运动减肥对肥胖儿童少年脂蛋白脂酶活性和血脂影响的研究
|
摘要
研究目的
在评定肥胖程度、运动能力和健康状况的基础上,为肥胖儿童少年制定个性化的运动减肥处方,并在实施过程中进行监督指导。比较研究对象运动减肥前后身体形态指标(身高、体重、体脂、腰围、臀围等)、血液生化指标(空腹血脂、脂蛋白脂酶等)变化程度及变化规律。分析探讨4周中小强度长时间有氧运动对身体形态、血脂、脂蛋白酯酶活性的影响,为运动减肥的理论和方法提供实验依据。
研究对象与方法
研究对象:参加2009年上海市巅峰儿童青少年暑期减肥运动营的肥胖儿童少年29名,平均年龄13.20±0.44岁(8~17岁),其中,男15人,女14人。
研究方法:采用问卷法对研究对象的饮食习惯、运动情况、疾病史、家族史、过敏史及肥胖发生过程等情况进行调查,了解研究对象的基本情况,确定其为单纯性肥胖;通过体质测试和运动负荷试验,了解其肥胖程度和运动能力,排除研究对象心血管系统的机能障碍,保证运动的安全性。取研究对象空腹肘静脉血,测定甘油三酯(TG)、总胆固醇(TC)、高密度脂蛋白(HDL)、低密度脂蛋白(LDL)和脂蛋白脂酶(LPL)活性。根据体格检查、肥胖程度、运动负荷试验和血液生化指标测试结果,制定个性化的运动减肥处方。运动减肥持续4周,每周运动6天,每天运动5-6小时,以中小强度长时间有氧运动为原则,对研究对象减肥过程进行指导和监督。4周运动减肥结束后,测定相同的身体形态和血液指标。使用SAS6.12软件包对研究对象减肥前后的数据进行配对T检验。指标间的相关性采用线性相关分析,P<0.05为差别具有显著性统计学意义,P<0.01为差别具有非常显著性统计学意义。
研究结果
1.运动减肥前后形态指标的变化
4周运动减肥后,肥胖儿童少年体重、体重指数(BMI)、体脂率和体脂量均明显下降,与减肥前相比,差异具有非常显著的统计学意义(p<0.01)。男女体重分别下降7.56kg、6.08kg,下降体重占减肥前体重10.13%、8.39%,BMI分别下降2.93、2.67,体脂率分别下降6.57%、6.70%,身体脂肪重量分别下降6.93kg、7.25kg。反映肥胖程度的围度减小非常明显(p<0.01),男性腰围(WC)减小14.90cm,臀围(HC)减小9.59cm,女性分别减少12.95cm和8.88cm。腰臀比(WHR)前后比较,差异具有非常显著的统计学意义(p<0.01)。
2.运动减肥前后空腹血脂的变化
4周运动减肥后,男性肥胖儿童少年TG由1.80mmol/L下降到0.67mmol/L,TC由5.06mmol/L下降到3.50mmol/L, LDL由2.90mmol/L下降到2.0mmol/L,HDL有下降趋势,但无统计学意义,LDL/HDL由2.33下降到1.75。女性TG由1.24mmol/L下降到0.7mmol/L, TC由4.44mmol/L下降到3.42mmol/L, LDL由2.55mmol/L下降到2.0mmol/L, HDL有下降趋势,但无统计学意义,LDL/HDL由2.21下降到1.93,差别都具有非常显著的统计学意义(p<0.01)。
3.运动减肥前后空腹血清LPL活性的变化
4周运动减肥后,男女肥胖儿童少年LPL的活性都明显升高,男性由529.34U/L上升到612.62U/L,p<0.05,女性由486.19U/L上升到543.18U/L,p<0.05,差别都具有显著的统计学意义。
4.血清LPL活性和体脂率、腰围及年龄的关系
男性肥胖儿童少年减肥前后LPL活性与减肥前后体脂率呈负相关,p<0.01,具有非常显著的统计学意义。女性肥胖儿童少年减肥前后LPL活性与减肥前后体脂率呈负相关,p<0.05,具有显著的统计学意义。男女肥胖儿童少年减肥前LPL活性与减肥前腰围存在负相关关系,p<0.05,具有显著的统计学意义。男女肥胖儿童少年减肥前后LPL活性和年龄存在负相关关系,p<0.05,具有显著的统计学意义
结论
1、中小强度长时间有氧运动是减肥的有效途径,能明显改善肥胖儿童少年身体形态。
2、中小强度长时间有氧运动可以提高肥胖儿童少年空腹血清脂蛋白脂酶的活性,促进乳糜微粒和极低密度脂蛋白中甘油三酯的水解,提高机体利用脂肪供能的比例,改善体内脂类代谢。
3、血清脂蛋白脂酶活性和腹型肥胖的程度呈负相关,两者可能存在互为因果关系。
4、随着儿童少年肥胖年限的增加,肥胖儿童少年的血清脂蛋白脂酶活性逐渐下降,肥胖儿童少年运动减肥宜早期进行,有利于早期纠正脂代谢紊乱,降低成年后由于脂代谢紊乱而造成的代谢综合征的发生率。
Research purpose
The aim of this research is to formulate individualized exercise prescription for the obese children and adolescents before and during exercise-induced weight loss and to supervise in practice. To measure the body shape indicators including body height, body weight, percentage of body fat, waistline, blood biochemical indicators including fasting plasma lipid and plasma LPL activity before and after weight reduction exercise. To find the effects of 4 weeks weight reduction exercise, and also to find what the effects are on plasma lipid and plasma LPL activity and to provide theoretical evidence for research on the method of exercise-induced weight loss.
Subjects and method
Subjects:29 obese children and adolescents (male:15, female:14,8-17 yrs) who taking part in the adolescents Summer Sports Camp in Shanghai 2009.
Methods:before the study, we investigated the eating habit, exercise habit, medical record, family medical history, hypersusceptibility history and obese history to make sure the subjects were simple obese adolescents. Physique test and exercise load test was made to know the subjects'health condition and exercise capacity and to exclude subjects who suffered from cardiovascular system dysfunction from normal subjects by ECG as well as exercise load test ECG.. Blood biochemical indicators including fasting plasma lipid, plasma LPL activity was obtained before study.We formulated individualized exercise prescription based on the results of the test. Obese children and adolescents took part in 4 weeks weight reduction plan,6 days per week and 5-6 hours everyday by moderate and low-intensity long duration aerobic exercise. Same measurement and test were carried out after 4 weeks. The data have been analyzed by SAS6.12 statistical package in student T test, the correlation between indicators have been analized in linear correlation. It was significantly changed by P <0.01 and obviously changed by P<0.05.
