研究生: |
呂香珠 Hsiang-Chu Leu |
---|---|
論文名稱: |
不同運動強度對高密度脂蛋白膽固醇的影響 Effects of Acute Low and Moderate Exercise Intensities on High-Density Lipoprotein Cholesterol |
指導教授: |
林正常
Lin, Jung-Charng 吳文惠 Wu, Wen-Hui |
學位類別: |
博士 Doctor |
系所名稱: |
體育學系 Department of Physical Education |
畢業學年度: | 87 |
語文別: | 中文 |
論文頁數: | 總計78頁 |
中文關鍵詞: | 高密度脂蛋白膽固醇 、血漿總膽固醇 、血漿三酸甘油酯 、極低密度脂蛋白三酸甘油酯 、運動強度 |
英文關鍵詞: | high-density lipoprotein cholesterol(HDL-C), total cholesterol(TC), triacylglycerol(TG), very low density lipoprotein-triacylglycerol(VLDL-TG), exercise intensity |
論文種類: | 學術論文 |
相關次數: | 點閱:257 下載:12 |
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不同運動強度對高密度脂蛋白膽固醇的影響
研 究 生:呂香珠
民國八十八年六月 指導教授:林正常
吳文惠
摘 要
運動後,導致高密度脂蛋白膽固醇(HDL-C)增加的機制,可能在於運動消耗極低密度脂蛋白的三酸甘油酯(VLDL-TG),因而降低膽固醇酯轉送蛋白(CETP)的作用,進而抑制HDL-C與VLDL-TG的交換。
基於此一機制,以及中強度代謝較多VLDL-TG的研究事實,本論文的研究目的即在探討:中、低運動強度,當運動量足夠大時,是否皆能引起HDL-C增加?其次,在等運動量下,中強度運動對增加HDL-C的效果是否優於低強度運動?
本研究以10名健康、無抽煙習慣、年齡18~28歲之大學男生作為受試者。以單因子重複量數設計,依實驗平衡法,每位受試者分別接受55%VO2max中強度跑步,和35%VO2max低強度走步的運動處理,每次運動量為900卡。兩次運動間隔一星期。運動於晚餐後三小時開始進行,以EDTA的真空採血管採取血液樣本共四次,分別為運動當日早晨(空腹,當作基準樣本)、運動前10分鐘、運動停止後10分鐘、及運動停止後第11小時(第二天上午,空腹)。血漿分析項目有:HDL-C、總膽固醇、VLDL-TG、總TG四項,每一項資料皆依血容積修正過。
研究結果發現:中強度運動後10分鐘及11小時,HDL-C皆顯著多於基準值,總膽固醇量則無顯著減少;低強度運動之後,HDL-C和總膽固醇與基準值相比較,則皆無顯著差異。中強度運動後11小時,HDL-C的增加量為3.11±1.88mg/dl,增加率為8.09 ±5.24%,兩者皆顯著多於低強度運動(-0.34±2.85mg/dl、-0.74 ±6.86%)。而同時間,中強度運動後VLDL-TG顯著減少,低強度則否。總TG雖無顯著減少,但仍以中強度運動後減少較多。
本研究的結論是:在單次等運動量下,中強度對增加HDL-C的效果優於低強度。中強度運動後HDL-C顯著增加,與VLDL-TG被大量消耗掉有關。欲顯著增加HDL-C,如以中強度單次運動,則運動量達900卡即可;若以低強度運動,則900卡的運動量仍嫌不足。
關鍵詞:高密度脂蛋白膽固醇、血漿總膽固醇、血漿三酸甘油酯、
極低密度脂蛋白三酸甘油酯、運動強度。
Effects of Acute Low and Moderate Exercise Intensities on
High-Density Lipoprotein Cholesterol
June, 1999 Student: Hsiang-Chu Leu
Advisors: Jung-Charng Lin
Wen-Hui Wu
ABSTRACT
The purpose of this study was to investigate the effects of moderate intensity exercise (MIE) and low intensity exercise (LIE) with equal energy expenditure (900 Kcal) on high-density lipoprotein cholesterol (HDL-C). Ten healthy, no smoking habit male college students (18-28 yrs.) counterbalancedly performed treadmill running with MIE at 55%VO2max and walking with LIE at 35%VO2max on 7 days separately. Exercise was performed at 3 hours after dinner. For each trial, blood samples were collected at the morning pre-exercise in a fasted state for baseline, 10 min pre-exercise, 10 min post-exercise (IPE) and 11h post-exercise (11h PE, the next morning in a fasted state). Plasma HDL-C, total-cholesterol(TC), triacylglycerol(TG), and very low-density lipoprotein triacylglycerol (VLDL-TG) were measured. All samples were corrected for plasma volume changes. A significant increase (p<0.05) in HDL-C was observed at IPE and 11h PE after MIE trial, and there was no decrease in TC after both two trials. Both of the increasing