研究生: |
林淑惠 |
---|---|
論文名稱: |
探討超級馬拉松跑與單次最大運動對選手生化差異影響之個案研究 |
指導教授: | 黃賢堅 |
學位類別: |
碩士 Master |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2002 |
畢業學年度: | 90 |
語文別: | 中文 |
中文關鍵詞: | 超級馬拉松 、單次最大運動 、疲勞 、能量代謝 、血脂肪 |
論文種類: | 學術論文 |
相關次數: | 點閱:245 下載:0 |
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一般運動時能量的選擇會因不同強度、持續時間而有所不同。短時間高強度運動以碳水化合物為主要的能量代謝來源,而長時間的運動能量代謝來源則慢慢的由碳水化合物轉向脂肪。因此就能量系統方面來看,體內能源物質過度消耗,會造成能量供應不足(如ATP、PC、肝醣、葡萄糖的減少)而導致疲勞,疲勞是在運動過程中影響運動表現之重要因素,尤以需長時間運動的運動員(Wilmore & Costill,1999;Powers & Howley,2001;謝伸裕,1997)。本研究目的在探討超級馬拉松跑與跑步機進行單次最大運動疲勞時對人體生化之影響及其差異情形,所得資料以描述統計法進行分析結果。本實驗乃針對目前國內最優秀的男性馬拉松選手進行個案研究,受試者的年齡為24歲,身高164公分,體重49公斤,100公里跑最佳成績為7:55’57”。本研究分為二個階段,第一階段為受試者參加100公里跑的比賽,並對受試者在比賽前1天和比賽後5分鐘、0.5小時、2小時、24小時、48小時進行採血,第二階段為受試者於電動跑步道上,依Bruce法進行單次最大運動測試,其抽血點同第一階段。以觀察選手在進行超級馬拉松比賽(全長100公里)與跑步機上進行單次最大運動後,其體內乳酸(LA)、血醣(glucose)及血脂肪(HDL、LDL、TC、TG)的變化情形。本研究結果經討論後,得到下列結論:一、受試者在參加100公里馬拉松跑後,其體內TC及LDL有下降的現象;乳酸有上升的情形,於賽後2小時還高達11.6mmol/L;TG含量有立即上升的情形;而血醣及HDL含量的變化並不顯著。二、受試者於跑步機上進行單次最大運動後乳酸、血醣及HDL均有上升的情形,但乳酸值於運動後0.5小時即恢復至安靜值;而LDL、TG、TC的變化都不明顯。三、100公里超級馬拉松跑與單次最大運動後其體內乳酸、血醣、高密度脂蛋白、低密度脂蛋白、三酸甘油脂及總膽固醇量會有不同的變化情形。 During regular exercise, the determination of the energy system varies with the intensity and duration of exercise. The main source of energetic metabolism comes from carbohydrate during short duration, high intensity exercise, while during long duration exercise, the source switches gradually from carbonhydrate to fat and protein. Therefore, as far as energetic system goes, the over-consumption of bodily energy substance will lead to the inadequate supply of energy and resulting in fatigue. Fatigue is the key factor to the performance during the exercise of the runner, especially of those who participate in long duration exercise(Wilmore & Costill, 1999; Powers & Howley, 2001; Hsieh, 1997).This study is aimed at the bio-chemical influence variations on the ultramarathon and maximal treadmill exercise.Descriptive statistics will be used to analysis the results. The study selects the best male marathon runner in Taiwan as the subject of this case study. The runner is 24 years old, 164 centimeters height and weights 49 kilograms. The best record of 100-Km marathon is 7:55’57”. The study is divided into two stages. In the first stage, the runner attends a 100-Km marathon race, and his blood were sampled one day before the race and 5minutes, half an hour, 24 hours, 48 hours after the race respectively. In the other stage, the runner receives the single maximal treadmill exercise test by Bruce protocol and the blood sampling were examined in the same way as described above. The study then observes of the change of LA, glucose,HDL, LDL, TC and TG of the runner in the ultramarathon race and in the treadmill for his maximal exercise. The conclusions of the study, after a keen discussion, are as follows: I. During post-ultramarathon period, the plasma LA and TG concentrations increase; the plasma LDL and TC concentrations dwindle, while Glucose and HDL concentrations do not show significantly different. II.No great changes were found in LDL, TG and TC, whereas the concentrations of LA, glucose and HDL increase after treadmill maximal exercise. III.After ultramarathon and single maximal exercise,We found the change conditions of LA,glucose,HDL,LDL,TC and TG are different.
