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研究生: 簡依潔
Yi-Chieh Chien
論文名稱: 油壓式阻力訓練對 心率變異性與生理反應之影響
The effects of hydraulic resistance training on heart rate variability and physiological responses in young women
指導教授: 何仁育
Ho, Jen-Yu
學位類別: 碩士
Master
系所名稱: 運動競技學系
Department of Athletic Performance
論文出版年: 2012
畢業學年度: 101
語文別: 中文
論文頁數: 74
中文關鍵詞: 心率變異性指標自律神經系統心肺適能
英文關鍵詞: heart rate variability index, autonomic nervous system, cardiovascular fitness
論文種類: 學術論文
相關次數: 點閱:199下載:41
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  • 目的:探討12週油壓式阻力訓練介入,對年輕女性之心率變異性、安靜時生理反應及最大攝氧量之影響。方法:參與者為16名女性,隨機分配至實驗組 (n = 8;年齡:22.3 ± 2.2歲;身高:161.2 ± 7.6公分;體重:57.3 ± 6.4公斤) 與控制組 (n = 8;年齡:22.5 ± 2.5歲;身高:161.1 ± 4.7公分;體重:56.3 ± 4.6公斤)。所有參與者於訓練前先進行檢測身高、體重、體脂肪百分比、血壓、安靜心跳率及最大攝氧量。實驗組進行為期12週的油壓式阻力訓練,每週3次,每次訓練以8站訓練器材為一循環,共有三循環。而控制組則不接受任何規律訓練。訓練結束後,所有參與者再進行檢測,檢測項目與訓練前相同。所得數據以混合設計二因子變異數 (two-way ANOVA,組別 x 時間,α = .05) 進行統計分析。結果:12週油壓式阻力訓練的介入可顯著提升年輕女性之心率變異性指標 (p< .05):總功率 (1252.9 ± 1405.5 ms2上升至4186.6 ± 3666.1 ms2)、高頻功率 (768.5 ± 1055.7 ms2上升至1223.9 ± 1021.1 ms2)、相鄰RRI 差異的均方根 (52.8 ± 48.3ms上升至117.7 ± 58.5 ms)、相鄰RRI 大於50 毫秒的比率 (23.1 ± 26.8 % 上升至59.9 ± 22.9 %);亦能夠改善安靜時的生理反應 (p < .05):降低安靜心跳率 (66.7 ± 11.0 bpm下降至55.4 ± 9.8 bpm)、改善收縮壓 (115.5 ± 9.1 mmHg下降至96.6 ± 6.8 mmHg)及體重 (57.3 ± 6.4 kg下降至55.4 ± 6.1 kg)。另外,最大攝氧量亦會有顯著的改善 (31.0 ± 6.1 ml ∕ kg ∕ min 上升至37.8 ± 6.5 ml ∕ kg ∕ min)(p < .05)。結論:透過12週油壓式阻力訓練可能改善年輕女性之自律神經系統功能,增加副交感神經調控,進而提升心率變異性、降低安靜心跳率與收縮壓、並提升最大攝氧量,增進心肺適能。

    Purpose: To investigate the effects of hydraulic resistance training on heart rate variability (HRV) and physiological responses in young women. Methods: 16 female volunteers were randomly divided into two groups: The experiment group (n = 8; age: 22.3 ± 2.2 years; height: 161.2 ± 7.6 cm; weight: 57.3 ± 6.4 kg) and control group (n = 8; age: 22.5 ± 2.5 years; height: 161.1 ± 4.7 cm; weight: 56.3 ± 4.6 kg). All participants completed the test on body composition, resting blood pressure, resting heart rate and VO2max before and after the 12 weeks of hydraulic resistance training. Only the experiment group performed the hydraulic resistance training, 3 times a week, 3 sets of 8 exercise stations in each training session. Data were analyzed by the mixed design two way ANOVA (group x time, α = .05). Results: After the hydraulic resistance training, the HRV index were significantly increased in young women (p < .05): Total power (from 1252.9 ± 1405.5 ms2 to 4186.6 ± 3666.1 ms2), high frequency power (from 768.5 ± 1055.7 ms2 to 1223.9 ± 1021.1 ms2), root mean square of the differences of successive RRI (from 52.8 ± 48.3 ms to 117.7 ± 58.5 ms), and proportion of adjacent RRI > 50 ms (from 23.1 ± 26.8 % to 59.9 ± 22.9 %). The resting heart rate (from 66.7 ± 11.0 bpm to 55.4 ± 9.8 bpm), systolic pressure (from 115.5 ± 9.1 mmHg to 96.6 ± 6.8 mmHg) and body weight (from 57.3 ± 6.4 kg to 55.4 ± 6.1 kg) were significantly decreased in experiment group (p < .05). And the VO2max were significantly improved (from 31.0 ± 6.1 ml ∕ kg ∕ min to 37.8 ± 6.5 ml ∕ kg ∕ min)(p < .05). Conclusion: 12 weeks of hydraulic resistance training may improve the autonomic nervous system function by increasing the parasympathetic activity, which then improve the HRV, decrease resting heart rate and systolic blood pressure and also improve the cardiovascular fitness.

