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研究生: 李建樺
Chien-Hua Li
論文名稱: 游泳運動對青少年心率變異度之影響
The Effects of Swimming Training on Heart Rate Variability in Adolescents
指導教授: 謝伸裕
Hsieh, Shen-Yu
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2005
畢業學年度: 93
語文別: 中文
中文關鍵詞: 游泳訓練心率變異度自主神經
英文關鍵詞: swimming training, heart rate variability, autonomic nervous
論文種類: 學術論文
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  • 心跳率是評估運動表現、監控運動強度、運動後恢復效果與過度訓練等生理指標之一。而心跳率會因自律神經活性的調控而表現變異,即所謂心率變異度(heart rate variability,HRV)。目的:探討游泳運動對青少年心率變異度之影響。方法:以健康而自願參與的青少年64名為受試者,年齡12~17歲,其中游泳選手42名,並依其專長距離分為短距離組(n = 18)、中距離組(n = 17)、長距離組(n = 7),以及一般控制組22人。受試者經五分鐘的心率變異度儀器測量,獲得極低頻功率(VLFP)、低頻功率比(LF%)、高頻功率比(HF%)、總功率(TP)等資料,而以 LF% 為評估心臟交感神經活性的指標,HF% 為評估心臟副交感神經活性的指標。並以 SPSS 10.0進行單因子變異數分析(one-way ANOVA)。以最近半年游泳選手比賽之最佳成績排名,換算相對地位量數給予適當運動表現分數,以皮爾遜積差相關求其相關。結果:在 R-R 波間期與 VLFP 方面,長距離組與一般組無顯著差異,而短、中距離兩組與一般組則有顯著差異(p<.05);在 LF% 與 HF% 方面,各組皆無顯著差異;在 TP 方面,短、長距離兩組與一般組皆無顯著差異,而中距離組與一般組則有顯著差異(p<.05);在游泳運動表現與 HRV 各變數之間,則無顯著相關。結論:青少年接受游泳訓練之後,其交感與副交感神經的活性並無明顯改變;中距離游泳選手的運動訓練方式,對心率變異度有明顯的影響;游泳的運動表現,則與 HRV 無相關性。

    Heart rate can be used to estimate performance, and to monitor exercise intensity,and recovery. It can also be used as an indication of training status.Heart rate is regulated by the activity of the autonomic nervous system, and the variation is the heart rate variability (HRV). Purpose :To examine the effects of swimming training on heart rate variability in adolescents(age 12~17). Methods: Subjects were 64 healthy adolescents who volunteered to participate in the study. Among them, 42 trained swimmers were divided into the short-distance group(SD,n=18), the medium-distance group(MD,n=17) and the long-distance group(LD,n=7). The other 22 subjects were the age-matched control group. The HRV data were calculated for 5 minutes for very low-frequency power (VLFP), low-frequency power ratio (LF%), high-frequency power ratio (HF%), and total power (TP). The swimmers were ranked by their best performance for the last 6 months. The results were converted into a relative score for their performance. The sympathetic activity of the heart with LF% and the parasympathetic activity with HF% was estimated. The data were analyzed with one-way ANOVA(SPSS 10.0). Pearson,s product-moment correlation was used to obtain coefficient in order to compare the differences. Results: In R-R interval and VLFP, there is little difference between the long-distance group and the general group, but a significant difference (p<.05) was observed between the short-distance group and the medium-distance group. There is not much difference among the 4 groups in LF% and HF%; In TP, there is little difference between the short and the long-distance groups and the general group, but a significant difference (p<.05) between medium-distance group and general group was seen, Little differences were shown between swimming performance and HRV. Conclusion: For adolescents, there is no evident change in the sympathetic activity and the parasympathetic activity of the heart after swimming training; The medium-distance swimming has a evident effect on HRV, and swimming performance has no relation to HRV.