Research result
1.Body shape indicators change after 4 weeks intervention。
The body weight, BMI, percentage of body fat decreased in obese children and adolescents after 4 weeks intervention (highly significant). Body weight decrease 7.56kg for male and 6.08kg for female (decreased 10.13% and 8.39%). BMI decreased 2.93 for male and 2.67 for female. Percentage of body fat decreased 6.57% for male and 6.70% for female. Body fat decreased 6.93kg for male and 7.25kg for female. WC decreased 14.90cm for male and 12.95cm for female (highly significant). HC decreased 9.59cm for male and 8.88cm for femal. Waist hip rate decreased both for male and femal (highly significant).
2. Fasting plasma lipid change after 4 weeks intervention
After 4 weeks intervention, TG decreased from 1.80mmol/L to 0.67mmol/L for male and from 1.24mmol/L to 0.7mmol/L for female. TC decreased from 5.06mmol/L to 3.50mmol/L for male and from 4.44mmol/L to 3.42mmol/L for female. LDL decreased from 2.90mmol/L to 2.0mmol/L for male and from 2.55mmol/L to 2.0mmol/L for female. There were no significant changes in HDL for male and female although it tended to decrease. LDL/HDL decreased from 2.33 to 1.75 for male and from 2.21 to 1.93 for female (all highly significant).
3. The change of fasting plasma LPL activity after 4 weeks intervention.
After 4 weeks, the LPL activity increased both in male and female. It increased from 529.34U/L to 612.62U/L for male (highly significant) and from 486.19U/L to 543.18U/L (highly significant).
4. The correlation between LPL activity and percentage of body fat, waist circumference and age.
LPL activity is negatively related to the percentage of fat both in male and female (highly significant). LPL activity is negatively related to the waist circumference in male and female as a whole (highly significant). LPL activity is negatively related to age in male and female as a whole.
Conclusions
1. It is utility way to reduce body fat weight and improve the obese children and adolescents'body configuration indicators by moderate and low-intensity exercise.
2. It is utility way to increase the LPL activity in blood serum of obese children and adolescents and to promote the hydrolysis of TG in triglyceride rich lipoprotein and then to improve the lipid metabolism of the children and adolescents by moderate and low-intensity exercise.
3. LPL activity is negatively related to the degree of abdominal obesity, it exist causal relation between them reciprocally.
4. The LPL activity in blood serum of obese children and adolescents will gradually decrease as they grow old, so it is good to carry out weight reduction exercise on earlier period and it will contribute to improve dyslipidemic states on earlier period, and to reduce the incidence rate of MS when they grow up.
在评定肥胖程度、运动能力和健康状况的基础上,为肥胖儿童少年制定个性化的运动减肥处方,并在实施过程中进行监督指导。比较研究对象运动减肥前后身体形态指标(身高、体重、体脂、腰围、臀围等)、血液生化指标(空腹血脂、脂蛋白脂酶等)变化程度及变化规律。分析探讨4周中小强度长时间有氧运动对身体形态、血脂、脂蛋白酯酶活性的影响,为运动减肥的理论和方法提供实验依据。
研究对象与方法
研究对象:参加2009年上海市巅峰儿童青少年暑期减肥运动营的肥胖儿童少年29名,平均年龄13.20±0.44岁(8~17岁),其中,男15人,女14人。
研究方法:采用问卷法对研究对象的饮食习惯、运动情况、疾病史、家族史、过敏史及肥胖发生过程等情况进行调查,了解研究对象的基本情况,确定其为单纯性肥胖;通过体质测试和运动负荷试验,了解其肥胖程度和运动能力,排除研究对象心血管系统的机能障碍,保证运动的安全性。取研究对象空腹肘静脉血,测定甘油三酯(TG)、总胆固醇(TC)、高密度脂蛋白(HDL)、低密度脂蛋白(LDL)和脂蛋白脂酶(LPL)活性。根据体格检查、肥胖程度、运动负荷试验和血液生化指标测试结果,制定个性化的运动减肥处方。运动减肥持续4周,每周运动6天,每天运动5-6小时,以中小强度长时间有氧运动为原则,对研究对象减肥过程进行指导和监督。4周运动减肥结束后,测定相同的身体形态和血液指标。使用SAS6.12软件包对研究对象减肥前后的数据进行配对T检验。指标间的相关性采用线性相关分析,P<0.05为差别具有显著性统计学意义,P<0.01为差别具有非常显著性统计学意义。
研究结果
1.运动减肥前后形态指标的变化
4周运动减肥后,肥胖儿童少年体重、体重指数(BMI)、体脂率和体脂量均明显下降,与减肥前相比,差异具有非常显著的统计学意义(p<0.01)。男女体重分别下降7.56kg、6.08kg,下降体重占减肥前体重10.13%、8.39%,BMI分别下降2.93、2.67,体脂率分别下降6.57%、6.70%,身体脂肪重量分别下降6.93kg、7.25kg。反映肥胖程度的围度减小非常明显(p<0.01),男性腰围(WC)减小14.90cm,臀围(HC)减小9.59cm,女性分别减少12.95cm和8.88cm。腰臀比(WHR)前后比较,差异具有非常显著的统计学意义(p<0.01)。
2.运动减肥前后空腹血脂的变化
4周运动减肥后,男性肥胖儿童少年TG由1.80mmol/L下降到0.67mmol/L,TC由5.06mmol/L下降到3.50mmol/L, LDL由2.90mmol/L下降到2.0mmol/L,HDL有下降趋势,但无统计学意义,LDL/HDL由2.33下降到1.75。女性TG由1.24mmol/L下降到0.7mmol/L, TC由4.44mmol/L下降到3.42mmol/L, LDL由2.55mmol/L下降到2.0mmol/L, HDL有下降趋势,但无统计学意义,LDL/HDL由2.21下降到1.93,差别都具有非常显著的统计学意义(p<0.01)。
3.运动减肥前后空腹血清LPL活性的变化
4周运动减肥后,男女肥胖儿童少年LPL的活性都明显升高,男性由529.34U/L上升到612.62U/L,p<0.05,女性由486.19U/L上升到543.18U/L,p<0.05,差别都具有显著的统计学意义。
4.血清LPL活性和体脂率、腰围及年龄的关系
男性肥胖儿童少年减肥前后LPL活性与减肥前后体脂率呈负相关,p<0.01,具有非常显著的统计学意义。女性肥胖儿童少年减肥前后LPL活性与减肥前后体脂率呈负相关,p<0.05,具有显著的统计学意义。男女肥胖儿童少年减肥前LPL活性与减肥前腰围存在负相关关系,p<0.05,具有显著的统计学意义。男女肥胖儿童少年减肥前后LPL活性和年龄存在负相关关系,p<0.05,具有显著的统计学意义
结论
1、中小强度长时间有氧运动是减肥的有效途径,能明显改善肥胖儿童少年身体形态。
2、中小强度长时间有氧运动可以提高肥胖儿童少年空腹血清脂蛋白脂酶的活性,促进乳糜微粒和极低密度脂蛋白中甘油三酯的水解,提高机体利用脂肪供能的比例,改善体内脂类代谢。
3、血清脂蛋白脂酶活性和腹型肥胖的程度呈负相关,两者可能存在互为因果关系。
4、随着儿童少年肥胖年限的增加,肥胖儿童少年的血清脂蛋白脂酶活性逐渐下降,肥胖儿童少年运动减肥宜早期进行,有利于早期纠正脂代谢紊乱,降低成年后由于脂代谢紊乱而造成的代谢综合征的发生率。
Research purpose
The aim of this research is to formulate individualized exercise prescription for the obese children and adolescents before and during exercise-induced weight loss and to supervise in practice. To measure the body shape indicators including body height, body weight, percentage of body fat, waistline, blood biochemical indicators including fasting plasma lipid and plasma LPL activity before and after weight reduction exercise. To find the effects of 4 weeks weight reduction exercise, and also to find what the effects are on plasma lipid and plasma LPL activity and to provide theoretical evidence for research on the method of exercise-induced weight loss.
