%antioxidant enzymes%mitochondria
目的:探讨长时间递增负荷有氧运动对老龄雌性大鼠心肌抗氧化酶活性和心肌线粒体超微结构的影响。方法:健康雌性18月龄SD大鼠30只,随机分为两组:老龄运动组和老龄对照组,每组15只;另安排15只3月龄SD大鼠作为年青对照组。采用20周递增负荷跑台运动建立中老年大鼠有氧运动模型,运动方案结束后取心肌组织,检测心肌组织SOD、GSH-Px、CAT活性和MDA含量,并采用透射电镜观察大鼠心肌组织线粒体超微结构的变化。结果:(1)递增有氧运动能显著提高心肌SOD、GSH-Px活性,显著降低心肌MDA含量,但CAT活性未见显著提高;(2)递增有氧运动能改善心肌线粒体因衰老导致的形态改变,延缓心肌线粒体退行性变化。结论:(1)递增有氧运动能提高老龄大鼠心肌抗氧化酶活性,降低老龄运动组大鼠心肌MDA含量,保护心肌组织因衰老而导致的自由基的损害;(2)长期递增有氧运动能改善老龄大鼠心肌线粒体结构,保护线粒体膜和嵴的完整性,延缓心肌线粒体因衰老而导致的退行性变化。
目的:探討長時間遞增負荷有氧運動對老齡雌性大鼠心肌抗氧化酶活性和心肌線粒體超微結構的影響。方法:健康雌性18月齡SD大鼠30隻,隨機分為兩組:老齡運動組和老齡對照組,每組15隻;另安排15隻3月齡SD大鼠作為年青對照組。採用20週遞增負荷跑檯運動建立中老年大鼠有氧運動模型,運動方案結束後取心肌組織,檢測心肌組織SOD、GSH-Px、CAT活性和MDA含量,併採用透射電鏡觀察大鼠心肌組織線粒體超微結構的變化。結果:(1)遞增有氧運動能顯著提高心肌SOD、GSH-Px活性,顯著降低心肌MDA含量,但CAT活性未見顯著提高;(2)遞增有氧運動能改善心肌線粒體因衰老導緻的形態改變,延緩心肌線粒體退行性變化。結論:(1)遞增有氧運動能提高老齡大鼠心肌抗氧化酶活性,降低老齡運動組大鼠心肌MDA含量,保護心肌組織因衰老而導緻的自由基的損害;(2)長期遞增有氧運動能改善老齡大鼠心肌線粒體結構,保護線粒體膜和嵴的完整性,延緩心肌線粒體因衰老而導緻的退行性變化。
목적:탐토장시간체증부하유양운동대노령자성대서심기항양화매활성화심기선립체초미결구적영향。방법:건강자성18월령SD대서30지,수궤분위량조:노령운동조화노령대조조,매조15지;령안배15지3월령SD대서작위년청대조조。채용20주체증부하포태운동건립중노년대서유양운동모형,운동방안결속후취심기조직,검측심기조직SOD、GSH-Px、CAT활성화MDA함량,병채용투사전경관찰대서심기조직선립체초미결구적변화。결과:(1)체증유양운동능현저제고심기SOD、GSH-Px활성,현저강저심기MDA함량,단CAT활성미견현저제고;(2)체증유양운동능개선심기선립체인쇠로도치적형태개변,연완심기선립체퇴행성변화。결론:(1)체증유양운동능제고노령대서심기항양화매활성,강저노령운동조대서심기MDA함량,보호심기조직인쇠로이도치적자유기적손해;(2)장기체증유양운동능개선노령대서심기선립체결구,보호선립체막화척적완정성,연완심기선립체인쇠로이도치적퇴행성변화。
Objective:To explore the effect of long-term progressive aerobic exercise on activity of myocardial antioxidant enzyme and the mitochondria morphology in aged female rats.Materials and methods:30 18-months-old female SD rats were randomly divided into aged control group and aged exercise group,and 15 3-months-old female SD rats were as young control group.20 weeks progressive aerobic treadmill exercise was applied to establish animal model of aerobic exercise.Activity of SOD,GSH-Px,CAT and content of MDA in myocardial tissue were tested,and mitochondria was observed using transmission electron microscope.Results:Progressive aerobic exercise can significantly increase myocardial SOD,GSH-Px activity,significantly decrease myocardial MDA content.Meanwhile regular progressive aerobic exercise can delay degenerative change of structure in myocardial mitochondria caused by aging.Conclusion:(1) Regular aerobic exercise can improve myocardial antioxidant enzyme activity,decrease MDA content,protect myocardial tissue caused by aging free radical damage,and delay senescence in cardiac muscle of old rats,(2) Long-term regular aerobic exercise can improves structure of myocardial mitochondria in aged rats,protect the mitochondrial membrane and the integrity of the mitochondrialcristae,delay the degenerative change of mitochondria by aging.