magnitude and percentage of HDL-C after MIE were significantly higher than LIE (3.11±1.88mg/dl vs. -0.34 ±.85mg/dl; 8.09±5.24% vs. -0.74±6.86%). VLDL-TG was significantly decrease after MIE trial but not LIE trial. These results suggest that MIE is better than LIE to elevate HDL-C with equal energy expenditure, and the elevating effect of MIE on HDL-C is related to the consumption of VLDL-TG. It also suggests that 900 Kcal energy expenditure is enough to promote favorable changes in HDL-C by MIE but not LIE.
Key words: exercise intensity, high-density lipoprotein
cholesterol(HDL-C),
total cholesterol(TC), triacylglycerol(TG),
very low density lipoprotein-triacylglycerol(VLDL-
TG)
引用文獻
一、中文部份
行政院主計處。(1995)。中華民國台灣地區社會指標統計(頁20-
21),台北,行政院主計處。
林正常。(1995)。運動生理學實驗指引(頁179-180),台北,師大書苑。
林正常。(1997)。運動生理學(頁27),台北,師大書苑。
陳明豐。(1996)。冠狀動脈與心臟病(頁34-100),台北,健康世界雜誌社。
黃伯超(1996)。營養學精要(頁26-31), 台北,健康。
二、西文部份
Angelopoulos, T. J., Robertson, R. J., Goss, F. L., Metz, K. F., and Laporte R. E. (1993). Effect of repeated exercise bouts on high density lipoprotein-Cholesterol and its subfractions HDL2-C and HDL3-C. International Journal of Sports Medicine, 14(4), 196-201.
Annuzzi, G., Jansson, E., Kaijser, L., Holmquist, L., and Carlson, L. A. (1987). Increased removal rate of exogenous triglycerides after prolonged exercise in man: time course and effects of exercise duration. Metabolism,36(5), 438-443.
Assmann, G., and Schulte, H.(1992). Relation of high-density lipoprotein cholesterol and triglycerides to insidence of atherosclerotic coronary artery disease (the PROCAM experience). The American Journal of cardiology, 70(15), 733-737.
Baumstark, M. W., Stowesand, U., Keul, J., Berg, A. (1996). Exercise and activity of the cholesterol ester transfer protein (CETP). International Journal of Sports Medicine, 17, S31.
Bowers, R. W., & Fox, E. L. (1992). Sports physiology, (pp.55-73), U.S.A.: Wm.C.Brown.
Cohn, J. S., McNamara, J. R., Schaefer, E. J. (1988). Lipoprotein cholesterol Concentration in the plasm of human subjects as measured in the fed and fasted states. Clinic Chemistry, 34, 2456-2459.
Cole, T. G., Klotzsch, S. G., McNamara, J. R. (1994). Measurement of triglyceride concentration. In In Rifai, N., and Warnick, G. R(Eds), Laboratory measurement of lipids, lipoproteins and apolipoproteins , (p.82). U.S.A.:American Association for Clinical Chemistry.
Cullinane, E., Siconolfi, S., Saritelli, A., and Thompson, P. D. (1982). Acute decrease in serum triglycerides with exercise:is there a threshold for an exercise effect? Metabolism, 31(8), 844-847.
Davis, P. G., Bartoli, W. P., and Durstouine, J. L. (1992). Effects of acute exercise intensity on plasm lipids and apolipoproteins in trained runners. Journal of Applied Physiemographic Biology, 72(3), 914-919.