Subjects and method
Subjects:29 obese children and adolescents (male:15, female:14,8-17 yrs) who taking part in the adolescents Summer Sports Camp in Shanghai 2009.
Methods:before the study, we investigated the eating habit, exercise habit, medical record, family medical history, hypersusceptibility history and obese history to make sure the subjects were simple obese adolescents. Physique test and exercise load test was made to know the subjects'health condition and exercise capacity and to exclude subjects who suffered from cardiovascular system dysfunction from normal subjects by ECG as well as exercise load test ECG.. Blood biochemical indicators including fasting plasma lipid, plasma LPL activity was obtained before study.We formulated individualized exercise prescription based on the results of the test. Obese children and adolescents took part in 4 weeks weight reduction plan,6 days per week and 5-6 hours everyday by moderate and low-intensity long duration aerobic exercise. Same measurement and test were carried out after 4 weeks. The data have been analyzed by SAS6.12 statistical package in student T test, the correlation between indicators have been analized in linear correlation. It was significantly changed by P <0.01 and obviously changed by P<0.05.
Research result
1.Body shape indicators change after 4 weeks intervention。
The body weight, BMI, percentage of body fat decreased in obese children and adolescents after 4 weeks intervention (highly significant). Body weight decrease 7.56kg for male and 6.08kg for female (decreased 10.13% and 8.39%). BMI decreased 2.93 for male and 2.67 for female. Percentage of body fat decreased 6.57% for male and 6.70% for female. Body fat decreased 6.93kg for male and 7.25kg for female. WC decreased 14.90cm for male and 12.95cm for female (highly significant). HC decreased 9.59cm for male and 8.88cm for femal. Waist hip rate decreased both for male and femal (highly significant).
2. Fasting plasma lipid change after 4 weeks intervention
After 4 weeks intervention, TG decreased from 1.80mmol/L to 0.67mmol/L for male and from 1.24mmol/L to 0.7mmol/L for female. TC decreased from 5.06mmol/L to 3.50mmol/L for male and from 4.44mmol/L to 3.42mmol/L for female. LDL decreased from 2.90mmol/L to 2.0mmol/L for male and from 2.55mmol/L to 2.0mmol/L for female. There were no significant changes in HDL for male and female although it tended to decrease. LDL/HDL decreased from 2.33 to 1.75 for male and from 2.21 to 1.93 for female (all highly significant).
3. The change of fasting plasma LPL activity after 4 weeks intervention.
After 4 weeks, the LPL activity increased both in male and female. It increased from 529.34U/L to 612.62U/L for male (highly significant) and from 486.19U/L to 543.18U/L (highly significant).
4. The correlation between LPL activity and percentage of body fat, waist circumference and age.
LPL activity is negatively related to the percentage of fat both in male and female (highly significant). LPL activity is negatively related to the waist circumference in male and female as a whole (highly significant). LPL activity is negatively related to age in male and female as a whole.
Conclusions
1. It is utility way to reduce body fat weight and improve the obese children and adolescents'body configuration indicators by moderate and low-intensity exercise.
2. It is utility way to increase the LPL activity in blood serum of obese children and adolescents and to promote the hydrolysis of TG in triglyceride rich lipoprotein and then to improve the lipid metabolism of the children and adolescents by moderate and low-intensity exercise.
3. LPL activity is negatively related to the degree of abdominal obesity, it exist causal relation between them reciprocally.
4. The LPL activity in blood serum of obese children and adolescents will gradually decrease as they grow old, so it is good to carry out weight reduction exercise on earlier period and it will contribute to improve dyslipidemic states on earlier period, and to reduce the incidence rate of MS when they grow up.
引文
[1]裴海成.实用肥胖症治疗学[M],北京:北京人民军医出版社,2006:1.
[2]裴海成.实用肥胖症治疗学[M],北京:北京人民军医出版社,2006:270.
[3]Saxena U, Kleion MG, Golderge IJ. Identification and characterization of the endothelial cell surface lipoprotein lipase receptor[J]. J Bilo Chem,1991,266: 17516-17521.
[4]Sabina Paglialunga, Katherine Cianflone.Regulation of postprandial lipemia:an update on current trends, Appl. Physiol. Nutr. Metab.2007,32:61-75.
[5]Boivin, A, Montplaisir, I., Deshaies, Y. Postprandial modulation of lipoprotein lipase in rats with insulin resistance. Am. J. Physiol.1994.267:E620-627.
[6]温宇等.单纯性肥胖症儿童血浆促酰化蛋白与血脂的关系,营养学报,2004,8:26(43):15-318.
[7]Faraj, M., Cianflone, K. Differential regulation of fatty acid trapping in mouse adipose tissue and muscle by ASP. Am.J. Physiol. Endocrinol. Metab.2004,287: E150-159.
[8]Watanabe H, Miyashita Y, Murano T, et al. Preheparin serum lipoprotein lipase mass level:the effects of age, gender and type of hyperlipidemia [J]. Atherosclerosis, 1999,145:45-50.
[9]Kobayashi J, saito K, Fukamechi I, et al. pre-heparin plasma lipoprotein lipase mass:its correlation with intra-abdominal visceral fat accumulation [J]. HormMetab Res,2001,33:412-416.
[10]高焱,于文功等.甘糖酯对高脂血症大鼠血脂及脂蛋白脂酶的调节作用,药学学报,2002,37(9):687-690.
[11]JongMC, Rensen PC, Dahlmans VE,et al. ApolipoproteinC III deficiency accelerates triglyceride hydrolysis by lipoprotein lipase in wild-type and apo E knockout mice [J].JLipid Res,2001,42(10):1578-1585.
[12]Gehrisch S. Common mutations of the lipoprotein lipase gene and their clinical significance [J].Curr Atheroscler Rep,1999, 1(1):70-78.
[13]de Man FH,de Beer F,van der Laarse A, et al. The hypolipidemic action of bezafibrate therapy in hypertriglyceridemia is mediated by upregulation of lipoprotein lipase:no effects on VLDL substrate affinity to lipolysis or LDL receptor binding [J].Atherosclerosis,2000,153(2):363-371.
