根據內政部統計資料顯示，2018年3月臺灣65歲以上老年人口，占總人口比率已達14.05%，臺灣正式邁入高齡社會的行列。高齡者因身體老化、疾病等因素，身體功能日益下降，特別是肌肉功能的減退，容易造成高齡者跌倒，進而影響其日常生活，嚴重還可能導致死亡，過往研究大多是針對65歲以上高齡者，進行大範圍的探討，鮮少針對各個年齡層細部探究，因此為深入了解高齡者之差異，本研究欲小範圍在85歲至99歲高齡者進行探討，透過8週的多元性運動課程介入，是否能有效提升肌少症高風險老老人的功能性體適能，並協助其維持其日常生活中身體活動的能力，達到有效預防、降低罹患肌少症的風險。研究對象共計42位，平均年齡87.83±2.78歲，研究對象為參與臺北市106年、107年悠活防跌班之肌少症高風險老老人，在經由8週多元性運動課程介入後，經前實驗設計之單組前、後測，得相關數據進行進行前、後測分析。結果顯示：肌少症高風險之老老人在參與8週多元性運動課程後，其坐姿起立、手臂彎舉項目有顯著進步；再針對肌少症低風險與肌少症高風險進行前後、測的比較差異，發現低風險組與高風險組僅在坐姿起立有顯著進步。因本研究介入時間僅有短短8週，所以相關結果成效表現有限，但對於85歲以上的老老人而言，特別是有罹患疾病風險的老老人，需透過更長時間的運動訓練，才能延緩老老人身體衰退的速度，方能保有該年齡階段所需具備的身體能力。但對此族群的老老人而言，功能性體適能未退步，且能保有維持日常生活之機能，就是最大的進步。

According to the data from Taiwan’s Ministry of the Interior, Taiwan has officially entered the stage of an aged society with people over 65 years old accounted for 14.05% of the country’s total population in March 2018. Due to aging, illness or other related factors, older adults’ physical function declines gradually, especially the decline of muscle functions, which will easily cause falls, and consequently impact older adults’ daily life. In serious cases, falls even lead to death. In the past, most of the researchers focused on the large scale investigations of older adults over 65 years old, while few researchers investigated the differences between each age. Therefore, this study narrowed down the research participants to ages between 85 to 99 years old, and aimed at understanding whether multi-component course can effectively improve the senior fitness test of oldest-olds with high risk of sarcopenia, and assist the maintenance of oldest-olds’ daily physical functions, in order to prevent and reduce the risk of sarcopenia. This research consisted of 42 participants (average age: 87.83±2.78), who joined Fall-Prevention class for older adults in Taipei city in 2017 and 2018. After 8 weeks of multi-component course, I used one-group pretest-posttest design of pre-experimental design to examine the analysis of pre-test and post-test of the oldest-olds’ senior fitness test. The results showed that oldest-olds with high risk of sarcopenia improved chair stand and arm curl items after 8 weeks of multi-component course. This research further focused on oldest-olds with high risk and low risk of sarcopenia to examine the differences between the pre-test and post-test of the oldest-old’s senior fitness tests. The results turned out that both oldest-olds with high risk and low risk of sarcopenia only improved chair stand. Multi-component course in this research only lasted for 8 weeks, so the results were restricted. For oldest-old over 85 years old, especially those with high risk of diseases, should have longer training time, so as to postpone the process of decrepitude and retain the required physical performance at this age. However, as far as oldest-olds are concerned, to not regress the senior fitness test and to maintain the ability of daily routine are the best benefits.