    目次 中文摘要 i 英文摘要 ii 謝誌 iii 目次 iv 表次 v 圖次 vi 第壹章 緒論 1第一節 前言 1 第二節 問題背景 2 第三節 研究目的 4第四節 研究假設 4 第五節 研究範圍及限制 4 第六節 名詞操作型定義 5 第七節 研究重要性 6 第貳章 文獻探討 8 第一節 心率變異性之相關研究 8 第二節 油壓式阻力訓練之相關研究 17 第三節 文獻探討總結 20 第參章 研究方法 22 第一節 實驗參與者 22 第二節 實驗設計 22第三節 實驗器材 23第四節 實驗方法與程序 27 第五節 實驗控制 31 第六節 資料處理及統計分析 32 第肆章 結果 33 第一節 參與者基本資料 33 第二節 油壓式阻力訓練對心率變異性之影響 34 第三節 油壓式阻力訓練對生理反應與最大攝氧量之影響 45 第伍章 討論 51 第一節 油壓式阻力訓練對心率變異性之影響 51 第二節 油壓式阻力訓練對最大攝氧量之影響 53 第三節 油壓式阻力訓練對生理反應之影響 54 第四節 結論與建議 57 引用文獻 59 附件一 知情同意書 66 附件二 健康調查表 71 附件三 飲食紀錄表 72 個人小傳 74

    引用文獻
    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 ,國立體育大學,桃園縣。
    林嘉慶、黎俊彥 (2008)。規律運動訓練對心率變異性之影響。中華體育季刊,
    22(4),13-22。
    林彥廷 (2010)。阻力訓練對國小學童肌力、身體組成及心率變異度的影響。未出版碩士論文,國立東華大學,花蓮縣。
    郭堉圻、林彥廷 (2010)。阻力訓練對心率變異度的影響。中華體育季刊,24(4),22-29。
    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。
    陳淑如、蔡月霞、羅映琪、蔡宜珊、鄭綺 (2005)。心率變異度的簡介及護理上
    的應用。新臺北護理期刊,7(1),1-11。
    羅俊欽 (1998)。運動對高血壓的影響。中華體育季刊,12(2),61-68。
    Akselrod, S., Gordon, D., Ubel, F. A., Shannon, D. C., Berger, 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. E., Beckers, F., & Ramaekers, D. (2001). Short-term heart rate variability
    in young athletes. Journal of Cardiology, 37, 85-88.
    Benson, A. C., Torode, M. E., & Fiatarone Singh, M. A. (2008). The effect of high-intensity progressive resistance training on adiposity in children: A randomized controlled trial. International Journal of Obesity, 32, 1016-1027
    Bernardi, L., Salvucci, F., Suardi, R., Soldá, P. L., Calciati, A., Perlini, S., Falcone, C., &. Ricciardi, L. (1990). Evidence for an intrinsic mechanism regulating heart rate variability in the transplanted and the intact heart during submaximal dynamic exercise? Cardiovascular Research, 24, 969-981.
    Blair, S. N., Kohl, H. W., Paffenbarger, R. S., Clark, D. G., Cooper, K. H., &
    Gibbons, L. W. (1989). Physical fitness and all-cause mortality. Journal of the
    American Medical Association, 262(17), 2395-2401.
    Brentano, M. A., Cadore, E. L., Da Silva, E. M., Ambrosini, A. B., Coertjens, M., Petkowicz, R., Viero, I., & Kruel, L. F. M. (2008). Physiological adaptations to strength and circuit training in postmenopausal women with bone loss. Joural of Strength and Conditioning Research, 22(6), 1816-1825.
    Carter, J. B., Banister, E. W., & Blaber, A. P. (2003). Effect of endurance exercise on
    autonomic control of heart rate. Sports Medicine, 33(1), 33-46.
    Carnethon, M. R., Golden, S. H., Folsom, A. R., Haskell, W., & Liao, D. (2003).
    Prospective investigation of autonomic nervous system function & the development of type 2 diabetes: The Atherosclerosis risk in communities study, 1987-1998. Circulation, 107(17), 2190-2195.
    Chen, H.L., & Chen, C.C. (2004). Effects of a single bout of intensive eccentric contractions at varying repetitions on muscle damage. Annual Journal of Physical Education and Sports Science, 4, 113-127
    Christou, D. D., Jones, P. P., & Seals, D. R. (2003). Barore flex buffering in sedentary and endurance exercise-trained healthy men. Hypertension,41,1219-1222.