[14]Gotoda T, Yamada N, Murase T, et al.Detection of three separate DNA polymorphisms in the human lipoprotein lipase gene by gene amplification and restriction endonuclease digestion.J Lipid Res 1992,33(7):1067-1072
[15]Tornvall P, Olivecrona G, karpe F, et al. Lipoprotein lipase mass and activity in plasma and their increase after heparin injection[J]. Arterioscler Thromb Vasc Biol, 1995,15:1086-1093.
[16]Rip J, Nierman MC, Wareham NJ, et al. Serum lipoprotein lipase concentration and risk for future coronary artery disease:the EPIC-Norfolk prospective poulation study [J]. Arterioscler Tromb Vase Biol,2006,26:637-642.
[17]RONALD L, TERJUNG, et al.Influence of exercise on chylomicron triacylglycerol metabolism:plasma turnover and muscle uptake [J]medicine and science in sports and exercise 1983,15(4):340-347.
[18]KOTLAR.T.J.and S.Rossensztajn.Oscillatory changes in muscle lipoprotein lipase activity of fed and starved rats.Am.J.Physiol.1977,233:E316-E319.
[19]冯炜权,谢敏豪等.运动生物化学研究进展[M].北京:北京体育大学出版社2006:82
[20]Seip RL, Angelopoulos TJ, Semenkoveih CF-Exercises induce human lipoprotein lipase gene expression in skeletal muscle but not adipose tissue [J]-Am J Physiol,1995, (268):E229-E236·
[21]Greiwe J S, Holloszy J O, Semenkovich C F. Exercise induceslipoprotein lipase and GLUT-4 protein in muscle independent ofadrenergic-receptor signaling [J]. J Appl Physiol,2000,89(1):176-181.
[22]Pedersen SB, Bak JF, Holck P, et al-Epinephrine stimulates human muscle lipoprotein lipase activity in vivo [J]·Metabolism,1999,48:461-464·/[11] Kraus WE, Longabaugh JP, Liggett SB·Electrical pacing inducesadenylyl cyclase in skeletal muscle independent of the adrenergic receptor[J]·Am J Physiol Endocrinol Metab,1992,263:E226-E230
[23]Mackie et al.Uptake of chylomicron triglycerides by contracting skeletal muscle in rats. [J]Appl. Physiol.1980,49:851-855.
[24]Terjung et al.chylomicron triglceride metabolism in resting and. exercising fed dogs. [J]Appl.physiol.1982,52:815-820.
[25]Bessesen DH, Rupp CL, EckelRH. Trafficking of dietary fat in lean Rats [J].ObesityRes.1995,3:191-203.
[26]PanarottoD, Remillard P, BouffardL, etal. Insulin resistance affects the regulation of lipoprotein lipase in the postprandial period and in an adipose tissure specificmanner [J].Eur J Clin Invest,2002,32(2):892.
[27]CARLSON, L.A, F.MOSSFELDT.Acute effects of prolonged, heavy exercise on the concentration of plasma lipids and lipoproteins in man. Acta Physiol. Scand. 1964,62:51-59.
[28]吴红艳.中心性肥胖与代谢性风险因子的相关问题研究[D],湖北:华中科技大学.2007.
[29]SM, Brewer HB Jr, Cleeman JI, et al. Definition ofmetabolic syndrome:Report of the National Heart, Lung, and Blood Institute/American Heart Association conference on scientific issues related to definition [J]. Circulation,2004,109 (3): 433-438.
[30]Eckel RH, Grundy SM, Zimmet PZ. The metabolic syndrome [J].Lancet,2005, 365(9468):1415-1428.
[31]李少存,莫蛮.单纯性肥胖儿童代谢综合征成份分析,中国现代医学杂志[J],2005,8,15(15):2329-2331
[32]Tan GD, Olivecrona G, Karpe F, et al. Insulin sensitisation affects lipoprotein lipase transport in type 2 diabetes:role of adipose tissue and skeletal muscle in response to rosiglitazone [J].Diabetologia,2006,49(10):2412-2418.
[33]NakamuraT,TokunakaK,shimomuraI,etal.Contribution of visceral fat accumulation to the development of coronary artery disease in non-obesemen [J]. Atherosclerosis,1994,107:239-246.
[34]RimmEB,StampferMJ,GiovannucciE,etal.Body size and fat distribution as predictors of coronary heart disease among midleaged and older US men [J].AmJEpidemiol.1995,141:1117-1127.
[35]TairaK, HikitaM, kobayashiJ, etal.Delayed postprandial lipid metabolism in subjects with intra-abdominal visceral fat accumulation [J].EurJClimlnvest,1999, 29:301-308.
[36]Miyashita Y, shirai K, Itoh Y, et al. Low lipoprotein lipase mass in preheparin serum of type diabetes mellitus patients and its recovery with insulin therapy [J]. Diabetes Res Clin Pract,2002,56:181-187.
[37]Kobayashi J, Maruyma T, Watanabe H, et al. Gender differences in the effect of type 2 diabetes on serum lipids pre-heparin plasma lipoproteim lipase mass and other metabolic parameters in Japanese population [J]. Diabetes Res Clin Pract. 2003,62:39-45.
[38]Shirai K, Itoh Y, Sasaki H, et al. The effect of insulin sensitizen, troglitazone, on lipoproteim lipase mass in preheparin serum [J]. Diabetes Res Clin Pract,1999, 46:35-41.
[39]Kobayashi J, TaTeishi S, Maruyama T, et al. Marked reduction in serum high-density liporotein cholesterol levels in a woman with acute inflammation due to diabetic gangrene [J]. Clin Chim Acta,2003,335:33-38.
[40]Saiki A, Oyama T, Endo K, et al. Preheparin serum lipoproteim lipase mass might be a biomarker of metabolic syndrome [J]. Diabetes Res Clin Pract,2007, 77(3) [Electronic publication].
[41]DavignonJ, CohnJS. Triglycerides:A risk factor for cornary heart disease. AtherosclerosiS,1996; 124 Suppl:S5.
[42]汪俊军等.CM和VLDL代谢残粒与AS关系的研究进展.中国动脉硬化杂 志.2003,11(7):681-684.
[43]Carpe F, et al.Remnant-like lipoprotein particle cholesterol concentration and progression of coronary and vein-graft atherosclerosis in response to gemfibrozil treatment. Atherosclerosis.2001,157(1):181-187.
[44]Jeppesen J.Triglyceride concentration and ischemic heart disease.Circulation 1998,97:1027-103.
[45]陈忠,马根山,黄峻.脂蛋白脂酶活性与早发冠心病临床表型关系的初步探讨[J].中国病理生理杂志,2004,20(4):608-626
[46]Benlian P, de Gennes JL, Foubert L, et al.Premature athero-sclerosis in patients with familial chylomicronemia caused by mutations in the lipoprotein lipase gene.N Engl Med 1996,335(12):848-854.
[47]Kastelein JJ, Jukema JW, Zwinderman AH, et al.Lipoprotein lipase activity is associated with severity of angina pectori.Circulation 2000,102(14):1629-1633.