一、中文
方怡堯 (2015) 。生態學模式與多元性運動訓練介入對社區高齡者功能性體適能與休閒時間身體活動量之影響 (未出版博士論文)。國立臺灣師範大學，臺北市。
方怡堯、張少熙、何信弘 (2015) 。多元性運動訓練對社區高齡者功能性體適能之影響。體育學報，48(1)，59-72。
王秀華、李淑芳 (2011) 。不同運動階段老年婦女其功能性體適能與健康生活品質之研究。體育學報，44(3)，333-350。
王進華、陳慕聰、何國龍 (2008) 。老年人肌力訓練之生理意義與基本原則。北體學報， 16，93-103。
王靜玉、陳柏宏、蔡惠婷 (2018) 。[論文摘要] 對護理之家失能失智住民執行複合式運動計劃介入成果。物理治療，43(2)，153-153。
田詠惠、林貴福 (2006) 。走路運動對老年人平衡能力之影響。運動生理暨體能學報，5， 39-45。
田玉笛、王秀華、錢桂玉 (2015) 。以社區應用為導向之中老年人行動能力評估。中華體育季刊，29(1)，29-36。
行政院內政部 (2018) 。107年人口數調查。 取自:https://www.moi.gov.tw/stat/news_detail.aspx?sn=11735
行政院衛生署國民健康局 (2009) 。老人健康促進計畫(2009~2012)。臺北市：作者。
何信弘 (2016) 。驗證社區高齡者功能性體適能快速評估與多元性運動介入效益之研究 (未出版博士論文)。國立臺灣師範大學，臺北市。
何智巧、曾國維、陳忠慶 (2015) 。離心運動訓練對抗老化效果之探討。運動生理暨體能學報，20，1-11。
余祥義、曾建興 (2011) 。綜合性運動訓練對改善老年人跌倒因素之成效。大專體育，114，76-84。
吳水丕、柯幸宜 (2012) 。健走運動對社區中高齡居民身心健康促進成效之探討。工作與休閒學刊，3(1)，159-171。
吳孟恬、詹元碩 (2011) 。不同知覺動作訓練週期對高齡者平衡控制能力之成效分析。長榮運動休閒學刊，5，21-37。
吳明城、詹正豐 (2015) 。104年度臺灣年長者功能性體適能現況評估研究。臺北市：教育部體育署。
吳易謙、熊昭、陳慶餘、吳名祥、許志成、臺灣肌少症轉譯研究團隊成員 (2014) 。台灣社區老人肌少症流行病學初探。台灣醫學，18(3)，290-302。
吳柏翰、陳柏翰、陳明宗。(2013) 。全身性振動伸展訓練對女性高齡者功能性體適能之影響。體育學報，46(4)，339-350。
吳秋燕、張素珠 (2014) 。老年人身體活動與生活品質之探討。臺中科大體育學刊，10，33-44。
吳雅汝、周怡君、詹鼎正 (2014) 。文獻回顧-肌少症與衰弱症。內科學誌，25(3)，131-136。
李佳倫、鄭景峰 (2010) 。臺灣老年人身體活動量與功能性體適能的關係。大專體育學刊，12(4)，79-89。
李宗育、陸鳳屏、詹鼎正 (2014) 。老年人跌倒之危險因子、評估及預防。內科學誌，25(3)，137-142。
李幸穎、孫嘉宏、林陳涌 (2015) 。多面向巡迴訓練對城鄉社區老人身體功能與平衡能力之影響。物理治療，40(2)，53-65。
李若屏、黃奕仁、蘇福新、方進隆 (2008) 。多元運動訓練計畫對社區老人 DHEA-S 和體適能之影響。運動生理暨體能學報，8，69-79。
李淑芳、劉淑燕 (2008) 。老年人功能性體適能。台北市：華都。
林家輝、林晉利、錢桂玉 (2013) 。對中高齡者身體功能有益之伸展課程要素。大專體育，126，44-52。
林嘉志 (譯) (2012) 。ACSM運動測試與運動處方指引。臺北市：易利。 (American College of Sports Medicine，2009)
洪政豪、蔡承憲、陳亮宇、彭莉甯 (2017) 。老年跌倒之評估、介入與預防。臺灣老年醫學暨老年學雜誌，12(2)，91-103。
洪偉欽、沈竑毅 (2007) 。老化與平衡能力。嘉大體育健康休閒期刊，6(2)，119-129。
胡巧欣、吳一德 (2014) 。預防社區老年人跌倒之居家運動訓練計畫。大專體育，129， 34-42。
徐曉璐、李麗晶 (2014) 。運動處方創建高齡社會活躍老化之展望。大專體育，130，39-46。
張伯輝、呂欣善 (2015) 。北歐式健走運動對老年人功能性體適能之影響。中州學報，29，143-155。
張宏亮 (2011a) 。中老年人增加肌力與柔軟度的運動方法。健康世界，304，51-62。
張宏亮 (2011b) 。中老年人增加心肺功能的運動方法。健康世界，310，73-77。
張淑芳 (2014) 。老年肌少症之診斷與治療。護理雜誌，61(2)，101-105。
張維嶽 (2014) 。整合性運動訓練對促進銀髮族功能性體適能之成效研究。臺中科大體育學刊，10，45-54。
張瀞文、唐慧媛、許哲豪 (2017) 。老年肌少症 (Sarcopenia) 之診斷與檢測。文化體育學刊，24，87-97。