During regular exercise, the determination of the energy system varies with
the intensity and duration of exercise. The main source of energetic
metabolism comes from carbohydrate during short duration, high intensity
exercise, while during long duration exercise, the source switches gradually
from carbonhydrate to fat and protein. Therefore, as far as energetic system
goes, the over-consumption of bodily energy substance will lead to the
inadequate supply of energy and resulting in fatigue. Fatigue is the key
factor to the performance during the exercise of the runner, especially of
those who participate in long duration exercise(Wilmore & Costill, 1999;
Powers & Howley, 2001; Hsieh, 1997).This study is aimed at the bio-chemical
influence variations on the ultramarathon and maximal treadmill exercise.
Descriptive statistics will be used to analysis the results.
The study selects the best male marathon runner in Taiwan as the subject of
this case study. The runner is 24 years old, 164 centimeters height and
weights 49 kilograms. The best record of 100-Km marathon is 7:55’57”. The
study is divided into two stages. In the first stage, the runner attends a 100-
Km marathon race, and his blood were sampled one day before the race and
5minutes, half an hour, 24 hours, 48 hours after the race respectively. In the
other stage, the runner receives the single maximal treadmill exercise test by
Bruce protocol and the blood sampling were examined in the same way as
described above. The study then observes of the change of LA, glucose,HDL,
LDL, TC and TG of the runner in the ultramarathon race and in the treadmill
for his maximal exercise.
The conclusions of the study, after a keen discussion, are as follows:
I. During post-ultramarathon period, the plasma LA and TG concentrations
increase; the plasma LDL and TC concentrations dwindle, while Glucose
and HDL concentrations do not show significantly different.
II.No great changes were found in LDL, TG and TC, whereas the
concentrations of LA, glucose and HDL increase after treadmill maximal
exercise.
III.After ultramarathon and single maximal exercise,We found the change
conditions of LA,glucose,HDL,LDL,TC and TG are different.
一、中文部分:
林正常。(1989)。運動生理學實驗指引。台北市:師大書苑。
黃永任。(1994)。運動科學講座。台北市:八熊星出版社。
楊錫讓。(1991)。運動生理學。中國文化大學出版部。
黃彬彬。(1995)。血脂肪過高者之運動處方。國民體育季刊,24卷(4)期,第23-28頁。
賴金鑫。(1998)。運動醫學講座第二輯。台北市:健康世界雜誌社。
楊亮梅。(1993)。身體活動狀況及健康體能與血脂肪之比較研究。國立台灣師範大學體
育研究所,台北巿,臺灣。
王秀華。(1995)。中年男性身體活動和體能狀況與血脂肪之比較研究。國立台灣師範大
學體育研究所,台北巿,臺灣。
李彩華。(1998)。十二週體能訓練對婦女健康體能與血脂肪之影響,體育學報, 26,第
145-152頁。
黃賢堅。(1997)。從無氧性與有氧性運動中探討Alanine、Urea
、Lactic Acid及Glucose的相關性。師大體育研究, 13,第179-196頁。
林正常。(2001)。運動訓練法。藝軒圖書出版社。
陳坤檸。(1986)。骨骼肌運動能量代謝。中華體育, 28期,第126-135頁。
林文弢。(2000)。運動訓練生化分析。中國文化大學出版部。第25-39頁。
謝伸裕。(1997)。基礎運動生物化學。力大圖書出版社。
李正美。(1992)。水中有氧運動訓練對婦女有氧體適能、身體組成及血液生化值之影響
。中華民國大專院校體育總會八十一年度體育學術研討會專刊,207-216。
譚健民。(1994)。血脂肪知多少---漫談膽固醇,北市醫誌,38卷11期,頁61-63。
張瑞豪。(1980)。不同攝氣能量對恢復期乳酸排除的影響。國立臺灣師範大學體育研究
所,台北巿,臺灣。
蔡仁祥。(1986)。次最大量運動對於阻塞型睡眠呼吸中止症侯群患者之影響。國立陽明
大學生理學研究所,台北巿,臺灣。
薩來欣。(1990)。耳穴貼壓刺激對激烈運動前後生理反應之影響。國立臺灣師範大學體
育研究所,台北市,臺灣。
陳樹屏。(1990)。不同肌肉群之動態恢復對血乳酸排除率的影響。國立臺灣師範大學體
育研究所,台北巿,臺灣。
