研究生: |
陳瑟曼 Se-man Chen |
---|---|
論文名稱: |
直排輪環島運動對人體白血球數目及免疫球蛋白之影響 Effects of In-line skating around the island on white blood cell counts and the concentration of immunoglobulin. |
指導教授: |
徐孟達
Hsu, Meng-Da |
學位類別: |
碩士 Master |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2009 |
畢業學年度: | 97 |
語文別: | 中文 |
論文頁數: | 52 |
中文關鍵詞: | 直排輪環島運動 、白血球 、免疫球蛋白 、上呼吸道感染 |
英文關鍵詞: | In-line skating around the island, leukocyte, immunoglobulin, upper respiratory tract infections (URTI) |
論文種類: | 學術論文 |
相關次數: | 點閱:465 下載:28 |
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在運動或是體能訓練過程中,運動參與者因為不同運動型態、時間及負荷強度,造成免疫功能改變,這是許多研究者所關切的問題。目前以耐力性運動所做的生化相關研究,多以自行車或馬拉松賽跑等運動型態為主,因此本研探討直排輪環島運動對人體白血球數目及免疫球蛋白濃度之影響。本研究以9名健康男性(平均年齡:20.78 ± 2.22歲,溜齡:9.44 ± 2.13年,最大攝氧量:54.49 ± 5.87 ml•min-1•kg-1),進行連續七天的直排輪環島運動(全程953公里),並在環島出發前一天、第一天結束後、第四天出發前、第七天出發前、第七天結束後、結束後36小時、結束後10天,7個時間點進行採血,以比較總白血球、嗜中性球、淋巴球、單核球、免疫球蛋白A、免疫球蛋白G與免疫球蛋白M之差異,並記錄其上呼吸道感染機率,所得的數據,以重複量數單因子變異數分析,考驗其變異。結果發現連續七天的環島運動,其淋巴球、免疫球蛋白A、G、M,在第四、七天出發前,皆顯著低於出發前一天(p< .05)。其次,在環島運動的七天過程中,第一、七天運動後,其總白血球、嗜中性球、單核球數目比當日運動前顯著上升(p< .05);但淋巴球數目顯著下降,只有在環島第七天才發生。但環島一周內、環島後一周內期間的上呼吸道感染率,雖有上升的情形,但未達統計上顯著差異(p> .05)。隨著環島天數增加,連續長時間耐力運動後,免疫細胞會有下降的趨勢,降低免疫力,因而疾病感染的比例可能增加。因此在從事類似的活動時,應該在運動的時間、強度、持續天數及運動過程中飲食的選擇上,要加以注意,以避免運動過程中或運動後的免疫力下降,而造成疾病的感染。
Many researchers concerned the change of immunity when we were undertaken different exercise or training in different forms, duration, load. We knew some biochemical researches about endurance exercises liked cycling and marathon, but there were few researches about in-line skating. Hence, the present studied was focused on clarifying the effects of In-line skating around the island on white blood cell counts and the concentration of immunoglobulin. Nine male subjects (age = 20.78 ± 2.22years, VO2max = 54.49 ± 5.87 ml•min-1•kg-1) engaged in 7-day In-line skating around the island (distance = 953 km). Blood sample were collected at the 1st, 4th, 7th day before exercise around the island, immediately exhaustive exercise at the 1st, 7th day, and 36 hours, 10 days after exercise. Compared with the variation in leukocyte count, neutrophil count, lymphocyte count, monocyte count, and in the concentration of immunoglobulin A (IgA), immunoglobulin G (IgG), immunoglobulin M (IgM). The rates of upper respiratory tract infections (URTI) were recorded. Data were analyzed using repeated one-way ANOVA and Pair-Sample t test. Result: 1) Lymphocyte count, concentration of IgA, IgG, IgM at the 4th, 7th day were significant lower than the 1st day (p< .05) in the exercise of 7-day In-line skating around the island. 2) After the day around the island, leukocyte count, neutrophil count and monocyte count were higher than before significantly (p< .05), but lymphocyte count was lower significantly at the 7th day. 3) The rate of URTI increased in the exercise of 7-day In-line skating around the island and the next week after exercise, but the change were no significant. (p> .05) With the days around the island went by, the immune cell showed a tendency to fall and the immunity reduced after the long time and endurance exercise. Thus the ratio of infection may increase.
