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
50期
9822-9825
,共4页
运动%肝糖元%凋亡%NO%钙离子
運動%肝糖元%凋亡%NO%鈣離子
운동%간당원%조망%NO%개리자
背景:国内外不少实验证明,不同运动方式容易造成肝损伤,导致不同程度的肝细胞凋亡,其具体机制尚不明确.目的:建立不同强度力竭运动模型,观察运动后大鼠肝细胞凋亡和肝糖元、NO、钙浓度变化.设计、时间及地点:随机对照动物实验,超微结构观察,于2004-01/2006-12在湖南师范大学体育学院运动人体科学实验室、中南大学组胚实验室完成.材料:30只8周龄雄性SD大鼠,体质量(219.2±19.5)g,根据Berdford运动模型将大鼠以随机数字表法分为对照组,中等强度、大强度力竭运动组,每组10只.方法:运动组先进行3 d的适应性跑台训练,速度为10 m/min,坡度为0°.休息3 d后,中等强度力竭运动组初始速度为10 m/min,持续12 min,逐渐增加运动负荷,达到速度为19.3 m/min,持续到力竭.大强度力竭运动组初始速度为26.8 m/min,持续到力竭.共30 d,1次/d.对照组不进行运动训练.主要观察指标:运动后即刻取肝组织检测肝糖元、NO和Ca~(2+)及肝细胞凋亡情况.结果:30只大鼠全部进入结果分析.不同强度力竭运动组大鼠都完成了运动,整个运动过程中未出现拒跑现象,中等强度力竭运动组力竭运动时间为(234.60±60.05)min,大强度力竭运动组力竭运动时间为(92.40+34.61)min.与对照组比较,两种强度力竭运动后,大鼠肝组织肝糖元含量、NO浓度均下降,线粒体Ca~(2+)浓度、肝细胞凋亡指数均升高(P<0.05,P<0.01),中等强度力竭运动组效果更明显(P<0.05).结论;中、大强度力竭运动均可导致大鼠肝细胞凋亡,肝糖元含量、NO浓度下降,线粒体Ca~(2+)浓度升高,中等强度力竭运动效果更为显著,可能与力竭运动时间长有关.
揹景:國內外不少實驗證明,不同運動方式容易造成肝損傷,導緻不同程度的肝細胞凋亡,其具體機製尚不明確.目的:建立不同彊度力竭運動模型,觀察運動後大鼠肝細胞凋亡和肝糖元、NO、鈣濃度變化.設計、時間及地點:隨機對照動物實驗,超微結構觀察,于2004-01/2006-12在湖南師範大學體育學院運動人體科學實驗室、中南大學組胚實驗室完成.材料:30隻8週齡雄性SD大鼠,體質量(219.2±19.5)g,根據Berdford運動模型將大鼠以隨機數字錶法分為對照組,中等彊度、大彊度力竭運動組,每組10隻.方法:運動組先進行3 d的適應性跑檯訓練,速度為10 m/min,坡度為0°.休息3 d後,中等彊度力竭運動組初始速度為10 m/min,持續12 min,逐漸增加運動負荷,達到速度為19.3 m/min,持續到力竭.大彊度力竭運動組初始速度為26.8 m/min,持續到力竭.共30 d,1次/d.對照組不進行運動訓練.主要觀察指標:運動後即刻取肝組織檢測肝糖元、NO和Ca~(2+)及肝細胞凋亡情況.結果:30隻大鼠全部進入結果分析.不同彊度力竭運動組大鼠都完成瞭運動,整箇運動過程中未齣現拒跑現象,中等彊度力竭運動組力竭運動時間為(234.60±60.05)min,大彊度力竭運動組力竭運動時間為(92.40+34.61)min.與對照組比較,兩種彊度力竭運動後,大鼠肝組織肝糖元含量、NO濃度均下降,線粒體Ca~(2+)濃度、肝細胞凋亡指數均升高(P<0.05,P<0.01),中等彊度力竭運動組效果更明顯(P<0.05).結論;中、大彊度力竭運動均可導緻大鼠肝細胞凋亡,肝糖元含量、NO濃度下降,線粒體Ca~(2+)濃度升高,中等彊度力竭運動效果更為顯著,可能與力竭運動時間長有關.