李文志。(1994)。常壓低氧與常壓常氧模擬登山訓練對運動表現與生理反應的影響。國
立體育學院運動科學研究所,桃園縣,臺灣。
丁文琴。(1995)。不同運動強度恢復期女性血乳酸最高值之探討。國立臺灣師範大學體
育研究所,台北巿,臺灣。
林仁彬。(1996)。毫針刺激對運動後恢復期血清生化值及EPOC的影響。中國文化大學運
動教練研究所,台北巿,臺灣。
徐台閣。(1997)。高強度耐力運動訓練對免疫功能的影響。國立臺灣師範大學體育研究
所,台北巿,臺灣。
林嘉志。(1998)。運動訓練對氧化態低密度脂蛋白抑制流體媒介之血管舒張作用的生理
影響。國立臺灣師範大學體育研究所,台北巿,臺灣。
謝和龍。(2000)。室內拔河運動生理反應之研究。國立臺灣師範大學體育研究所,台北
巿,臺灣。
二、英文部分:
Adner, M. M., & Castelli, W. P. (1980). Elevated high-density lipoprotein
levels in marathon runners. Journal of American Medical Association 253: 534-
536.
Arthur, S. L., Casal, D., & Jacobs, D. J. (1996). Effect of 2000 kcal per
week of walking and Stair Climbing on Physical Fitness and risk factors for
country heart disease. The Journal of Cardiopulmonary Rehabil, 16: 183-192.
Aguilo, A., Castano, E., Taulor, P., Guix, M. P., Serra, N., & Pons, A. (
2000). Participation of blood cells in the changes of blood amino acid
concentrations during maximal exercise. Journal of Nutritional Biochemistry,
11: 81-86.
Bagan, R. D., & Gettman, L. R.(1983) . Maximel aerobic power, Body fat, and
serum lipoproteins in male distance runners. J. Cardiac. Rehab. 3: 331-337.
Ball-Burnett, M., Green, H., & Houston, M. (1991). Energy metabolism in human
slow and fast twitch fibers during prolonged cycle exercise. Journal of
Physiology 437: 257-67.
Basrtung, G. H., Foreyt, J. P., Mitchell, R. E., Vlasek, I., & Gotto, A. M.(
1980). Relation of diet to high-density-lipoprotein cholesterol in coronary
disease patients. Am. Beart J. 101:181-184.
Barbara, J. N., Leslie, K., Jan, B., & Andrew, P. G. ( 1997 ) . Increases
in hight density lipoprotein cholesterol with endurance exercise
training are blunted obese compared with lean men . Metabolism .
46(5): 556-561 .
Baumstark, M.W., Frey, I., & Berg, A. (1993). Aucte and delayed effect of
prolonged exercise on serum lipoprotein.II. Concentration and composition of
low-density lipoprotein subfractions and very low-density lipoproteins.
European Joumal of Applied Physiology,66(6): 526-530.
Brooks, G., & Mercier, J. (1994). Balance of carbohydrate and lipid
utilization during exercise: The “crossover” concept. Journal of Applied
Physiology, 76: 2253-61.
Coggin, A. (1991). Plasma glucose metabolism during exercise in humans. Sports
Medicine, 11: 102-24.
Coyle, E. F. et al. (1991). Carbohydrate metabolism during intense exercise
when hyperglycemic. Journal of Applied Physiology ,70: 834-40.
Callow, M., Morton, A., Guppy, M. (1986). Marathon fatigue:the role of plasma
fatty acids, muscle glycogen and blood glucose. European Journal of Applied
Physiology, 6: 654-661.
Coyle, E. F. (1992). Carbohydrate supplementation during exercise.
International Journal of Sports Nutritional, 122(3): 788-795.
Crouse, S. F., O’Brien B. C., Rohack, J. J., Lowe, R. C., Green, J. S.,
Tolson, H., Reed, J. L. (1995). Changes in serum lipids and apolipoproteins
after exercise in men with high cholesterol:influence of intensity. Journal
of Applied Physiology, 79(1): 279-286.
Davies, C. T., Thompson, M. W. (1986). Physiological responses to prolonged
exercise in ultramarathon athletes. European Joumal of Applied Physiology, 61(
2): 611-617.