中文文獻
何仁育(2001)。免疫球蛋白與運動之相關探討。中華體育季刊,14 (4),115-123。
李俊季主編(1999)。輕鬆學直排輪。台北:二匠文化。
徐台閣(1998)。高強度耐力運動訓練對免疫功能的影響。未出版之博士論文。國立台灣師範大學體育研究所。台北市。
張凱綸、羅欣儀、許美智、王錫五(2004)。高強度運動後補充雞精對於免疫反應之影響。體育學報,37,35-46。
陳玉英、方進隆(1994)。身體活動量與上呼吸道感染關係之研究。中華民國體育學會體育學報,17 (8),335-350。
陳裕鏞、黃艾君(2008)。劇烈運動對淋巴細胞功能的影響:以上呼吸道感染為例。大專體育,94,186-194。
黃永任、呂丹妮、曾哲明、方進隆(1993)。間歇和連續密集耐力訓練對B淋巴球與巨噬細胞分泌作用之影響。體育學報,16,275-288。
黃永任(1994)。運動與上呼吸道感染。中華體育,7 (4),104-109。
黃永任(1994)。運動科學講座。台北:八熊星出版社。
劉宏文(2006)。動態恢復對短期跑步訓練後體內免疫細胞及其亞群數目的影響。未出版之碩士論文。國立台灣師範大學體育研究所。台北市。
蔡建宏(2005)。新興運動傳播模式之研究—以直排輪運動為例。未出版之碩士論文。國立體育學院體育研究所。屏東市。
英文文獻
Alexandra, A. A., Helen, T. D., Savvas, P. T., Alexandros, H. K., Evropi, G. P., & Emmanouil, G. S. (2007). Acute effect of soccer training on white blood cell count in elite female players. International Journal of Sports Physiology and Performance, 2, 239-249.
Alexandra, A., Helen, O., Savvas, T., Georgios, T., Athanasios, C., Argyris, T., & Alexandros, K. (2007). Acute Effects of Basketball Training on White Blood Cell Count. Inquiries in Sport & Physical Education, 5 (1), 165-172.
Andrei, I. M., Roy, J. S., & Pang, N. S. (2000). Exercise elevates plasma levels but not gene expression of IL-1β, IL-6, and TNF-αin blood mononuclear cells. Journal Application Physiology, 89, 1499-1504.
Ekblom, B., Karlsson, J., & Astrand, P. O. (1967). Training of the oxygen transport system in man. Journal Application Physiology, 22, 1061-1065.
Ekblom, B., Ekblom, O., & Malm, C. (2006). Infectious episodes before and after a marathon race. Scandinavian Journal of Medicine & Science in Sports, 16, 287-293.
Gmunder, F. K., Joller, P. W., Joller, H. I., Bechler, B., cogoli, M., Ziegler, W. H., Muller, J., Aeppli, R. E., & Cogoli, A. (1990). Effect of herbal yeast Food supplement and long-distance running on immunological parameters. British Journal of Sports Medicine, 24, 103-112.
Imrich, R., Tibenska, E., Koska, J., Ksinantova, L., Kvetnansky, R., Bergendiova, S. K., Blazicek, P., & Vigas, M. (2004). Repeated stress-induced stimulation of catecholamine response is not followed by altered immune cell redistribution. Annals of the New York Academy of Sciences, 1018, 266-272.
Inline Skating Resource Center. (1991). Health Benefits of Inline Skating[news and research]. Retrieved 2007/12/26 from the Web site: http://www.iisa.org/resources/health.htm
Lancaster, G. I., Khan, Q., & Drysdale, P. T. (2005). Effect of prolonged exercise and carbohydrate ingestion on type 1 and type 2 T lymphocyte distribution and intracellular cytokine production in humans. Journal of Applied Physiology, 8, 565-571.
Mackinnon, L. T., Chick, T. W., Van, A. A., & Tomasi, T. B. (1989). Decrease secretory immuneoglobulins following intense endurance exercise. Sports Training, Medicine, and Rehabilitation, 1, 209-218.
Mazzeo, R. S., Rajkumar, C., Rolland, J., Blaher, B., Jennings, G., & Esler, M. (1998). Immune response to a single bout of exercise in young and elderly subjects. Mechanisms of Ageing and Development, 100 (2), 121-132.
McCarthy, D. & Dale, M. (1988). The leuctxrytosis of exercise. Sports Medicine, 6, 333-363.
Mooren, F. C., Bloming, D., Lechtermann, A., Lerch, M. M., & Volker, K. (2002). Lymphocyte apoptosis after exhaustive and moderate exercise. Journal of Applied Physiology, 93 (1), 147-153.