[48]倪燕君,刘厚钰,张顺财等.肝脂酶、脂蛋白脂肪酶在脂肪肝发病中的作用[J].中华消化杂志,1999,19(5):324-327.
[49]HendersonHE, Kastelein JJ, Zwinderman AH, et al. Lipoprotein lipase activity is decreased in a large cohort of patients with coronary artery disease and is associated with changes in lipids and lipoproteins [J]. J Lipid Res,1999, 40(4):735~743·
[50]Vik-Moh, Moen P, Mjos OD. Myocardial lipoproteins lipase activity during acute myocardial ischemia in dogs [J]. HormMetab Res,1982,14(2):85~88·
[51]Rip J, Nierman MC, Wareham NJ, et al. Serum lipoprotein lipase concentration and risk for future coronary artery disease:the EPICNorfolk prospective poulation study [J]. Arterioscler Tromb Vase Biol,2006,26:637-642.
[52]Hitsumoto T, Yoshinaga K, Aoyagi K, et al. Association between preheparin serum liporoteim lipase mass and acute myocardial infarction in japanese men[J]. J Atheroscler Thromb,2002,9:163-169.
[53]Taira K, Bujo H, Kobayashi J, et al. Positive family history for coronary heart disease and midband lipoproteim are potential risk factors of carotid athroscleosis in familial hypercholesterolemia [J]. Atherosclerosis,2002,160:391-397.
[54]王玉川,刘正娟,金宏英,赵成艳.单纯性重度肥胖儿童的血液流变学变化.[J]中国当代儿科杂志,1999,1(1):12-14.
[55]张美云,李立芳.单纯性肥胖儿童血脂、血液流变学观察和分析.[J]山西医科大学学报,2001,3(25):456-457.
[56]毛霞,马沛然.中重度单纯性肥胖儿童血液流变学研究.[J]中国实用儿科杂志,2000,15(3):170-171.
[57]毋小玉,陈青珍,张英.肥胖症儿童血脂及血液流变学分析.[J]中国卫生检验杂志,2007,17(2):305-306.
[58]许汪宇,陈文鹤.运动减肥对肥胖青少年血脂和脂肪肝的影响.上海体育学院硕士学位论文,2008:23.
[59]陆建峰等.8岁单纯性儿童的形态、机能、素质研究[J].广州体育学院学报2003,23(4):29-31.
[60]Li X. A study of intelligence and personality in children with simple obesity. Int J Obes Relat MetB Disord,1995,19(5):355-357.
[61]Sundquist J, Winkleby M.Country of birth, accultruation status and abdominal obesity in anational sample of Mexican-American women and men. Int J Epidemiol 2000,29(3):470-477.
[62]刘志诚,张京英.针灸对单纯性肥胖病人植物神经外周介质的影响[J].针灸学报,1989,5(1):15-19.
[63]Li ZP, Maglione M, Tu WL,et al. Meta-analysis:paarmacologic treatment of obesity [J].Ann Intern Med,2005,142(7):532-546.
[64]龚风华.关于肥胖机理及运动减肥处方的探讨[J].湖北广播电视大学学报,2007,27(7):159-160.
[65]刘一平,王有乐.肥胖与运动减肥研究进展[J].河北体育学院学报2007,3(21):67-70.
[66]李益明.葡萄糖转运体Ⅳ和糖尿病[J].国外医学内科学分册,997,(24):16-19.
[67]Goodyear LJ, Kahn BB:Exercise, glucose transport, and insulin sensitivity [J] Annu Rev Med,1998, (49):235-261·
[68]Bouchard C·Long-term programming of body size [J]·Nutr Rer,1996, (54):S8-S16·
[69]Aline Meirhaeghe,Nicole Helbecque,Cominique Cottel. β 2-adrenoceptor gene polymorphism,bodyweight,and physical activity[J]·The Lancet,1999,(353):896·
[70]李蕾,陈文鹤.肥胖症与运动减肥的研究进展[J].沈阳体育学院学报,2005,24(3):72-74.
[71]Saris WH, Blair SN, van Baak MA, et al.How much physicalactivity is enough to prevent unhealthy weight gain? Outcomeof the IASO 1st Stock Conference and consensus statement [J].Obes Rev.2003,4(2):101.
[72]叶超群,康玉华.肥胖症的运动疗法[J].现代康复,2001,5(9):7—9.
[73]沈洁.儿童肥胖症的干预治疗[J].国外医学内分泌学分册,2004,24(6):404—406.
[74]谭思洁,于学礼.肥胖幼儿减肥运动处方的研制及效果观察[J].中国运动医学杂志,2005,(24):439-442.
[75]冯炜权,谢敏豪等.运动生物化学研究进展[M].北京体育大学出版社2006:72
[76]李蕾,戚一峰,郭黎,陈文鹤.运动减肥中运动强度确定依据的实验研究[J].上海体育学院学报,2006,30(4):50-53.
[77]裴海成.实用肥胖症治疗学[M],北京:北京人民军医出版社,2006:23.
[78]马力宏.肥胖与遗传[J].天津体育学院学报,1998,13(3):7
[79]Tong J, Boyko EJ, Utzschneider KM, et al.Intra-abdominal fat accumulation predicts the development of the metabolic syndrome in non-diabetic Japanese-Americans. Diabetologia,2007(3):27.
[80]Larsson B.obesity and body fat distribution as predictors of coronaryheart disease.New York:Oxford University Press,1992:233-241.
[81]WHO Expert Consultation. Appropriate body mass index for Asian population and its implications for policy and intervention strategies [J].Lancet,2004, 363(9403):157-163.
[82]尹永英,李汝敏,沙蕾.代谢综合征基线调查[J].现代预防医学,,2006,33(4):520-521.
[83]Sabina Paglialunga, Katherine Cianflone. Regulation of postprandial lipemia:an update on current trends. [J] Appl. Physiol. Nutr. Metab.2007(32):61-75.
[84]Tounian P, Aggoun Y, Dubern B, et al. Presence of increased Stiffiness of the common carotid artery and endothelial dysfunction in severely obese children:a prospective study [J].Lancet,2001,358(9291):1400-1404.
[85]DavignonJ, CohnJS.Triglycerides:A risk factor for cornary heart disease. Atherosclerosis,1996,124 Suppl:S5.
[86]南晓琴.儿童单纯性肥胖症对循环系统损坏的研究[D],山西:山西医科大学,2003:14.
[87]TraeyRE, NewmanWP, etal. Histologic features of atheroselerosis and hypertension from autopsies of young individuals in a defined geographic PoPulation:The Bogulusa Heart Study.Atheroselerosis,1995,116(2):163-179.
[88]Vasankari T, AhotuPa M, Toikka J, etal.Oxidized LDL and thickness of carotid intima-media areassoeiated with coronary atheroselerosis in midagedmen:lower levels of oxidized LDL with statin therapy.Aiherosclerosis,2001,155(2):403-412.