郭姵伶、林千玉、張立東、鄒碧鶴 (2016) 。高齡者阻力訓練實作模式建立與成效評估。福祉科技與服務管理學刊，4(1)，117-128。
郭惠敏、高淑芬、趙明玲 (2004) 。慢性病銀髮族的運動效益與策略。長期照護雜誌， 8(3)， 288-299。
陳秀惠、林品瑄、楊尚育、李雅珍(2017) 。體能活動介入對社區高齡者功能性體適能之影響。臺灣職能治療研究與實務雜誌，13(2)，71-82。
陳思遠、張欽凱 (2014) 。身體活動與肌少症。台灣醫學，18(3)，310-316。
陳淑貞、錢桂玉、呂佳育 (2015) 。走路速度測量於社區高齡者衰弱防治之應用。運動生理暨體能學報，21，51-58。
陳喬男 (2015) 。高齡者的失能預防。長期照護雜誌，19(2)，149-155。
楊雯婷、呂佳育、陳淑貞、錢桂玉 (2018) 。無衰弱與衰弱前期中高齡者走路速度與功能性體適能之關聯。運動表現期刊，5(2)，89-96。
曾建興 (2010) 。整合性運動訓練促進老年人身體功能之成效。大專體育，111，83-90。
曾建興 (2017) 。中高齡者休閒活動經驗與活躍老化行為之相關研究。嘉大體育健康休閒期刊，16(3)，16-35。
曾建興、林政勳、高元昱 (2016) 。阻力運動課程促進社區高齡者肌肉力量之成效。福祉科技與服務管理學刊，4(2)，161-162。
曾暐晉、黃冠菱、黃啟煌、陳信良 (2015) 。長期漸增式離心運動訓練對高齡者下肢肌力與功能性體適能之影響。體育學報，48(2)，159-169。
黃富順、楊國德 (2016) 。高齡學。臺北市：五南。
楊雅如、羅鴻基、黃維貞、吳泓熠、王瑞瑤 (2017) 。不同運動模式介入對於高齡者身體功能和活動之影響。物理治療，42(4)，257-267。
詹文祥、邱文信 (2011) 。老化現象對步態之影響。中華體育季刊，25(4)，677-685。
臺北市政府民政局 (2018) 。臺北市人口統計表。取自：https://ca.gov.taipei/News.aspx?n=F98484FF6E3A5230&sms=D19E9582624D83CB
臺北市政府衛生局 (2018) 。統計應用分析報告-臺北市銀髮族之跌倒致死與自殺分析。臺北市：作者。
劉雅甄 (2016) 。高齡者動體視力與步態速度隨老化之變異情形。體育學報，49(4)， 431-442。
歐陽鍾美 (2016) 。老人肌少症之營養防治與照護。長期照護雜誌，20(2)，137-147。
蔡存維、郭彥宇、蔡櫻蘭(2011) 。團體伸展訓練課程對長期照護機構高齡者功能性體適能的影響。大專體育學刊，13(4)，445-452。
蔡佳良、黃啟煌 (2004) 。從肌力訓練的角度來看運動對老年人的重要性。大專體育，72，185-191。
蔡政霖、周峻忠 (2008) 。老年人從事阻力訓練的原則與處方。中華體育季刊，22(4)，40-50。
衛生福利部 (2018) 。106年老人狀況調查。臺北市：作者。
衛生福利部國民健康署 (2018) 。104年中老年身心社會狀況長期追蹤調查成果報告。臺北市：作者。
鄭丁靚、黃安君、彭莉甯 (2016) 。國際肌少症研究診斷標準彙整。台灣老年醫學暨老年學雜誌，11(4)，213-224。
薛名淳、廖邕、黃品瑄、張少熙 (2017) 。高齡者久坐行為與健康之文獻回顧。台灣公共衛生雜誌，36(4)，337-349。
謝忠展、曾國維 (2017) 。樓梯運動對高齡者功能性體適能之影響。體育學報，50(1)， 33-41。
謝瓊儀、王秀華 (2017) 。多元運動課程介入對輕度認知功能障礙高齡者之成效研究。嘉大體育健康休閒期刊，16(2)，13-32。
藍孝勤 (2010) 。養生太極拳課程對社區中高齡者健康體適能之影響。臺灣體育學術研究，49，131-153。
魏大森 (2008) 。老年人跌倒的篩檢與評估。台灣老年醫學暨老年學雜誌，3(2)， 91-105。
嚴嘉楓、紀彣宙、周正修 (2015) 。肌少症之流行病學及健康促進介入之探討。身心障礙研究季刊，13(1)，9-25。
蘇衿茹 (2015) 。新北市林口區高齡者參與社區體育動機之研究。海峽兩岸體育研究學報，9(1)，41-56。
蘇曉凡、蔡櫻蘭、許志文 (2018) 。我國女性高齡者之功能性體適能年齡公式之建構。運動生理暨體能學報，26，11-21。
蘇蕙芬、蔡永川 (2013) 。運動介入對高齡者功能性體適能影響之研究。社會服務與休閒產業研究，2，71-88。

二、英文
Adamo, D. E., Talley, S. A., & Goldberg, A. (2015). Age and task differences in functional fitness in older women: comparisons with senior fitness test normative and criterion-referenced data. Journal of Aging and Physical Activity, 23(1), 47-54.