Muns, G. (1994). Effect of long-distance running on polymorphonuclear neutrophil phagocytic function of the upper airways. International Journal of Sports Medicine, 15 (2), 96-99.
Nehlsen-Cannarella, S. L., Nieman, D. C., Balk-Lamberton, A. J., Markoff, P. A., Chritton, D. B., Gueswitch, W. G., & Lee, J. W. (1991a). The effect of moderate exercise training on immune response. Medicine and Science in Sports and Exercise, 23, 64-70.
Nehlsen-Cannarella, S. L., Nieman, D. C., Jessen, J., Chang, K., Gueswitch, G., Blix, G. G., & Ashley, E. (1991b). The effect of acute moderate exercise on lymphocyte function and serum immunoglobulin levels. International Journal of Sports Medicine, 12, 391-398.
Nieman, D. C., Joganssen, Lee, J. W., & Arabatzis, K. (1990). Infectious episodes in runners before and after the Los Angle Marathon. Journal of Sports Medicine and Physical Fitness, 30, 316-328.
Nieman, D. C., Henson, D. A., Austin, M. D., Brown V. A. (2005). Immune response to a 30-minute walk. Medicine and Science in Sports and Exercise, 37 (1), 57-62.
Nieman, D. C., Henson, D. A., Johnson, R., Lebeck, L., Davis, J. M., & Nehlsen-Cannarella, S. L. (1992). Effects of brief, heavy exertion on circulating lymphocyte subpopulations and proliferateive response. Medicine and Science in Sports and Exercise, 24, 1339-1345.
Nieman, D. C. (1994). Exercise, upper respiratory tract infection, and the immune system. Medicine and Science in Sports and Exercise, 24 (2), 128-139.
Nieman, D. C., Henson, D. A., Smith, L. L., Utter, A. C., Vinci, D. M., Davis, J. M., Kaminsky, D. E., & Shute, A. M. (2001). Cytokine changes after a marathon race. Journal of Applied Physiology, 91, 109-114.
Peter, E. M., & Bateman, E. D. (1983). Ultramarathon running and upper respiratory tract infections. South African Medical Journal, 64, 582-584.
Poortmans, T. R. (1970). Serum protein determination during short exhaustive physical activity. Journal of Applied Physiology, 30, 190-192.
Rhind, S. G., Gannon, G. A., Suzui, M., Shek, P. N., & Shephard, R. J. (1997). Circulating levels of peripheral blood leucocytes and cytokines following competitive cycling. Canadian Journal of Applied Physiology, 22 (2), 133-147.
Rollerblade. (1991). Inline fitness.[Experience inline]. Retrieved 2008/4/12 from the Web site: http://www.rollerblade.com/dynamic/skating4fitness.php?about=3&
Ronsen, O., Pedersen, B. K., Oritsland, T. R., Bahr, R., & Kjeldsen, K. J. (2001). Leukocyte counts and lymphocyte responsiveness associated with repeated bouts of strenuous endurance exercise. Journal of Applied Physiology, 91 (1), 190-192.
Snyder, A. C., O'Hagan, K. P., Clifford, P. S., Hoffman, M. D., & Foster, C. (1993). Exercise responses to in-line skating: comparisons to running and cycling. International Journal of Sports Medicine, 14, 38-42.
Stephenson, L. A., Kolka, M. A., & Wilkerson, J. E. (1985). Effcet of exercise and passive heat exposure on immunoglobulins and leucocyte concentrateions. In Dotson, C. O., & Humphrey, J. H. (Eds). Exercise physiology: Current selected research (pp. 145-157), Ams Press, Inc., New York.
Tvede, N., Kappel, M., Halkjaer, K. J., Galbo, H., & Pedersen, B. K. (1993). The effect of light, moderate and severe bicycle exercise on lymphocyte subsets, natural and lymphokine activated killer cells, lymphocyte proliferative response and interleukin-2 production. International Journal of Sports Medicine, 14, 275-282.
Vider, J., Lehtmaa, J., & Kullisaar, T. (2001). Acute immune response in respect to exercise-induced oxidative stress. Pathophysiology, 7(4), 263-270.
Wallick, M.E., Porcari, J. P., Wallick, S. B., Berg, K. M., Brice, G. A., & Arimond, G. R. (1995). Physiological responses to in-line skating compared to treadmill running. Medicine and Science in Sports and Exercise, 27, 242-248.