Durstine, J. L., Miller, W., Farrell, S., Sherman, W. M., Lvy, J. L. (1983)
Increases in HDL-Cholesterol and the HDL/LDL cholesterol ratio during
prolonged endurance exercise. Metabolism,
32(10): 993-997.
Enger, S. C., Stromme, S. B., Refsum, H. E. (1980). High density lipoprotein
cholesterol, total cholesterol and triglycerides in serum after a single
exposure to prolonged heavy exercise. Scand. J. Clin. Lab. Invest. 40: 341-345.
Fallon, k. E., Broad, E., Thompson, M. W., Reull, P. A. (1998). Nutritional
and fluid intake in a 100km ultramarathon. International Journal of Sports
Nutritional, 8(1): 24-35.
Fallon, K. E., Sivyer, G., Sivyer, K., Dare, A. (1999). The biochemistry of
runners in a 1600km ultramarathon. British Journal of Sports Medicine, 33(4):
264-269.
Ginsburg, G. S., Agil, A., O’Toole, M., Rimm, E., Douglas, P. S., & Rifai,
N. (1996). Effects of a single bout of ultraendurance exercise on lipid levels
and susceptibility of lipids to peroxidation in triathletes. Journal of
American Medical Association, 276(3): 221-225.
Gollnick, P. (1985). Metabolism of substrates: Energy substrate metabolism
during exercise and as modified by training. Federation Proceedings, 44: 353-6.
Gollnick, P., & Saltin, B. (1988). Fuel for muscular exercise: Role of fat.
In Exercise, Nutrition, and Energy Metabolism. New York: Macmillan.
Goodman, M. (1988). Amino acid and protein metabolism. In Exercise, Nutrition,
and Energy Metabolism. New York: Macmillan.
Gutin, B.N., Cucuzzo, S., Islam, C., Smith, & M. E. Stachura .( 1996 ) .
Physical training , lifestyle education , and coronary risk factors in
Obese girls . Medicine and Science in Sports and Exercise . 28(1):
19-23 .
Halle, M., Berg, A., Vonstein, T., Baumstark, M.W., Konig, D., & Keul, J. (
1996). Lipoprotein(a) in endurance athletes, power athletes,& sedentary
controls. Medicine and Science in Sports and Exercise, 28 (8): 962-966.
Hargreaves, M. (1995). Skeletal muscle carbohydrate metabolism during
exercise, In Exercise Metabolism. Champaign, IL: Human Kinetics.
Hood, D., & Terjung, R. (1990). Amino acid metabolism during exercise and
following endurance training. Sports Medicine,9: 23-25.
Hughes, R. A., Thorland, W. G., Eyford, T., & Hood, M. P. E. (1990). The acute
effects of exercise duration on serum lipoprotein metabolism. The Joumal of
Sport Medicine and Physical Fitness. 30(1): 37-43.
Lamon-Fave, S., McNamara, J. R., Farber, H. W., Hill, N. S., & Schaefer, E.
J. (1989). Acute changes in lipid, lipoprotein, apolipoprotein, and low-
density lipoprotein particle size after and endurance triathlon. Metabolism,
38(9): 921-925.
Lennon, D. L., Stratman, F. W., Shrago, E., Nagle, F. J., Hanson, P. G.,
Madden, M., Spennetta, T. (1983). Total cholesterol and HDL-cholesterol
changes during acute, moderate-intensity exercise in men and women. Mitabolism,
32(3): 244-9.
MacLean, D. et al. (1991). Plasma and muscle amino acid and ammonia responses
during prolonged exercise. Journal of Applied Physiology,70: 2095-2103.
Mckechine, J. K., Leary, W. P., Noakes, T. D. (1982). Metabolic responses to a
qokm running race. South African Medicine Joumal,61(13): 482-484.
Myburgh, K. H., Viljoen, A., Tereblanche, S. (2001). Plasma lactate
concentrations for self-selected maximal effort lasting 1h. Medicine and
Science in Sports and Exercise, 33(1): 152-156.
Nagao, N., Imai, Y., Arie, J., Sawada, Y., & Karatsu, K. (1986). Comparison of
serum apolipoproteins and lipoproteins in active and inactive males. J. Sport
Med. 28: 67-73.
