中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2009年
28期
5534-5538
,共5页
运动预处理%运动性肌肉损伤%白细胞介素6%肌酸激酶同工酶
運動預處理%運動性肌肉損傷%白細胞介素6%肌痠激酶同工酶
운동예처리%운동성기육손상%백세포개소6%기산격매동공매
背景:运动预处理可在一定程度上减轻运动性骨骼肌微损伤,从而避免延迟性肌肉酸痛的发生.目前应用白细胞介素6和CK-MM评定骨骼肌微细损伤还较缺少实验性研究.目的:观察运动预处理对大鼠大强度离心运动后不同时相骨骼肌结构损伤及血液白细胞介素6、肌酸激酶和CK-MM变化的影响.设计、时间及地点:随机对照动物实验,2006/2007在成都体育学院动物实验室完成.材料:成年健康雌性SD大鼠80只,体质量(231.3±12.44)g.每组义随机分别分为运动前和运动后即刻、运动后24,48,72 h 5个亚组,每组8只.方法:无预处理组:除对运动前组外其他大鼠进行一次速度19~21 m/min,坡度为-16°的90 min的跑台运动.运动预处理组:进行2周离心跑台训练,2周后,除运动前组外,其他大鼠进行一次性跑台运动,运动方式同无预处理组.主要观察指标:一次性离心运动后即刻、24,48和72 h观察比目鱼肌结构及血液白细胞介素6、肌酸激酶、CK-MM的变化.结果:运动后两组大鼠比目鱼肌均出现损伤性改变,尤以无预处理组更为明显,且以运动后24~48 h较为严重.无预处理组运动后即刻血浆白细胞介素6显著增高,随后逐渐下降,72 h再次显著增高.运动预处理组运动后即刻略降低,随后逐渐升高,于48 h达峰值.运动后运动预处理组血浆白细胞介素6水平低于无预处理组.运动前运动预处理组肌酸激酶和CK-MM均低于无预处理组.运动后无预处理组、运动预处理组两组肌酸激酶和CK-MM先升后降,除运动后72 h外.运动预处理组CK和CK-MM水平及变化幅度低于无预处理组.结论:运动预处理有助于减轻离心运动导致的骨骼肌超微结构损伤及运动应激所引起的相关血液指标变化.肌酸激酶和CK-MM活性水平的个体差异较大,更适用于个体自身的纵向比较.
揹景:運動預處理可在一定程度上減輕運動性骨骼肌微損傷,從而避免延遲性肌肉痠痛的髮生.目前應用白細胞介素6和CK-MM評定骨骼肌微細損傷還較缺少實驗性研究.目的:觀察運動預處理對大鼠大彊度離心運動後不同時相骨骼肌結構損傷及血液白細胞介素6、肌痠激酶和CK-MM變化的影響.設計、時間及地點:隨機對照動物實驗,2006/2007在成都體育學院動物實驗室完成.材料:成年健康雌性SD大鼠80隻,體質量(231.3±12.44)g.每組義隨機分彆分為運動前和運動後即刻、運動後24,48,72 h 5箇亞組,每組8隻.方法:無預處理組:除對運動前組外其他大鼠進行一次速度19~21 m/min,坡度為-16°的90 min的跑檯運動.運動預處理組:進行2週離心跑檯訓練,2週後,除運動前組外,其他大鼠進行一次性跑檯運動,運動方式同無預處理組.主要觀察指標:一次性離心運動後即刻、24,48和72 h觀察比目魚肌結構及血液白細胞介素6、肌痠激酶、CK-MM的變化.結果:運動後兩組大鼠比目魚肌均齣現損傷性改變,尤以無預處理組更為明顯,且以運動後24~48 h較為嚴重.無預處理組運動後即刻血漿白細胞介素6顯著增高,隨後逐漸下降,72 h再次顯著增高.運動預處理組運動後即刻略降低,隨後逐漸升高,于48 h達峰值.運動後運動預處理組血漿白細胞介素6水平低于無預處理組.運動前運動預處理組肌痠激酶和CK-MM均低于無預處理組.運動後無預處理組、運動預處理組兩組肌痠激酶和CK-MM先升後降,除運動後72 h外.運動預處理組CK和CK-MM水平及變化幅度低于無預處理組.結論:運動預處理有助于減輕離心運動導緻的骨骼肌超微結構損傷及運動應激所引起的相關血液指標變化.肌痠激酶和CK-MM活性水平的箇體差異較大,更適用于箇體自身的縱嚮比較.
