文化大學機構典藏 CCUR:Item 987654321/40818
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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/40818


    Title: 脈動氧血紅素飽和度與高地訓練生理適應之研究
    The Relationships between Oxyhemoglobin Saturation and Physiological Acclimatization during Altitude Training
    Authors: 吳志銘
    張永政
    林正常
    Contributors: 運教所
    Keywords: 耐力訓練
    長跑
    訓練里程數
    Endurance training
    Long-distance race
    Training intensity
    Date: 2010-06
    Issue Date: 2018-10-25 13:16:18 (UTC+8)
    Abstract: Monitoring the peripheral blood flow oxygen saturation in patients undergoing hemodialysis or in intensive care unit is the clinical application of oxyhemoglobin saturation by pulse oximetry (SPO2), which is easy to use and non-invasive. The patients were supplied with oxygen if their SPO2 drop to abnormal level in order to avoid emergency syndromes such as anoxia or acute respiratory distress syndrome. This study applied the clinical application of SPO2 on endurance training, using the resting values of SPO2 and daily recorded heart rate, to investigate the influence of training intensity on SPO2 and heart rate variances. Purpose: to examine the influence of hypoxia environment (altitude training base, 1906m, average relative oxygen concentration was 16%) by monitoring daily resting SPO2 and Heart rate records on elite distance runners. Methods: monitoring and recording the daily SPO2 and heart rate values before sleep by portable pulse oximetry. Independent-Sample t test and one-way ANOVA were used to analyze difference of altitude training and sea-level training, and the variances of SPO2 and heart rate by training intensity. Results: after 3weeks of altitude training and 3weeks of sea-level training, the daily resting SPO2 and heart rate showed significant differences between altitude and sea-level training (SPO2: 95.39±2.49%, 97.56±1.18%, p<.05; HRrest: 63.55±8.26bpm, 58.24±6.33bpm, p<.05), however, there were no influence on two types of training sessions (F value: 0.482, 2.408, p>.05). Conclusion: in the hypoxia environment, the SPO2 decreased significantly. Subsequently, the physiological compensations such as heart rate, breath and pulmonary exchange ratio increased, which had close effects by environment oxygen saturation. For altitude training, we suggest that, through the daily rest SPO2 and heart rate monitoring, the records could be useful on athletes training program, considering the physiological aspect, and adjust the training intensity.
    Relation: 運動教練科學 18 2010.06[民99.06] 頁13-26
    Appears in Collections:[Graduate Institute of Sport Coaching Science ] journal articles

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