Alter, M. J. (2004). Science of flexibility (3rd ed.).Champaign, IL: Human Kinetics.
American College of Sports Medicine. (2009). American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Medicine and Science in Sports and Exercise, 41(3), 687.
American College of Sports Medicine. (2015). Exercise and physical activity for older adults. Medicine and Science in Sports and Exercise, 41, 1510-1530.
Apóstolo, J., Cooke, R., Bobrowicz-Campos, E., Santana, S., Marcucci, M., Cano, A., ... & Holland, C. (2018). Effectiveness of interventions to prevent pre-frailty and frailty progression in older adults: a systematic review. JBI Database of Systematic Reviews and Implementation Reports, 16(1), 140.
Auyeung, T. W., Lee, S. W. J., Leung, J., Kwok, T., & Woo, J. (2014). Age‐associated decline of muscle mass, grip strength and gait speed: A 4‐year longitudinal study of 3018 community‐dwelling older Chinese. Geriatrics & Gerontology International, 14, 76-84.
Benjumea, A. M., Curcio, C. L., Duque, G., & Gómez, F. D. (2018). Dynapenia and Sarcopenia as a Risk Factor for Disability in a Falls and Fractures Clinic in Older Persons. Open Access Macedonian Journal of Medical Sciences. 6(2), 344-349.
Bird, M., Hill, K. D., Ball, M., Hetherington, S., & Williams, A. D. (2011). The long-term benefits of a multi-component exercise intervention to balance and mobility in healthy older adults. Archives of Gerontology and Geriatrics, 52(2), 211-216.
Bollheimer, L. C., Buettner, R., Pongratz, G., Brunner-Ploss, R., Hechtl, C., Banas, M., ... & Fellner, C. (2012). Sarcopenia in the aging high-fat fed rat: A pilot study for modeling sarcopenic obesity in rodents. Biogerontology, 13(6), 609-620.
Borg, G. A. (1982). Psychophysical bases of perceived exertion. Medicine and Science in Sports and Exercise, 14(5), 377-381.
Brown, J. C., Harhay, M. O., & Harhay, M. N. (2016). Sarcopenia and mortality among a population‐based sample of community‐dwelling older adults. Journal of Cachexia, Sarcopenia and Muscle, 7(3), 290-298.
Bruce, R. A. (1984). Exercise, functional aerobic capacity, and aging--another viewpoint. Medicine and Science in Sports and Exercise, 16(1), 8-13.
Bruunsgaard, H., Bjerregaard, E., Schroll, M., & Pedersen, B. K. (2004). Muscle strength after resistance training is inversely correlated with baseline levels of soluble tumor necrosis factor receptors in the oldest old. Journal of the American Geriatrics Society, 52(2), 237-241.
Cadore, E. L., Casas-Herrero, A., Zambom-Ferraresi, F., Idoate, F., Millor, N., Gómez, M., ... & Izquierdo, M. (2014). Multicomponent exercises including muscle power training enhance muscle mass, power output, and functional outcomes in institutionalized frail nonagenarians. Age, 36(2), 773-785.
Cadore, E. L., Pinto, R. S., Bottaro, M., & Izquierdo, M. (2014). Strength and endurance training prescription in healthy and frail elderly. Aging and Disease, 5(3), 183.
Cadore, E. L., Rodríguez-Mañas, L., Sinclair, A., & Izquierdo, M. (2013). Effects of different exercise interventions on risk of falls, gait ability, and balance in physically frail older adults: A systematic review. Rejuvenation Research, 16(2), 105-114.
Cao, Z. B., Maeda, A., Shima, N., Kurata, H., & Nishizono, H. (2007). The effect of a 12-week combined exercise intervention program on physical performance and gait kinematics in community-dwelling elderly women. Journal of Physiological Anthropology, 26(3), 325-332.