Noakes, T. D., Lambert, E. V., Lambert, M. I., Mcartyur, P. S., Myburgh, K.
H., Benade, A. J. (1988). Carbohydrate ingestion and muscle glycogen depletion
during marathon and ultramarathon racing European Journal of Applied
Physiology, 57(4): 482-489.
Noakes, T. D., & Carter, J. W. (1976), Biochemical parameters in athletes
before and after having run 160 kilometers. European Journal of Applied
Physiology, 50: 1562-1566.
Penny, G.D., Shaver, L.G., Carlton, J., & Kendall, D. W. (1982): Comparison of
serum HDL-C and HDL-totle cholesterol ratio in middle-age active and inactive
males. Journal of Sports Medician 22: 432-439.
Powers, S. K., & Howley, E. T. (2001). Exercise Physiology: Theory and
Application to Fitness and Performance.( 4th ed). New York : Mcgraw-Hill.
Richard, A. S., Donald, W. M., Hyman, S., Arlette, C. N. G., & Clinton, D. B. (
1990). Effects of different exercise training intensities on lipoprotein
cholesterol fractions in healthy middle-aged men. American Heart Journal. 119:
277-282.
Rimmer, J. H., Looney, M. A. ( 1997 ) . Effect of an aerobic activity
program on the cholesterol levels of adolescents . Research
Quarterly for Exercise and Sport . 68(1): 74-79 .
Romijin, J. et al. (1993). Regulation of endogenous fat and carbohydrate
metabolism in relation to exercise intensity. American Journal of Physiology,
265: E380-E391.
Rensburg, J. P., Kielblock, A. J., & Linde, A. (1986), Physiologic and
biochemical changes during a triathlon competition. International Journal of
Sports Medicine, 7: 30-35.
Saltin, B., & Gollnick, P. (1988). Fuel for muscular exercise: Role of
carbohydrate . In Exercise, Nutrition, and Energy Metabolism. New York:
Macmillan.
Stanley, P. S., Eileen, M. C., Ann, S., David, B., & Paul, D. T. (1988).
Elevated high-density lipoprotrein cholesterol in endurance Athletes is
related to enhanced plasma triglyceride clearance. Metabolism, 37(6): 568-572.
Stanley, W., & Connett, R. (1991). Regulation of muscle carbohydrate
metabolism during exercise. FASEB Journal 5: 2155-59.
Stephen, F.C., Barbara, C. O., Peter, W. G., Robert, C. L., James, J. R., &
John, S.G. (1997). Effects of training and a single session of exercise on
lipids and apolipoproteins in hypercholesterolemic men. Journal of Applied
Physiology, 83(6): 2019-2028.
Stephen, F.C., Barbara, C. O., Peter, W. G., Robert, C. L., James, J.R.,
John, S.G., & Homer, T. (1997).Training intensity, blood lipids, and
apolipoproteins in men with high cholesterol. Journal of Applied Physiology,
82(1): 270-277.
Tauler, E. P., Guix, M. P., Serra, N., & Pons, A. (2000). Participation:
Participation of blood cells in the changes of blood amino acid concentrations
during maximal exercise. Journal of Nutritional Biochemistry, 11: 81-86.
Thompson, P.D., Cullinane, E., Henderson, L.O., Herbert, P. N. (1980). Acute
effects of prolonged exercise on serum lipids. Metabolism. 29(7): 662-665.
Tolfrey, K., I. G. Campbell, & A. M. Batterham. ( 1998 ). Exercise
Training Induced Alterations in Prepubertal Children`s lipid -
lipoprotein profile . Medicine and Science in Sports and Exercise.
30(12): 1684-1692.
Turcotte, L. et al. (1995). Lipid metabolism during exercise, In Exercise
Metabolism. Champaign, IL: Human Kinetics.
Tsetsonis, N. V., Hardman, A. E. (1995). The influence of the intensity of
treadmill walking upon changes in lipid and lipoprotein variables in healthy
adults. European Journal of Applied Physiology Occup physiol, 70(4): 329-336.
Wilmore, J. H., & Costill, D. L., (1999) . Physiology of sport and exercise.
2nd.ed.chanpaign, IL. Human kinetics.
Williams, P. T., Wood, P. D., Haskell, W. L., &Vranizan, K. M. (1982). The
effect of running mileage and duration on plasma lipoprotein levels. Journal
of American Medical Association 47: 2574-2677.