Dufaux, B., Order, U., Muller, R., and Hollman, W. (1986). Delayed effects of prolonged exercise on serum lipoproteins. Metabolism, 35(2), 105-109.
Durstine, J. L., Miller, W., Farrell, S., Sherman, W. M., and Ivy. J. L. (1983).Increase in HDL-cholesterol and the HDL/LDL cholesterol ratio during prolonged endurance exercise. Metabolism, 32(10), 993-997.
Eisenberg, S. (1984). High density lipoprotein metabolism. Journal of Lipid Research,25, 1017-1058.
Friedewald, W. T., Levy, R. I., Frederickson, D. S. (1972). Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clinic Chemistry, 18, 499-502.
Goldbourt, U., Yaari, S., and Medalie, J. H. (1997). Isolated low HDL cholesterol as a risk factor for coronary heart disease mortality. A 21-year follow up of 8000 men. Arteriosclerosis, Thrombosis, and Vascular Biology, 17(1), 107-113.
Gordon, D. J., Probstfield, J. L., Garrison, R. J., Neaton, J. D., Castelli, W. P., Knoke, J. D., Jacobs, D. R. Jr., Bangdiwala, S., Tyroler, H. A. (1989). High-density lipoprotein cholesterol and cardiovascular disease: four prospective American studies. Circulation, 79, 8-15.
Goodyear, L. J., Van Houten, D. R., Fronsoe, M. S., Rocchio, M. L., Dover, E. V., and Durstine, J. L. (1990). Immediate and delayed of marathon running on lipids and lipoproteins in women. Medincine and Science in Sports and Exercise, 22(5), 588-592.
Hardman, A.E., Hudson, A., Jones, P. R. M., Norgan, N. G. (1989). Brisk walking and plasm high-density lipoprotein cholesterol concentration in previously sedentary women. British Medical Journal, 229, 1204-1205.
Hicks, A. L., Macdougall, J. D., and Muckle, T. J. (1987). Acute changes in high-density lipoprotein cholesterol with exercise of different intensities. Journal of Applied Physiology, 63(5), 1956-1960.
Jialal, I., and Scaccini, C. (1994). Laboratory assessment of lipoprotein oxidation. In Rifai, N., and Warnick, G. R(Eds), Laboratory measurement of lipids, lipoproteins and apolipoproteins, (pp.307-308). U.S.A.: American Association for Clinical Chemistry.
Kantor, M. A., Cullinane, E. M., Herbrt, P. N., and Thompson, P. D. (1984). Acute increase in lipoprotein lipase following prolonged exercise. Metabolism, 33(5), 454-457.
Kantor, M. A., Cullinane, E. M., Sady, S. P., Herbert, P. N., and Thompson. P. D. (1987). Exercise acutely increases high density lipoprotein-cholesterol and lipoprotein lipase activity in trained and untrained men. Metabolism, 36(2), 188-192.
Lamon-Fava, S., McNamara, J. R., Farber, H. W., Hill, N. S., and Schaefer, E. J. (1989). Acute changes in lipid, lipoprotein, apolipo-protein, and low-density lipoprotein particle size after endurance triathlon. Metabolism, 38(9), 921-925.
Larrydurstine, J., and Haskell, W. (1994). Effects of exercise training on plasma lipids and lipoproteins. Exercise and Sport Sciences Reviews, 22, 477-521.
Lee, R., Nieman, D., Raval, R., Blankenship, J., Lee, J. (1991). The effects of acute moderate exercise on serum lipids and lipoprotein in mildly obese women. International Journal of Sports Medicine, 12(6), 537-542.
Lehninger, A. L., Nelson, D. L., and Cox, M. M. (1993). Principle of biochemistry, (p.677), New York: Worth.
Lennon, D. L. F., Stratman, F. W., Shrago, E., Nagle, F. J., Hanson, P. G., Madden, M., and Spennetta, T. (1983). Total cholesterol and HDL-cholesterol changes during acute,moderate-intensity exercise in men and women. Metabolism, 32, 244-249.