    Cooke, W.H., & Carter, J.R. (2005). Strength training does not affect vagal–cardiac control or cardiovagal baroreflex sensitivity in young healthy subjects. European Journal of Applied Physiology, 93,719-725.
    Cooney, M. M., & Walker, J. B. (1986). Hydraulic resistance exercise benefits
    cardiovascular fitness of spinal cord injured. Medicine and Science in Sports and
    Exercise, 18(5), 522-525.
    Ewing, D. J., Neilson, J. M., Shapiro, C. M., Stewart, J. A., & Reid, W. (1991).
    Twenty four hour heart rate variability: effects of posture, sleep, and time of day in healthy controls and comparison with bedside tests of autonomic function in
    diabetic patients. British Heart Journal, 65(5), 239-244.
    Fallen, E. L., Kamath, M.V., Ghista, D. N., & Fitchett, D. (1988). Spectral analysis of
    heart rate variability following human heart transplantation: Evidence for
    functional reinnervation. Journal of Autonomic Nerve System, 23, 199-206.
    Faulkner, M. S., Hathaway, D., & Tolley, B. (2003). Cardiovascular autonomic
    function in healthy adolescents. Heart & Lung: Journal of Acute and Critical
    Care, 32(1), 10-22.
    Figueroa, A., Kingsley, D. J., Mcmillan, V., & Panton, L. B. (2008). Resistance exercise training improves heart rate variability in woman with fibromyalgia. Clinical Physiology and Functional Imaging, 28, 49-54.
    Franklin, B.A., & Swain, D.P. (2003). New insights on the threshold intensity
    for improving cardiorespiratory fitness. Preventive Cardiology,6(3), 118-121.
    Galinier, M., Pathak, A., Fourcade, J., Rodias, C., Curnier, D., Varnous, S., Boveda, S., Massabuau, P., Fauvel, M., Senard, J.M., & Bounhoure, J.P.(2000). Depressed low frequency power of heart rate variability as an independent predictor of sudden death in chronic heart failure. European Heart Journal, 21(6), 475-482.
    Gabriel, D. A. (1991). Fatigue patterns for accommodating hydraulic resistance
    exercise. Journal of Applied Sport Science Research, 5, 6-20.
    Golden, H.P., & Vaccaro, P. (1984). The effects of endurance training on the anaerobic threshold. Journal of Sports Medicine and Physical Fitness, 24, 205-211.
    Goldsmith, R. L., Bigger Jr, J. T., Bloomfield, D. M., & Steinman, R. C. (1997).
    Physical fitness as a determinant of vagal modulation. Medicine and Science in Sports and Exercise, 29(6), 812-817.
    Haennel, R., Teo, K. K., Quinney, A., & Kappagoda, T. (1989). Effects of hydraulic
    circuit training on cardiovascular function. Medicine and Science in Sports and Exercise, 21(5), 605-612.
    Hunter, G. R., Bryan, D. R, Wetzstein, C. J., Zuckerman, P. A., & Bamman, M. M. (2002). Resistance training and intra-abdominal adipose tissue in older men and women. Medicine and Science in Sports and Exercise, 34, 1023-1028.
    Ibanez, J., Izquierdo, M., Arguelles, I., Forga, L., Larrion, J. L., & Garcia-Unciti, M. (2005). Twice-weekly progressive resistance training decreases abdominal fat and improves insulin sensitivity in older men with type 2 diabetes. Diabetes Care, 28(3), 662-667
    Ishida, R., & Okada, M. (1997). Spectrum analysis of heart rate variability for
    the assessment of training effects. The Japanese Journal of Clinical
    Pathology, 45(7), 685-688.
    Jacobs, I., Bell, D., Pope, J., & Lee, W. (1987). Effects of hydraulic resistance circuit
    training on physical fitness components of potential relevance to +Gz tolerance. Aviation, Space, and Environmental Medicine, 58(8), 754-760
    Kasch, F. W., & Boyer, J. L. (1990). The effect of physical activity and inactivity on aerobic power in older men. The Physician and Sportsmedicine, 16, 73-83.
    Katch, F. I., Freedson, P. S., & Jones, C. A. (1985). Evaluation of acute
    cardiorespiratory responses to hydraulic resistance exercise. Medicine and Science in Sports and Exercise, 17(1), 168-173.
    Kelley, G.A., & Kelley, K.S. (2000). Progressive resistance exercise and resting blood pressure: A meta-analysis of randomized controlled trials. Hypertension, 35, 838-843.
    Kokkinos, P. F., Narayan, P., & Papademetriou, V. (2001). Exercise as hypertension therapy. Cardiology Clinics, 19(3), 507-516.
    Langley, J. N. (1921). The Autonomic Nervous System. Cambridge: Heffer and Sons.