    第壹章 緒論 ………………………………………………………1 一、前言……………………………………………………………1 二、研究目的………………………………………………………3 三、研究假設………………………………………………………4 四、名詞操作性定義………………………………………………4 五、研究的重要性…………………………………………………5 六、研究限制與範圍………………………………………………5 第貳章 文獻探討 …………………………………………………6 一、心率變異度在醫學上的臨床應用……………………………6 二、性別、年齡與心率變異度……………………………………9 三、運動與心率變異度……………………………………………9 四、本章總結………………………………………………………14 第參章 研究方法 …………………………………………………16 一、研究對象………………………………………………………16 二、實驗時間與地點………………………………………………16 三、實驗步驟與程序………………………………………………16 四、資料分析與處理………………………………………………17 第肆章 結果 ………………………………………………………18 一、受試者基本資料………………………………………………18 二、短、中、長距離游泳選手與一般組各項變數差異比較……18 三、游泳選手運動表現與各變數之相關分析……………………24 第伍章 討論與結論 ………………………………………………26 一、不同專長距離游泳選手與一般青少年的心率變異度比較…26 二、游泳選手運動表現與心率變異度相關性分析………………28 三、結論與建議……………………………………………………29 <附錄一>受試者須知……………………………………………32 <附錄二>受試者同意書…………………………………………33 <附錄三>受試者基本資料及健康情況調查表…………………34 <附錄四>受試者基本資料表(一)……………………………35 <附錄五>受試者基本資料表(二)……………………………36 <附錄六>受試者基本資料表(三)……………………………37

    一、中文部份
    李旺祚(1991)。生理學。台北市:合記圖書出版社。
    呂萬安、郭正典(2003)。太極拳對中老年人自律神經活性的效應。2003年心率變異度研討會論文摘要(頁31)。台北市。
    杜鎮宇(2002)。不同強度的規律運動訓練對人體安靜與運動狀態下心臟自主神經功能的影響。未出版碩士論文,國立體育學院,台北市。
    林清山(2001)。心理與教育統計學。台北市:東華書局。
    林正常(1998)。運動生理學(增訂一版)。台北市:師大書苑。
    林正常、林貴福、徐台閣、吳慧君(譯) (2002)。運動生理學:體適能與運動表現的理論與應用。台北市:藝軒。(Powers, K. S., & Howley, T. E., 2001)。
    吳正崑(2003)。長期從事外丹功運動對能量消耗和心率變異之影響。未出版碩士論文,國立臺灣師範大學,台北市。
    黃國禎、郭博昭、陳俊忠(1998)。長期從事太極拳運動對男性老年人安靜心率變異度之影響。體育學報,25,109-118。
    黃志偉、彭成龍、林建成(2003)。休息期呼吸頻率對國中生無氧衝刺運動表現之影響。九十二年全國大專院校運動會體育學術研討會論文集(下)(頁745-752)。台北市。
    黃新作(1992)。運動中心臟自律神經功能之變化~以心電圖R-R波間隔變動強度光譜解析法來探討。國立體育學院論叢,4(1),123-138。
    黃苹苹、王顯智(2005)。心率變異度分析在運動之應用。大專體育,77,63-68。
    郭正典、陳高揚(2001)。不同臥姿對自律神經活性的影響。臨床醫學月刊,47(5),314-321。
    陳高揚、郭正典、駱惠銘(2000)。心率變異度:原理與應用。中華民國急救加護醫學會雜誌,11(2),47-58。
    彭成龍(2002)。規律深呼吸對激烈運動後恢復期生理變項之影響。未出版碩士論文,國立臺灣師範大學,台北市。
    二、英文部分
    Akselrod , S., Gordon , D., Ubel , F. A., Shannon , D. C., Barger , A. C., &Cohen , R. J. (1981). Power spectrum analysis of heart rate fluctuation: a quantitative probe of beat-to-beat cardiovascular control. Science, 213(4504), 220-222.
    Aubert, A., Seps, B., & Beckers, F. (2003). Heart rate variability in athletes. Sports Medicine, 33(12), 889-919.
    Casolo, G., Balli, E., Taddei, T., Amuhasi, & J., Gori, C. (1989). Decreased spontaneous heart rate variability on congestive heart failure. The American Journal of Cardiology, 64, 1162-7.
    Costa, O., Freitas, J., Puig, J., Carvalho, M.J., Freitas, A., Ramos, J., Puga, N., Lomba, I., Fernandes, P., & de Freitas, F. (1991). Spectrum analysis of the variability of heart rate in athletes. Portuguese Journal of Cardiology. 10(1): 23-8.