Chen, L. K., Liu, L. K., Woo, J., Assantachai, P., Auyeung, T. W., Bahyah, K. S., ... & Lee, J. S. (2014). Sarcopenia in Asia: Consensus report of the Asian Working Group for Sarcopenia. Journal of the American Medical Directors Association, 15(2), 95-101.
Cho, C., Han, C., Sung, M., Lee, C., Kim, M., Ogawa, Y., & Kohzuki, M. (2017). Six-Month Lower Limb Aerobic Exercise Improves Physical Function in Young-Old, Old-Old, and Oldest-Old Adults. The Tohoku Journal of Experimental Medicine, 242(4), 251-257.
Cho, J., Smith, M. L., Ahn, S., Kim, K., Appiah, B., & Ory, M. G. (2015). Effects of an evidence-based falls risk-reduction program on physical activity and falls efficacy among oldest-old adults. Frontiers in Public Health, 2, 182.
Cho, Y. H., Mohamed, O., White, B., Singh-Carlson, S., & Krishnan, V. (2018). The effects of a multicomponent intervention program on clinical outcomes associated with falls in healthy older adults. Aging Clinical and Experimental Research, 30(9), 1101-1110.
Chodzke-Zajko, W. (2013). Acsm’s exercise for older adults. MD：Lippincott Williams & Wilkins.
Clark, D. J., Manini, T. M., Fielding, R. A., & Patten, C. (2013). Neuromuscular determinants of maximum walking speed in well-functioning older adults. Experimental Gerontology, 48(3), 358-363.
Clemson, L., Singh, M. A. F., Bundy, A., Cumming, R. G., Manollaras, K., O’Loughlin, P., & Black, D. (2012). Integration of balance and strength training into daily life activity to reduce rate of falls in older people (the LiFE study): Randomised parallel trial. Bmj, 345, 45-47.
Comploj, E., West, J., Mian, M., Kluth, L. A., Karl, A., Dechet, C., ... & Lodde, M. (2015). Comparison of complications from radical cystectomy between old-old versus oldest-old patients. Urologia Internationalis, 94(1), 25-30.
Cress, M. E., Buchner, D. M., Questad, K. A., Esselman, P. C., DeLateur, B. J., & Schwartz, R. S. (1999). Exercise: effects on physical functional performance in independent older adults. Journals of Gerontology Series A: Biomedical Sciences and Medical Sciences, 54(5), 242-248.
Cruz-Jentoft, A. J., Baeyens, J. P., Bauer, J. M., Boirie, Y., Cederholm, T., Landi, F., ... & Topinková, E. (2010). Sarcopenia: European consensus on definition and diagnosis Report of the European Working Group on Sarcopenia in Older People. Age and Ageing, 39(4), 412-423.
Cruz-Jentoft, A. J., Bahat, G., Bauer, J., Boirie, Y., Bruyère, O., Cederholm, T., ... & Schneider, S. M. (2018). Sarcopenia: Revised European consensus on definition and diagnosis. Age and Ageing, 48(1), 1-16.
Cruz-Jentoft, A. J., Landi, F., Topinkova, E., & Michel, J. P. (2010). Understanding sarcopenia as a geriatric syndrome. Current Opinion in Clinical Nutrition & Metabolic Care, 13(1), 1-7.
Daniels, R., van Rossum, E., de Witte, L., Kempen, G. I., & van den Heuvel, W. (2008). Interventions to prevent disability in frail community-dwelling elderly: A systematic review. BMC Health Services Research, 8(1), 278.
Daubney, M. E., & Culham, E. G. (1999). Lower-extremity muscle force and balance performance in adults aged 65 years and older. Physical Therapy, 79(12), 1177-1185.
De Labra, C., Guimaraes-Pinheiro, C., Maseda, A., Lorenzo, T., & Millán-Calenti, J. C. (2015). Effects of physical exercise interventions in frail older adults: A systematic review of randomized controlled trials. BMC Geriatrics, 15(1), 154.
De Vries, N. M., Van Ravensberg, C. D., Hobbelen, J. S. M., Rikkert, M. O., Staal, J. B., & Nijhuis-Van der Sanden, M. W. G. (2012). Effects of physical exercise therapy on mobility, physical functioning, physical activity and quality of life in community-dwelling older adults with impaired mobility, physical disability and/or multi-morbidity: A meta-analysis. Ageing Research Reviews, 11(1), 136-149.