[89]RobinsHB.Distribution of lipids in 8500 men with coronary heart disease.AmJ Cardiol,1995,75:1196-1206.
[90]KitamuraA,IsoH,NaitoY,etal.Highdensity lipoprotein eholesterol and Premature coronary heart disease in urban Japanesemen.Circulation,1994,89:2533-2539.
[91]南晓琴.儿童单纯性肥胖症对循环系统损坏的研究[D],山西:山西医科大学2003:15.
[92]陈英杰等.不同强度规则有氧运动对青少年血脂影响的研究[J]沈阳体育学院学报,2008,27(1):56-59.
[93]陈礼平等,低密度与高密度脂蛋白胆固醇比值对冠心病的诊断价值,心脑血管病防治,2002,8(2)3:11-12
[94]Pruneta-Deloche V, Sassolas A, Berthezene F, et al.Alterationin lipoprotein lipase activity bound to triglyceride-richlipoproteins in the postprandial state in type 2 diabetes[J]. JLipid Res,2004,45:859-865.
[95]Kotlar, T, J, J.Borensztajn.Oscillatory changes in muscle lipoprotein lipase activity of fed and starved rats.Am.J.Physiol.1977,233:E316-E319.
[96]Miyashita Y,Shirai K,Yoshiaki J,et al.Low lipoprotein lipasemass in preheparin serum of type 2 diabetes mellitus patients and its recovery with insulin therapy [J]. Diabetes Res Clin Pract,2002,56(3):181-187.
[97]H.Watanabe et al. Preheparin serum lipoprotein lipase mass level:the effects of age, gender, and types of hyperlipidemias. Atherosclerosis,1999,145(1):45-50.
[98]Jean-Pierre Despres et al. Race,visceral Adipose Tissue, Plasma Lipids, and Lipoprotein Lipase Activity in Men and Women. Arteriosclerosis, Thrombosis,and Vascular Biology,2000(20):1932-1938.
[99]陈绮文.北京市城区成年超重肥胖人群肥胖相关行为因素分析[D].北京:北京体育大学:2006.
[100]Nicklas BJ, You T, Pahor M.Behavioural treatments for chronic systemic inflammation:effects of dietary weight loss and exercise training [J]. CMAJ (S0820-3946),2005,172(9):1199-1209.
[2]裴海成.实用肥胖症治疗学[M],北京:北京人民军医出版社,2006:270.
[3]Saxena U, Kleion MG, Golderge IJ. Identification and characterization of the endothelial cell surface lipoprotein lipase receptor[J]. J Bilo Chem,1991,266: 17516-17521.
[4]Sabina Paglialunga, Katherine Cianflone.Regulation of postprandial lipemia:an update on current trends, Appl. Physiol. Nutr. Metab.2007,32:61-75.
[5]Boivin, A, Montplaisir, I., Deshaies, Y. Postprandial modulation of lipoprotein lipase in rats with insulin resistance. Am. J. Physiol.1994.267:E620-627.
[6]温宇等.单纯性肥胖症儿童血浆促酰化蛋白与血脂的关系,营养学报,2004,8:26(43):15-318.
[7]Faraj, M., Cianflone, K. Differential regulation of fatty acid trapping in mouse adipose tissue and muscle by ASP. Am.J. Physiol. Endocrinol. Metab.2004,287: E150-159.
[8]Watanabe H, Miyashita Y, Murano T, et al. Preheparin serum lipoprotein lipase mass level:the effects of age, gender and type of hyperlipidemia [J]. Atherosclerosis, 1999,145:45-50.
[9]Kobayashi J, saito K, Fukamechi I, et al. pre-heparin plasma lipoprotein lipase mass:its correlation with intra-abdominal visceral fat accumulation [J]. HormMetab Res,2001,33:412-416.
[10]高焱,于文功等.甘糖酯对高脂血症大鼠血脂及脂蛋白脂酶的调节作用,药学学报,2002,37(9):687-690.
[11]JongMC, Rensen PC, Dahlmans VE,et al. ApolipoproteinC III deficiency accelerates triglyceride hydrolysis by lipoprotein lipase in wild-type and apo E knockout mice [J].JLipid Res,2001,42(10):1578-1585.
[12]Gehrisch S. Common mutations of the lipoprotein lipase gene and their clinical significance [J].Curr Atheroscler Rep,1999, 1(1):70-78.
[13]de Man FH,de Beer F,van der Laarse A, et al. The hypolipidemic action of bezafibrate therapy in hypertriglyceridemia is mediated by upregulation of lipoprotein lipase:no effects on VLDL substrate affinity to lipolysis or LDL receptor binding [J].Atherosclerosis,2000,153(2):363-371.
[14]Gotoda T, Yamada N, Murase T, et al.Detection of three separate DNA polymorphisms in the human lipoprotein lipase gene by gene amplification and restriction endonuclease digestion.J Lipid Res 1992,33(7):1067-1072
[15]Tornvall P, Olivecrona G, karpe F, et al. Lipoprotein lipase mass and activity in plasma and their increase after heparin injection[J]. Arterioscler Thromb Vasc Biol, 1995,15:1086-1093.
[16]Rip J, Nierman MC, Wareham NJ, et al. Serum lipoprotein lipase concentration and risk for future coronary artery disease:the EPIC-Norfolk prospective poulation study [J]. Arterioscler Tromb Vase Biol,2006,26:637-642.
[17]RONALD L, TERJUNG, et al.Influence of exercise on chylomicron triacylglycerol metabolism:plasma turnover and muscle uptake [J]medicine and science in sports and exercise 1983,15(4):340-347.
[18]KOTLAR.T.J.and S.Rossensztajn.Oscillatory changes in muscle lipoprotein lipase activity of fed and starved rats.Am.J.Physiol.1977,233:E316-E319.
[19]冯炜权,谢敏豪等.运动生物化学研究进展[M].北京:北京体育大学出版社2006:82
[20]Seip RL, Angelopoulos TJ, Semenkoveih CF-Exercises induce human lipoprotein lipase gene expression in skeletal muscle but not adipose tissue [J]-Am J Physiol,1995, (268):E229-E236·
[21]Greiwe J S, Holloszy J O, Semenkovich C F. Exercise induceslipoprotein lipase and GLUT-4 protein in muscle independent ofadrenergic-receptor signaling [J]. J Appl Physiol,2000,89(1):176-181.
[22]Pedersen SB, Bak JF, Holck P, et al-Epinephrine stimulates human muscle lipoprotein lipase activity in vivo [J]·Metabolism,1999,48:461-464·/[11] Kraus WE, Longabaugh JP, Liggett SB·Electrical pacing inducesadenylyl cyclase in skeletal muscle independent of the adrenergic receptor[J]·Am J Physiol Endocrinol Metab,1992,263:E226-E230
[23]Mackie et al.Uptake of chylomicron triglycerides by contracting skeletal muscle in rats. [J]Appl. Physiol.1980,49:851-855.