배경:국내외불소실험증명,불동운동방식용역조성간손상,도치불동정도적간세포조망,기구체궤제상불명학.목적:건립불동강도력갈운동모형,관찰운동후대서간세포조망화간당원、NO、개농도변화.설계、시간급지점:수궤대조동물실험,초미결구관찰,우2004-01/2006-12재호남사범대학체육학원운동인체과학실험실、중남대학조배실험실완성.재료:30지8주령웅성SD대서,체질량(219.2±19.5)g,근거Berdford운동모형장대서이수궤수자표법분위대조조,중등강도、대강도력갈운동조,매조10지.방법:운동조선진행3 d적괄응성포태훈련,속도위10 m/min,파도위0°.휴식3 d후,중등강도력갈운동조초시속도위10 m/min,지속12 min,축점증가운동부하,체도속도위19.3 m/min,지속도력갈.대강도력갈운동조초시속도위26.8 m/min,지속도력갈.공30 d,1차/d.대조조불진행운동훈련.주요관찰지표:운동후즉각취간조직검측간당원、NO화Ca~(2+)급간세포조망정황.결과:30지대서전부진입결과분석.불동강도력갈운동조대서도완성료운동,정개운동과정중미출현거포현상,중등강도력갈운동조력갈운동시간위(234.60±60.05)min,대강도력갈운동조력갈운동시간위(92.40+34.61)min.여대조조비교,량충강도력갈운동후,대서간조직간당원함량、NO농도균하강,선립체Ca~(2+)농도、간세포조망지수균승고(P<0.05,P<0.01),중등강도력갈운동조효과경명현(P<0.05).결론;중、대강도력갈운동균가도치대서간세포조망,간당원함량、NO농도하강,선립체Ca~(2+)농도승고,중등강도력갈운동효과경위현저,가능여력갈운동시간장유관.
BACKGROUND: Previous studies demonstrated that exercise modes easily cause hepatic injury and result in hepatic apoptosis. However, the mechanisms remain undear. OBJECTIVE: To observe the hepatic apoptosis, changes of hepatic glycogen, NO, and calcium levels following establishing various exhaustive exercise models.DESIGN, TIME AND SETTING: The randomized, controlled, animal experiment of ultrastructure observation was performed at the Physical Education School of Hunan Normal University, and Department of Histology and Embryology, Central South University, from January 2004 to December 2006.MATERIALS: Thirty male Sprague Dawley rats, aged 8 weeks, weighing (219.2+19.5) g, were randomly divided into control, middle intensity exercise and high intensity exercise groups according to Berdford models, with 10 animals in each group. METHODS: Rats in the exercise group were performed 3 days treadmill training with speed of 10 m/min, in running platform with 0°, followed by 3 days rest. After that, rats in the middle intensity exercise group were training with initial velocity of 10 m/min for 12 minutes, and than gradually increased exercise load to 19.3 m/min, until rats were exhausted. In the high intensity exercise groups,the initial velocity was 26.8 m/min, until rats were exhausted. The training was performed once per day for 30 successive days.There was no exercise training in the control group.MAIN OUTCOME MEASURES: The levels of hepatic glycogen, NO, Ca~(2+), and hepatic apoptosis were measured after exercise.RESULTS: Totally 30 rats were included in the final analysis. All rats finished exercise without resistance. The exhaustive exercise time in the middle intensity exercise group was (234.60+60.05) min, which was (92.40±34.61) min in the high intensity exercise group. Compared to the control group, the contents of hepatic glycogen and NO were decreased, while Ca~(2+) level and hepatic apoptosis index were increased in 2 exercise groups (P < 0.05, P < 0.01 ), in particular notable in the middle intensity exercise group (P < 0.05).CONCLUSION: Both middle and high intensity exhaustive exercise can lead to hepatic apoptosis, which may be the great accumulation of Ca~(2+) in mitochondrion and the fower contents of liver glycogen and NO content. The changes may be associated with exhaustive exercise time.
