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研究生: 連又旻
Lien, Yu-Min
論文名稱: 運用等時置換模型探討高齡者身體活動取代靜態行為與失能風險之關聯性
Associations Between Replacing Sedentary Behavior with Physical Activity and the Risk of Disability in Older Adults: An Isotemporal Substitution Analysis
指導教授: 胡益進
Hu, Yih-Jin
廖邕
Liao, Yung
口試委員: 胡益進
Hu, Yih-Jin
廖邕
Liao, Yung
溫瓊容
Wen, Chiung-Jung
口試日期: 2023/06/09
學位類別: 碩士
Master
系所名稱: 健康促進與衛生教育學系
Department of Health Promotion and Health Education
論文出版年: 2023
畢業學年度: 111
語文別: 英文
論文頁數: 54
中文關鍵詞: 身體活動靜態行為等時置換失能高齡者
英文關鍵詞: physical activity, sedentary behavior, time substitution, disability, older adults
DOI URL: http://doi.org/10.6345/NTNU202300969
論文種類: 學術論文
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  • 研究目的:促進輕強度與中高強度的身體活動並減少靜態行為,對於高齡者的生理功能,以及總體健康的提升有著正向促進的效益。然而,在過去的研究中,不同強度身體活動的時間組合對於失能風險的關聯性並無進一步的研究。因此,本研究旨在探討使用輕強度或中高強度的身體活動取代靜態行為和失能風險的關聯性,並著重探究輕強度與中高強度身體活動之不同時間組合與失能風險的關聯性。
    研究方法:220位65歲以上的高齡者 (平均年齡:76.91歲) 納入於本研究並進行分析。以三軸加速規 (ActiGraph wGT3X-BT) 測量日常生活中的輕強度、中高強度身體活動以及每日靜態行為時間。高齡者之失能風險測量則運用工具性日常生活活動之量表進行評估。輕強度、中高強度身體活動取代靜態行為時間與失能風險之關聯性,使用等時置換模型進行研究分析。
    研究結果:在高齡族群中,靜態行為與較高的失能風險有顯著相關,輕強度身體活動與中高強度身體活動則均與較低的失能風險有相關性。運用輕強度身體活動取代靜態行為時間與高齡者較低的失能風險有相關 (勝算比=0.658, 95% 信賴區間=0.457-0.949),然而,中高強度身體活動取代靜態行為時間則並未發現相關性。在不同強度身體活動之時間組合中,每一組取代靜態行為的身體活動組合均與高齡者較低的失能風險有顯著關聯性。
    研究結論:為達到預防失能的目標,本研究建議高齡族群需多加累積日常生活中輕強度的身體活動來取代靜態行為,以及可以結合輕強度身體活動與其他強度的活動來取代靜態行為。建議未來研究可運用縱貫性研究設計,來檢驗本研究之發現。

    Objectives: Promoting light-intensity physical activity (LPA), moderate-to vigorous-intensity physical activity (MVPA) and spending less time in sedentary behavior (SB) had positive effects on physical function and improve overall health in elderly. However, previous studies had not examined the association of mixed share time with different intensities of physical activity (PA) and the risk of disability. Thus, we examined the associations of replacing SB with LPA or MVPA, including the mixed share time with LPA and MVPA on disability.
    Methods: A total of 220 older adults aged 65 years or over (mean age: 76.91) were included and analyzed. Tri-axial accelerometer (ActiGraph wGT3X-BT) was used to record the daily PA of LPA and MVPA as well as the daily SB. The risk of disability in elderly was examined with the Instrumental Activities of Daily Living Scale (IADLs). Isotemporal substitution analysis was conducted to examine the associations of replacing SB with LPA, MVPA and time replacement on disability.
    Results: In the older population, the result of SB was associated with higher risk of disability, and the results of LPA and MVPA were all associated with lower risk of disability. Replacing the time spent in SB with LPA was associated with lower risk of disability in elderly (Odds ratio, [OR]=0.658, 95% Confidence Interval [CI]=0.457-0.949), however, no association was found with MVPA. In the combinations of time with different intensities of PA, each PA combination of replacing SB all significantly had the association with lower risk of disability in older adults.
    Conclusion: For achieving the goal of disability prevention, this study suggested that older adults could accumulate more LPA to replace SB in daily life and to combine LPA with other intensities of PA to replace SB. It was also suggested that future research could use a longitudinal design, to confirm our results.

    Chapter 1. Introduction 1 I. Background of research 1 1. Disability in Population Aging 1 2. The Importance of Disability Prevention Through the Lifestyle Changes 2 3. Increasing Physical Activity and Reducing Sedentary Behavior as the Protective Factors of Disability 3 4. The Health Benefits of Replacing Sedentary Behavior with Physical Activity 5 5. Literature review 6 II. Research Gap 15 III. Research Purpose 16 IV. Research Questions 16 V. Hypotheses 16 VI. Operational Definition 17 1. Physical Activity and Sedentary Behavior 17 2. Instrumental Activities of Daily Living 17 3. Isotemporal Substitution (IS) Model 17 4. Older Adults 18 Chapter 2. Methods 19 I. Participants and Research design 19 1. Participants 19 2. Research design 23 II. Measures 25 1. Physical Activity and Sedentary Behavior 25 2. Instrumental Activities of Daily Living 26 III. Covariates 27 IV. Statistical analyses 27 Chapter 3. Results 30 Chapter 4. Discussion 35 I. The Discussion of single-activity and partition models Results 35 II. The Discussion of IS model Results 37 III. The Discussion of Mixed redistribution-substitution model Results 42 IV. Limitations of Present Study 42 Chapter 5. Conclusion 43 References 44 Appendixes 50

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