[24]Terjung et al.chylomicron triglceride metabolism in resting and. exercising fed dogs. [J]Appl.physiol.1982,52:815-820.
[25]Bessesen DH, Rupp CL, EckelRH. Trafficking of dietary fat in lean Rats [J].ObesityRes.1995,3:191-203.
[26]PanarottoD, Remillard P, BouffardL, etal. Insulin resistance affects the regulation of lipoprotein lipase in the postprandial period and in an adipose tissure specificmanner [J].Eur J Clin Invest,2002,32(2):892.
[27]CARLSON, L.A, F.MOSSFELDT.Acute effects of prolonged, heavy exercise on the concentration of plasma lipids and lipoproteins in man. Acta Physiol. Scand. 1964,62:51-59.
[28]吴红艳.中心性肥胖与代谢性风险因子的相关问题研究[D],湖北:华中科技大学.2007.
[29]SM, Brewer HB Jr, Cleeman JI, et al. Definition ofmetabolic syndrome:Report of the National Heart, Lung, and Blood Institute/American Heart Association conference on scientific issues related to definition [J]. Circulation,2004,109 (3): 433-438.
[30]Eckel RH, Grundy SM, Zimmet PZ. The metabolic syndrome [J].Lancet,2005, 365(9468):1415-1428.
[31]李少存,莫蛮.单纯性肥胖儿童代谢综合征成份分析,中国现代医学杂志[J],2005,8,15(15):2329-2331
[32]Tan GD, Olivecrona G, Karpe F, et al. Insulin sensitisation affects lipoprotein lipase transport in type 2 diabetes:role of adipose tissue and skeletal muscle in response to rosiglitazone [J].Diabetologia,2006,49(10):2412-2418.
[33]NakamuraT,TokunakaK,shimomuraI,etal.Contribution of visceral fat accumulation to the development of coronary artery disease in non-obesemen [J]. Atherosclerosis,1994,107:239-246.
[34]RimmEB,StampferMJ,GiovannucciE,etal.Body size and fat distribution as predictors of coronary heart disease among midleaged and older US men [J].AmJEpidemiol.1995,141:1117-1127.
[35]TairaK, HikitaM, kobayashiJ, etal.Delayed postprandial lipid metabolism in subjects with intra-abdominal visceral fat accumulation [J].EurJClimlnvest,1999, 29:301-308.
[36]Miyashita Y, shirai K, Itoh Y, et al. Low lipoprotein lipase mass in preheparin serum of type diabetes mellitus patients and its recovery with insulin therapy [J]. Diabetes Res Clin Pract,2002,56:181-187.
[37]Kobayashi J, Maruyma T, Watanabe H, et al. Gender differences in the effect of type 2 diabetes on serum lipids pre-heparin plasma lipoproteim lipase mass and other metabolic parameters in Japanese population [J]. Diabetes Res Clin Pract. 2003,62:39-45.
[38]Shirai K, Itoh Y, Sasaki H, et al. The effect of insulin sensitizen, troglitazone, on lipoproteim lipase mass in preheparin serum [J]. Diabetes Res Clin Pract,1999, 46:35-41.
[39]Kobayashi J, TaTeishi S, Maruyama T, et al. Marked reduction in serum high-density liporotein cholesterol levels in a woman with acute inflammation due to diabetic gangrene [J]. Clin Chim Acta,2003,335:33-38.
[40]Saiki A, Oyama T, Endo K, et al. Preheparin serum lipoproteim lipase mass might be a biomarker of metabolic syndrome [J]. Diabetes Res Clin Pract,2007, 77(3) [Electronic publication].
[41]DavignonJ, CohnJS. Triglycerides:A risk factor for cornary heart disease. AtherosclerosiS,1996; 124 Suppl:S5.
[42]汪俊军等.CM和VLDL代谢残粒与AS关系的研究进展.中国动脉硬化杂 志.2003,11(7):681-684.
[43]Carpe F, et al.Remnant-like lipoprotein particle cholesterol concentration and progression of coronary and vein-graft atherosclerosis in response to gemfibrozil treatment. Atherosclerosis.2001,157(1):181-187.
[44]Jeppesen J.Triglyceride concentration and ischemic heart disease.Circulation 1998,97:1027-103.
[45]陈忠,马根山,黄峻.脂蛋白脂酶活性与早发冠心病临床表型关系的初步探讨[J].中国病理生理杂志,2004,20(4):608-626
[46]Benlian P, de Gennes JL, Foubert L, et al.Premature athero-sclerosis in patients with familial chylomicronemia caused by mutations in the lipoprotein lipase gene.N Engl Med 1996,335(12):848-854.
[47]Kastelein JJ, Jukema JW, Zwinderman AH, et al.Lipoprotein lipase activity is associated with severity of angina pectori.Circulation 2000,102(14):1629-1633.
[48]倪燕君,刘厚钰,张顺财等.肝脂酶、脂蛋白脂肪酶在脂肪肝发病中的作用[J].中华消化杂志,1999,19(5):324-327.
[49]HendersonHE, Kastelein JJ, Zwinderman AH, et al. Lipoprotein lipase activity is decreased in a large cohort of patients with coronary artery disease and is associated with changes in lipids and lipoproteins [J]. J Lipid Res,1999, 40(4):735~743·
[50]Vik-Moh, Moen P, Mjos OD. Myocardial lipoproteins lipase activity during acute myocardial ischemia in dogs [J]. HormMetab Res,1982,14(2):85~88·
[51]Rip J, Nierman MC, Wareham NJ, et al. Serum lipoprotein lipase concentration and risk for future coronary artery disease:the EPICNorfolk prospective poulation study [J]. Arterioscler Tromb Vase Biol,2006,26:637-642.
[52]Hitsumoto T, Yoshinaga K, Aoyagi K, et al. Association between preheparin serum liporoteim lipase mass and acute myocardial infarction in japanese men[J]. J Atheroscler Thromb,2002,9:163-169.
[53]Taira K, Bujo H, Kobayashi J, et al. Positive family history for coronary heart disease and midband lipoproteim are potential risk factors of carotid athroscleosis in familial hypercholesterolemia [J]. Atherosclerosis,2002,160:391-397.
[54]王玉川,刘正娟,金宏英,赵成艳.单纯性重度肥胖儿童的血液流变学变化.[J]中国当代儿科杂志,1999,1(1):12-14.
[55]张美云,李立芳.单纯性肥胖儿童血脂、血液流变学观察和分析.[J]山西医科大学学报,2001,3(25):456-457.
[56]毛霞,马沛然.中重度单纯性肥胖儿童血液流变学研究.[J]中国实用儿科杂志,2000,15(3):170-171.
[57]毋小玉,陈青珍,张英.肥胖症儿童血脂及血液流变学分析.[J]中国卫生检验杂志,2007,17(2):305-306.
[58]许汪宇,陈文鹤.运动减肥对肥胖青少年血脂和脂肪肝的影响.上海体育学院硕士学位论文,2008:23.