DiBenedetto, M., Innes, K. E., Taylor, A. G., Rodeheaver, P. F., Boxer, J. A., Wright, H. J., & Kerrigan, D. C. (2005). Effect of a gentle Iyengar yoga program on gait in the elderly: an exploratory study. Archives of Physical Medicine and Rehabilitation, 86(9), 1830-1837.
Era, P., Sainio, P., Koskinen, S., Haavisto, P., Vaara, M., & Aromaa, A. (2006). Postural balance in a random sample of 7,979 subjects aged 30 years and over. Gerontology, 52(4), 204-213.
Fielding, R. A., Vellas, B., Evans, W. J., Bhasin, S., Morley, J. E., Newman, A. B., ... & Cederholm, T. (2011). Sarcopenia: An undiagnosed condition in older adults. Current consensus definition: Prevalence, etiology, and consequences. International working group on sarcopenia. Journal of the American Medical Directors Association, 12(4), 249-256.
Forth, K. E., & Dall, S. R. X. (2000). Proprioceptive balance training for elderly community dwellers.In Bretschneider, B., Ehrenfeld, H., Hettche, H.,Oetzmann, S., Ternes, W., Walter, G. F. (Eds.) Shaping the Future: Forum at the global dialogue Expo 2000 [CD-ROM].
Fried, L. P., Tangen, C. M., Walston, J., Newman, A. B., Hirsch, C., Gottdiener, J., ... & McBurnie, M. A. (2001). Frailty in older adults: Evidence for a phenotype. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 56(3), 146-157.
Fukagawa, N. K., Brown, M., Sinacore, D. R., & Host, H. H. (1995). The relationship of strength to function in the older adult. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 50, 55-59.
Grimby, G., & Saltin, B. (1983). The ageing muscle. Clinical Physiology, 3(3), 209-218.
Han, P., Kang, L., Guo, Q., Wang, J., Zhang, W., Shen, S., ... & Shi, Z. (2015). Prevalence and factors associated with sarcopenia in suburb-dwelling older Chinese using the Asian Working Group for Sarcopenia definition. Journals of Gerontology Series A: Biomedical Sciences and Medical Sciences, 71(4), 529-535.
Hawkins, S. A., & Wiswell, R. A. (2003). Rate and mechanism of maximal oxygen consumption decline with aging. Sports Medicine, 33(12), 877-888.
Heyward, V. H. & Gibson, A. (2014). Advanced fitness aeeseement and exercise prescription (7th ed). IL：Human Kinetics.
Huang, G., Gibson, C. A., Tran, Z. V., & Osness, W. H. (2005). Controlled endurance exercise training and VO2max changes in older adults: A meta‐analysis. Preventive Cardiology, 8(4), 217-225.
Jadczak, A. D., Makwana, N., Luscombe-Marsh, N., Visvanathan, R., & Schultz, T. J. (2018). Effectiveness of exercise interventions on physical function in community-dwelling frail older people: An umbrella review of systematic reviews. JBI Database of Systematic Reviews and Implementation Reports, 16(3), 752-775.
Justine, M., Hamid, T. A., Mohan, V., & Jagannathan, M. (2011). Effects of multicomponent exercise training on physical functioning among institutionalized elderly. ISRN Rehabilitation, 2012.
Kang, J. S., & Krauss, R. S. (2010). Muscle stem cells in developmental and regenerative myogenesis. Current Opinion in Clinical Nutrition and Metabolic Care, 13(3), 243.
Kerr, A., Syddall, H. E., Cooper, C., Turner, G. F., Briggs, R. S., & Sayer, A. A. (2006). Does admission grip strength predict length of stay in hospitalised older patients?. Age and Ageing, 35(1), 82-84.
Kim, H. K., Suzuki, T., Saito, K., Yoshida, H., Kobayashi, H., Kato, H., & Katayama, M. (2012). Effects of exercise and amino acid supplementation on body composition and physical function in community‐dwelling elderly Japanese sarcopenic women: A randomized controlled trial. Journal of the American Geriatrics Society, 60(1), 16-23.
Kryger, A. I., & Andersen, J. L. (2007). Resistance training in the oldest old: Consequences for muscle strength, fiber types, fiber size, and MHC isoforms. Scandinavian Journal of Medicine & Science in Sports, 17(4), 422-430.
Kwon, Y., Park, S., Kim, E., & Park, J. (2008). The effects of multi-component exercise training on VO2max, muscle mass, whole bone mineral density and fall risk in community-dwelling elderly women. Japanese Journal of Physical Fitness and Sports Medicine, 57(3), 339-348.