Oscai, L. B., Essig, D. A., and Palmer, W. K. (1990). Lipase regulation of muscle triglyceride hydrolysis. Journal of Applied Physiology, 69(5), 1571-1577.
Pay, H. E., Hardman, A. E., Jones, G. J. W., and Hudson, A. (1992). The acute effects of low-inensity exercise on plasma lipids in endurance-trained young adults. European Journal of Applied Physiology, 64, 182-186.
Poortmans, J. R. (1993). Protein metabolism. In J. R. Poortmans & Brussels(Eds.), Principles of exercise biochemistry, (pp.186-229). Switzerland: Karger.
Romijn, J. A., and Wolfe, R. R. (1992). Effects of prolonged exercise on endogenous substrate supply and utilization. In D.R. Lamb & C.V. Gisolfi(Eds.), Energy metabolism in exercise and sport, (pp.207-234).U.S.A.: Brown & Benchmark.
Romijn, J. A., Coyle, E. F., Sidossis, L. S., Gastaldelli, A., Horowitz, J. F., Endert, E., and Wolre, R. R. (1993). Regulation of endogenous fat and carbohydrate metabolism in relation to exercise intensity. American Journal of Physiology, 265(28), E380-E391.
Sahlin, K. (1986). Metabolic changes limiting muscle performance. In B. Saltin (Ed.), Biochemistry of Exercise VI, (pp.323-344). U.S.A.: Human Kinetics.
Sady, S., Cullinane, E. M., and Herbert, P. N. (1984). Training, diet and physical characteristics of distance runners with low or high concentrations of of high density lipoprotein cholesterol. Atherosclerosis, 53, 273-281.
Sady, S. P., Thompson, P. D., Cullinane, E. M., Kantor, M. A., Domagala E., and Herbert, P. N. (1986). Prolonged exercise augments plasma triglyceride clearance. Journal of American Medicine Association, 256(18), 2552-2555.
Schadfer, E. J., and McNamara, J. R. (1994). Overview of the diagnosis and treatment of lipid disorders. In Rifai, N., and Warnick, G. R(Eds), Laboratory measurement of lipids, lipoproteins and apolipoproteins, (p.25). U.S.A.: American Association for Clinical Chemistry.
Sink, K. R., Thomas, T. R., Araujo, J., Hill, S. F. (1989). Fat energy use and plasma lipid changes associated with exercise intensity and temperature. European Journal Applied Physiology, 58, 508-513.
Skinner, E. R., Watt, C., and Maughan, R. J. (1987). The acute effect of marathon running on plasma lipoprotein in female subjects. European Journal of Applied Physiology, 56, 451-456.
Smith, S. J., Cooper, G. R., Myers, G. L., Sampson, E. J. (1993). Biological variability in concentrations of serum lipids:sources of variation among results from published studies and composite predicted values. Clinic Chemistry, 39, 1012-1022.
Swank, A. M., Robertson, R. J., Deitrich, R. W., and Bates, M. (1987). The effect of acute exercise on high density lipoprotein-cholesterol and the subfractions in females. Artherosclerosis, 63. 187-192.
Tall, A. R. (1990). Plasma high density lipoproteins. Journal of Clinic Investigation, 86, 379-384.
Terstrat, J. Hessel, L. W., Seepers, J., Van Gent, C. M. (1978). The influence of meal frequency on diurnal lipid, glucose and cortisol levels in normal subjects. European Journal of Cilnic Investigation, 8, 61-66.
Thompson, P. D., Cullinane, E., Henderson, L. O., and Herbert, P. N. (1980). Acute effects of prolonged exercise on serum lipids. Metabolism, 29, 662-665.
Tucker, L. A., & Friedman, G. M. (1990). Walking and serum cholesterol in adults. American Journal of Public Health, 80, 1111-1113.
Visich, P. S., Goss, F. L., Gordon, P. M., Robertson, R. J., Warty, V., Denys, B. G., Metz. K. F. (1996). Effects of exercise with varying energy expenditure on high-density lipoprotein-cholesterol. Journal of Applied Physiology, 72. 242-248.
Willmore, J. H., & Costill, D. L.(1994). Physiology of sport and exercise. (pp.470-471). U.S.A.: Human Kinetics.