[59]陆建峰等.8岁单纯性儿童的形态、机能、素质研究[J].广州体育学院学报2003,23(4):29-31.
[60]Li X. A study of intelligence and personality in children with simple obesity. Int J Obes Relat MetB Disord,1995,19(5):355-357.
[61]Sundquist J, Winkleby M.Country of birth, accultruation status and abdominal obesity in anational sample of Mexican-American women and men. Int J Epidemiol 2000,29(3):470-477.
[62]刘志诚,张京英.针灸对单纯性肥胖病人植物神经外周介质的影响[J].针灸学报,1989,5(1):15-19.
[63]Li ZP, Maglione M, Tu WL,et al. Meta-analysis:paarmacologic treatment of obesity [J].Ann Intern Med,2005,142(7):532-546.
[64]龚风华.关于肥胖机理及运动减肥处方的探讨[J].湖北广播电视大学学报,2007,27(7):159-160.
[65]刘一平,王有乐.肥胖与运动减肥研究进展[J].河北体育学院学报2007,3(21):67-70.
[66]李益明.葡萄糖转运体Ⅳ和糖尿病[J].国外医学内科学分册,997,(24):16-19.
[67]Goodyear LJ, Kahn BB:Exercise, glucose transport, and insulin sensitivity [J] Annu Rev Med,1998, (49):235-261·
[68]Bouchard C·Long-term programming of body size [J]·Nutr Rer,1996, (54):S8-S16·
[69]Aline Meirhaeghe,Nicole Helbecque,Cominique Cottel. β 2-adrenoceptor gene polymorphism,bodyweight,and physical activity[J]·The Lancet,1999,(353):896·
[70]李蕾,陈文鹤.肥胖症与运动减肥的研究进展[J].沈阳体育学院学报,2005,24(3):72-74.
[71]Saris WH, Blair SN, van Baak MA, et al.How much physicalactivity is enough to prevent unhealthy weight gain? Outcomeof the IASO 1st Stock Conference and consensus statement [J].Obes Rev.2003,4(2):101.
[72]叶超群,康玉华.肥胖症的运动疗法[J].现代康复,2001,5(9):7—9.
[73]沈洁.儿童肥胖症的干预治疗[J].国外医学内分泌学分册,2004,24(6):404—406.
[74]谭思洁,于学礼.肥胖幼儿减肥运动处方的研制及效果观察[J].中国运动医学杂志,2005,(24):439-442.
[75]冯炜权,谢敏豪等.运动生物化学研究进展[M].北京体育大学出版社2006:72
[76]李蕾,戚一峰,郭黎,陈文鹤.运动减肥中运动强度确定依据的实验研究[J].上海体育学院学报,2006,30(4):50-53.
[77]裴海成.实用肥胖症治疗学[M],北京:北京人民军医出版社,2006:23.
[78]马力宏.肥胖与遗传[J].天津体育学院学报,1998,13(3):7
[79]Tong J, Boyko EJ, Utzschneider KM, et al.Intra-abdominal fat accumulation predicts the development of the metabolic syndrome in non-diabetic Japanese-Americans. Diabetologia,2007(3):27.
[80]Larsson B.obesity and body fat distribution as predictors of coronaryheart disease.New York:Oxford University Press,1992:233-241.
[81]WHO Expert Consultation. Appropriate body mass index for Asian population and its implications for policy and intervention strategies [J].Lancet,2004, 363(9403):157-163.
[82]尹永英,李汝敏,沙蕾.代谢综合征基线调查[J].现代预防医学,,2006,33(4):520-521.
[83]Sabina Paglialunga, Katherine Cianflone. Regulation of postprandial lipemia:an update on current trends. [J] Appl. Physiol. Nutr. Metab.2007(32):61-75.
[84]Tounian P, Aggoun Y, Dubern B, et al. Presence of increased Stiffiness of the common carotid artery and endothelial dysfunction in severely obese children:a prospective study [J].Lancet,2001,358(9291):1400-1404.
[85]DavignonJ, CohnJS.Triglycerides:A risk factor for cornary heart disease. Atherosclerosis,1996,124 Suppl:S5.
[86]南晓琴.儿童单纯性肥胖症对循环系统损坏的研究[D],山西:山西医科大学,2003:14.
[87]TraeyRE, NewmanWP, etal. Histologic features of atheroselerosis and hypertension from autopsies of young individuals in a defined geographic PoPulation:The Bogulusa Heart Study.Atheroselerosis,1995,116(2):163-179.
[88]Vasankari T, AhotuPa M, Toikka J, etal.Oxidized LDL and thickness of carotid intima-media areassoeiated with coronary atheroselerosis in midagedmen:lower levels of oxidized LDL with statin therapy.Aiherosclerosis,2001,155(2):403-412.
[89]RobinsHB.Distribution of lipids in 8500 men with coronary heart disease.AmJ Cardiol,1995,75:1196-1206.
[90]KitamuraA,IsoH,NaitoY,etal.Highdensity lipoprotein eholesterol and Premature coronary heart disease in urban Japanesemen.Circulation,1994,89:2533-2539.
[91]南晓琴.儿童单纯性肥胖症对循环系统损坏的研究[D],山西:山西医科大学2003:15.
[92]陈英杰等.不同强度规则有氧运动对青少年血脂影响的研究[J]沈阳体育学院学报,2008,27(1):56-59.
[93]陈礼平等,低密度与高密度脂蛋白胆固醇比值对冠心病的诊断价值,心脑血管病防治,2002,8(2)3:11-12
[94]Pruneta-Deloche V, Sassolas A, Berthezene F, et al.Alterationin lipoprotein lipase activity bound to triglyceride-richlipoproteins in the postprandial state in type 2 diabetes[J]. JLipid Res,2004,45:859-865.
[95]Kotlar, T, J, J.Borensztajn.Oscillatory changes in muscle lipoprotein lipase activity of fed and starved rats.Am.J.Physiol.1977,233:E316-E319.
[96]Miyashita Y,Shirai K,Yoshiaki J,et al.Low lipoprotein lipasemass in preheparin serum of type 2 diabetes mellitus patients and its recovery with insulin therapy [J]. Diabetes Res Clin Pract,2002,56(3):181-187.
[97]H.Watanabe et al. Preheparin serum lipoprotein lipase mass level:the effects of age, gender, and types of hyperlipidemias. Atherosclerosis,1999,145(1):45-50.
[98]Jean-Pierre Despres et al. Race,visceral Adipose Tissue, Plasma Lipids, and Lipoprotein Lipase Activity in Men and Women. Arteriosclerosis, Thrombosis,and Vascular Biology,2000(20):1932-1938.
[99]陈绮文.北京市城区成年超重肥胖人群肥胖相关行为因素分析[D].北京:北京体育大学:2006.
[100]Nicklas BJ, You T, Pahor M.Behavioural treatments for chronic systemic inflammation:effects of dietary weight loss and exercise training [J]. CMAJ (S0820-3946),2005,172(9):1199-1209.