배경:운동예처리가재일정정도상감경운동성골격기미손상,종이피면연지성기육산통적발생.목전응용백세포개소6화CK-MM평정골격기미세손상환교결소실험성연구.목적:관찰운동예처리대대서대강도리심운동후불동시상골격기결구손상급혈액백세포개소6、기산격매화CK-MM변화적영향.설계、시간급지점:수궤대조동물실험,2006/2007재성도체육학원동물실험실완성.재료:성년건강자성SD대서80지,체질량(231.3±12.44)g.매조의수궤분별분위운동전화운동후즉각、운동후24,48,72 h 5개아조,매조8지.방법:무예처리조:제대운동전조외기타대서진행일차속도19~21 m/min,파도위-16°적90 min적포태운동.운동예처리조:진행2주리심포태훈련,2주후,제운동전조외,기타대서진행일차성포태운동,운동방식동무예처리조.주요관찰지표:일차성리심운동후즉각、24,48화72 h관찰비목어기결구급혈액백세포개소6、기산격매、CK-MM적변화.결과:운동후량조대서비목어기균출현손상성개변,우이무예처리조경위명현,차이운동후24~48 h교위엄중.무예처리조운동후즉각혈장백세포개소6현저증고,수후축점하강,72 h재차현저증고.운동예처리조운동후즉각략강저,수후축점승고,우48 h체봉치.운동후운동예처리조혈장백세포개소6수평저우무예처리조.운동전운동예처리조기산격매화CK-MM균저우무예처리조.운동후무예처리조、운동예처리조량조기산격매화CK-MM선승후강,제운동후72 h외.운동예처리조CK화CK-MM수평급변화폭도저우무예처리조.결론:운동예처리유조우감경리심운동도치적골격기초미결구손상급운동응격소인기적상관혈액지표변화.기산격매화CK-MM활성수평적개체차이교대,경괄용우개체자신적종향비교.
BACKGROUND: Exercise preconditioning can lighten exercise-induced muscle damage, thereby to avoid delayed onset muscle soreness. At present, experimental research is scarce that apply intedeukin-6 (IL-6), creatine kinase (CK) and creatine kinase isoenzyme (CK-MM) to evaluate skeletal muscle damage.OBJECTIVE: To observe the effects of exercise precondiUoning on muscle damage at different phases after eccentric exercise and changes of blood IL-6, CK and CK-MM.DESIGN, TIME AND SETTING: The randomized control animal expedmant was carded out in the Animal Laboratory of Chengdu Sports University between 2006 and 2007. MATERIALS: Eighty female adult SD rats, weighing (231.3+12.44) g, were adopted. Eighty rats were randomly divided into without exercise preconditioning group (n=40) and exercise preconditioning group (n=40). Each group was assigned into 5 subsets, termed before exercise, immediately after exercise, 24, 48, 72 hours after exercise, with 8 rats in each subset. METHODS: Except before exercise subset, other rats in the without exercise preconditioning group were forced to do treadmill exercise (19-21 m/min, -16° incline, 90 minutes). All rats of exercise preconditioning group were forced to do eccentric treadmill exercise for two weeks. After two weeks, treadmill test was made for rats except before exercise subset. MAIN OUTCOME MEASURES: Soleus muscle structure, blood IL-6, CK and CK-MM immediately, 24, 48, 72 hours after eccentric exercise.RESULTS: The soleus muscle was damaged after exercise, especially in without exercise preconditioning group at 24-48 hours after exercise. Blood IL-6 of without exercise preconditioning group increased significantly immediately after exercise and then gradually decreased, but again raised at 72 hours after exercise. In the exercise preconditioning group, blood IL-6 slightly reduced immediately after exercise and then gradually increased. Peak value appeared at 48 hours. After exercise, IL-6 of exercise preconditioning group was obviously lower than that of without exercise preconditioning group. Before exercise, serum CK and CK-MM of exercise preconditioning group were less than that of without exercise preconditioning group. After exercise, the CK and CK-MM were firstly raised and then reduced in two groups. Except 72 hours after exercise subset, the variation of CK and CK-MM of exercise preconditioning group was lower than that of without of exercise preconditioning group. CONCLUSION: Exercise preconditioning is redounded to lighten the ultrastructure injury of skeletal muscle induced by eccentric exercise and blood indices changes induced by exercise stress. The individual variation of CK and CK-MM is so tremendous that they fit the comparison of intrasubject variability.