    Elghozi, J. L. (2005). Sympathetic modulation of short-term heart rate variability. Retrieved May 21, 2005, from Advances Sympathetic Nervous System. Web site: http://sns-web.org/pages/advances/02/article.asp
    Hedelin, R., Wiklund, U., Bjerle, P., & Henriksson-Larse´n, K. (2000). Pre- and post-season heart rate variability in adolescent cross-country skiers. Scandinavian Journal of Medicine & Science in Sports, 10 (5), 298-303
    Hon, E.H., Lee, S.T.(1965). Electronic evaluations of the fetal heart rate patterns preceding fetal death: further observations. American Journal of Obstetrics and Gynecology, 87, 814-26.
    Kamath, M.V., Fallen, E.L.(1993). Power spectral analysis of heart rate variability: a noninvasive signature of cardiac autonomic function. Critical Reviews in Biomedical Engineering, 21, 245-311.
    Kienzle, M.G., Ferguson, D.W., Birkett, C.L., Myers, G.A., Berg, W.J., & Mariano, D.J.(1992). Clinical hemodynamic and sympathetic neural correlates of heart rate variability in congestive heart failure. The American Journal of Cardiology, 69, 482-5.
    Kleiger, R.E., Miller, J.P., Bigger, J.T., Moss, A.J., and the Multicenter Post-Infarction Research Group. (1987). Decreased heart rate variability and its association with increased mortality after acute myocardial infarction. The American Journal of Cardiology, 59, 256-62.
    La-Rovere, M.T., Bigger, J.T., Marcus, F.I., Mortara, A., &Schwartz, P.J. (1998). Baroreflex sensitivity and heart-rate variability in prediction of total cardiac mortality after myocardial infarction. Lancet. 14, 351(9101), 478-84.
    Levy, W.C., Cerqueira, M.D., Harp, G.D., Johannessen, K.A., Abrass, I.B., Schwartz, R.S., & Stratton, J.R.(1998). Effect of endurance exercise training on heart rate variability at reat in healthy young and older men. The American Journal of Cardiology,82(10), 1236-1241.
    Lishner, M., Akselrod, S., Avi, V.M., Oz, O., Divon, M., &Ravid, M. (1987). Spectral analysis of heart rate fluctuations. A non-invasive, sensitive method for the early diagnosis of autonomic neuropathy in diabetes mellitus. Journal of The Autonomic Nervous System, 19(2), 119-25.
    Lombardi, F., Sandrone, G., & Pernpruner, S.(1987). Heart rate variability as an index of sympathovagal interaction after myocardial infarction. The American Journal of Cardiology, 60, 1239-45.
    Lombardi, F., Sandrone, G., & Mortara, A.(1992). Circadian variation of spectral indices of heart rate variability after myocardial infarction. American Heart Journal , 123, 1521-9.
    Malliani, A., Pagani, M., Lombardi, F., & Cerutti, S.(1991). Cardiovascular neural regulation explored in the frequency domain. Circulation, 84, 1482-92.
    Mandigout, S., Melin, A., Fauchier, L., N’Guyen,L. D., Courteix, D., & Obert, P.(2002). Physical training increases heart rate variability in healthy prepubertal children. European Journal of Clinical Investigation, 32, 479–487.
    Rimoldi1, O., Pierini, S., Ferrari, A., Cerutti, S., Pagani, M., & Malliani, A.(1990). Analysis of short-term oscillations of R-R and arterial pressure in conscious dogs. The American Journal of Physiology, 258, 967-76.
    Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. (1996). Heart rate variability: Standards of measurement, physiological interpretation, and clinical use. European Heart Journal, 17, 354-81.
    Tuininga, Y. S., van Veldhuisen, D. J., Brouwer, J., Haaksma, J., Crijns, H. J., Man in't Veld, A. J., Lie, K. I. (1994). Heart rate variability in left ventricular dysfunction and heart failure: Effects and implications of drug treatment. British Heart Journal, 72(6), 509-513.
    Kuo, T. B. J., Lin, T., Yang, C. C. H., Li, Chia-Lin., Chen, Chieh-Fu., & Chou, P. (1999). Effect of aging on gender differences in neural control of heart rate. The American Journal of Cardiology, 277, 2233-H2239.
    Yataco, A.R., Fleisher, L.A., & Katzel, L.I.(1997). Heart rate variability and cardiovascular fitness in senior athletes. The American Journal of Cardiology, 80 (10), 1389-91

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