    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 rest in healthy young and older men. The American Journal of Cardiology, 82(10), 1236-1241.
    Lu, W., & Kuo, C. (2003). The effect of Tai Chi Chuan on the autonomic nervous modulation in older persons. Medicine and Science in Sports and Exercise, 35(12), 1972-1976.
    Macdougall, D., & Sale, D. (1981). Continuous v.s. interval training: A review for the athlete and coach. Canadian Journal of Applied Sport Science, 6(2), 93-97.
    Macor, F., Fagard, R., & Amery, A. (1996). Power spectral analysis of RR interval and
    blood pressure short-term variability at rest and during dynamic exercise: comparison between cyclists and controls. International Journal of Sports Medicine, 17(3), 175-181.
    Malliani, A., Pagani, M., Lombardi, F., & Cerutti, S. (1991). Cardiovascular
    neural regulation explored in the frequency domain. Circulation, 84(2),
    482-492.
    Pescatello, L.S., Franklin, B.A., Fagard, R., Farquhar, W.B., Kelley, G.A., & Ray, C.A. (2004). American College of Sports Medicine, position stand: Exercise and hypertension. Medicine and Science in Sports and Exercise, 36(3), 533-553.
    Pollock, M.L., Franklin, B.A., Balady, G.A., Chaitman, B.L., Fleg, J.L., Fletcher, B., Limacher, M., Piña, I.L., Stein, R.A., Williams, M., & Bazzarre,T. (2000). Resistance exercise in individuals with and without cardiovascular disease : Benefits, rationale, safety, and prescription an advisory from the committee on exercise, rehabilitation, and prevention, council on clinical cardiology. Circulation. 101,828-833
    Pomeranz, B., Macaulay, R. J., Caudill, M.A., Kutz, I., Adam, D., Gordon, D., Kilborn, K. M., Barger, A. C., Shannon, D. C., Cohen, R. J. & Benson, H. (1985). Assessment of autonomic function in humans by heart rate spectral analysis. American Journal of Physiology, 248(17), 151-153 .
    Puig, J., Freitas, J., Carvalho, M. J., Puga, N., Ramos, J., Fernandes, P., Costa, O., & de Freitas, A. F. (1993). Spectral analysis of heart rate variability in athletes.
    Journal of Sports Medicine and Physical Fitness, 33(1), 44-48.
    Rankinen, T., & Bouchard, C. (2002). Genetics and blood pressure response to exercise, and its interactions with adiposity. Preventive Cardiology, 5(3), 138-144.
    Sands, K. E., Appel, M. L., Lilly, L. S., Schoen, F. J., Mudge, G. H. J., & Cohen, R.
    J.(1989). Power spectrum analysis of heart rate variability in human cardiac
    transplant recipients. Circulation, 79, 76-82.
    Shin, K., Minamitani, H., Onishi, S., Yamazaki, H., & Lee, M. (1997).
    Autonomic differences between athletes and nonathletes: Spectral analysis approach. Medicine Science in Sports Exercise, 29(11), 1482-1490.
    Singer, D. H., Baumgarten, C. M., & Ten Eick, R. E. (1981). Cellular electrophysiology of ventriculare and other dysrhythmias: Studies on diseased
    and ischemic heart. Progress Cardiovascular Disease, 24(2), 97-156.
    Stanton, J. A., & Lowenthal, D. T. (2000). The evidence for lifestyle modification in lowering blood pressure in the elderly. Amateur Journal of Geriatric Cardiology, 9(1), 27-33.
    Takeshima, N., Rogers, M. E., Islam, M., Yamauchi, T., Watanabe, E. & Okada,
    A. (2004). Effect of concurrent aerobic and resistance circuit exercise training on fitness in older adults. European Journal of Applied Physiology, 93, 173-182
    Takahashi, A. C. M., Melo, R. C., Quitério, R. J., Silva, E., & Catai, A. M. (2009).The effect of eccentric strength training on heart rate and on its variability during isometric exercise in healthy older men. European Journal of Applied Physiology, 105(5), 315-323.
    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. Circulation, 93(5), 1043-1065.
    Treuth, M. S., Hunter, G. R., Pichon, C., Figueroa-Colon, R., & Goran, M. I. (1998). Fitness and energy expenditure after strength training in obese prepubertal girls. Medicine and Science in Sports and Exercise, 30,1130-1136.
    Weltman, A., Janney, C., Rians, C. B., Strand, K., Berg, B., Tippitt, S., Wise, J., Cahill, B.R., & Katch, F. I. (1986). The effects of hydraulic resistance strength training in pre-pubertal males. Medicine and Science in Sports and Exercise, 18 (6), 629-638.
    Williams, B., Lindholm, L.H., & Sever, P. (2008). Systolic pressure is all that matters. The Lancet, 36 (8), 2219-2221.

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