Landi, F., Abbatecola, A. M., Provinciali, M., Corsonello, A., Bustacchini, S., Manigrasso, L., ... & Lattanzio, F. (2010). Moving against frailty: Does physical activity matter?. Biogerontology, 11(5), 537-545.
Landi, F., Calvani, R., Cesari, M., Tosato, M., Martone, A. M., Ortolani, E., ... & Marzetti, E. (2018). Sarcopenia: an overview on current definitions, diagnosis and treatment. Current Protein and Peptide Science, 19(7), 633-638.
Landi, F., Cruz-Jentoft, A. J., Liperoti, R., Russo, A., Giovannini, S., Tosato, M., ... & Onder, G. (2013). Sarcopenia and mortality risk in frail older persons aged 80 years and older: Results from ilSIRENTE study. Age and Ageing, 42(2), 203-209.
Landi, F., Liperoti, R., Russo, A., Giovannini, S., Tosato, M., Capoluongo, E., ... & Onder, G. (2012). Sarcopenia as a risk factor for falls in elderly individuals: Results from the ilSIRENTE study. Clinical Nutrition, 31(5), 652-658.
Landi, F., Marzetti, E., Martone, A. M., Bernabei, R., & Onder, G. (2014). Exercise as a remedy for sarcopenia. Current Opinion in Clinical Nutrition & Metabolic Care, 17(1), 25-31.
Legrand, D., Vaes, B., Matheï, C., Swine, C., & Degryse, J. M. (2013). The prevalence of sarcopenia in very old individuals according to the European consensus definition: Insights from the BELFRAIL study. Age and Ageing, 42(6), 727-734.
Leong, D. P., Teo, K. K., Rangarajan, S., Lopez-Jaramillo, P., Avezum Jr, A., Orlandini, A., ... & Rahman, O. (2015). Prognostic value of grip strength: Findings from the Prospective Urban Rural Epidemiology (PURE) study. The Lancet, 386(9990), 266-273.
Leveille, S. G., Guralnik, J. M., Ferrucci, L., & Langlois, J. A. (1999). Aging successfully until death in old age: Opportunities for increasing active life expectancy. American Journal of Epidemiology, 149(7), 654-664.
Ling, C. H., Taekema, D., De Craen, A. J., Gussekloo, J., Westendorp, R. G., & Maier, A. B. (2010). Handgrip strength and mortality in the oldest old population: The Leiden 85-plus study. Canadian Medical Association Journal, 182(5), 429-435.
Manini, T. M., Newman, A. B., Fielding, R., Blair, S. N., Perri, M. G., Anton, S. D., ... & Hsu, F. C. (2010). Effects of exercise on mobility in obese and nonobese older adults. Obesity, 18(6), 1168-1175.
Marzetti, E., Calvani, R., Tosato, M., Cesari, M., Di Bari, M., Cherubini, A., ... & Bernabei, R. (2017). Physical activity and exercise as countermeasures to physical frailty and sarcopenia. Aging Clinical and Experimental Research, 29(1), 35-42.
Mayhew, A. J., Amog, K., Phillips, S., Parise, G., McNicholas, P. D., de Souza, R. J., ... & Raina, P. (2018). The prevalence of sarcopenia in community-dwelling older adults, an exploration of differences between studies and within definitions: A systematic review and meta-analyses. Age and Ageing, 48(1), 48-56.
Melton III, L. J., Khosla, S., Crowson, C. S., O'connor, M. K., O'fallon, W. M., & Riggs, B. L. (2000). Epidemiology of sarcopenia. Journal of the American Geriatrics Society, 48(6), 625-630.
Meng, P., Hu, Y. X., Fan, L., Zhang, Y., Zhang, M. X., Sun, J., ... & Zhang, Y. (2014). Sarcopenia and sarcopenic obesity among men aged 80 years and older in B eijing: Prevalence and its association with functional performance. Geriatrics & Gerontology International, 14, 29-35.
Montero-Fernandez, N., & Serra-Rexach, J. A. (2013). Role of exercise on sarcopenia in the elderly. European Journal of Physical and Rehabilitation Medicine, 49(1), 131-143.
Nascimento, C. M., Ingles, M., Salvador-Pascual, A., Cominetti, M. R., Gomez-Cabrera, M. C., & Viña, J. (2018). Sarcopenia, frailty and their prevention by exercise. Free Radical Biology and Medicine, 132, 42-49.
Nelson, M. E., Rejeski,W. J., Blair, S. N., Duncan,P. W., Judge, J. O., King, A. C., et al. (2007).Physical activity and public health in older adults:Recommendation from the American College of Sports Medicine and the American HeartAssociation. Medicine and Science in Sports and Exercise, 39(8), 1435-1445.
Norman, K., Stobäus, N., Gonzalez, M. C., Schulzke, J. D., & Pirlich, M. (2011). Hand grip strength: Outcome predictor and marker of nutritional status. Clinical Nutrition, 30(2), 135-142.
Pedersen, B. K., & Saltin, B. (2006). Evidence for prescribing exercise as therapy in chronic disease. Scandinavian Journal of Medicine & Science in Sports, 16(S1), 3-63.
Petrella, J. K., Kim, J. S., Tuggle, S. C., Hall, S. R., & Bamman, M. M. (2005). Age differences in knee extension power, contractile velocity, and fatigability. Journal of Applied Physiology, 98(1), 211-220.
Reid, K. F., Naumova, E. N., Carabello, R. J., Phillips, E. M., & Fielding, R. A. (2008). Lower extremity muscle mass predicts functional performance in mobility-limited elders. The Journal of Nutrition Health and Aging, 12(7), 493.
Rikil, R. E., & Jones, C. J. (2013). Senior fitness manual. IL：Human Kinetics.
Rikli, R. E., & Jones, C. J. (2001). Senior fitness test. IL：Human Kinetics.
Rizzoli, R., Reginster, J. Y., Arnal, J. F., Bautmans, I., Beaudart, C., Bischoff-Ferrari, H., ... & Cooper, C. (2013). Quality of life in sarcopenia and frailty. Calcified Tissue International, 93(2), 101-120.
Rosano, C., Aizenstein, H., Brach, J., Longenberger, A., Studenski, S., & Newman, A. B. (2008). Gait measures indicate underlying focal gray matter atrophy in the brain of older adults. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 63(12), 1380-1388.
Rosenberg, I. H. (1997). Sarcopenia: Origins and clinical relevance. The Journal of Nutrition, 127(5), 990S-991S.
Rydwik, E., Lammes, E., Frändin, K., & Akner, G. (2008). Effects of a physical and nutritional intervention program for frail elderly people over age 75. A randomized controlled pilot treatment trial. Aging Clinical and Experimental Research, 20(2), 159-170.
Sayer, A. A., Syddall, H., Martin, H., Patel, H., Baylis, D., & Cooper, C. (2008). The developmental origins of sarcopenia. The Journal of Nutrition Health and Aging, 12(7), 427-432.
Serra‐Rexach, J. A., Bustamante‐Ara, N., Hierro Villarán, M., González Gil, P., Sanz Ibáñez, M. J., Blanco Sanz, N., ... & Rodríguez Romo, G. (2011). Short‐term, light‐to moderate‐intensity exercise training improves leg muscle strength in the oldest old: A randomized controlled trial. Journal of the American Geriatrics Society, 59(4), 594-602.
Simons, R., & Andel, R. (2006). The effects of resistance training and walking on functional fitness in advanced old age. Journal of Aging and Health, 18(1), 91-105.
Spirduso, W. W. (1995). Physical dimensions of aging (2nd ed.). Champaign, IL：Human Kinetics.
Sun, D. S., Lee, H., Yim, H. W., Won, H. S., & Ko, Y. H. (2017). The impact of sarcopenia on health-related quality of life in elderly people: Korean National Health and Nutrition Examination Survey. The Korean Journal of Internal Medicine, 34(4), 877.
Syddall, H. E., Martin, H. J., Harwood, R. H., Cooper, C., & Sayer, A. A. (2009). The SF-36: A simple, effective measure of mobility-disability for epidemiological studies. JNHA-The Journal of Nutrition, Health and Aging, 13(1), 57-62.
Tanimoto, Y., Watanabe, M., Sun, W., Sugiura, Y., Hayashida, I., Kusabiraki, T., & Tamaki, J. (2014). Sarcopenia and falls in community-dwelling elderly subjects in Japan: Defining sarcopenia according to criteria of the European Working Group on Sarcopenia in Older People. Archives of Gerontology and Geriatrics, 59(2), 295-299.
Tanimoto, Y., Watanabe, M., Sun, W., Tanimoto, K., Shishikura, K., Sugiura, Y., ... & Kono, K. (2013). Association of sarcopenia with functional decline in community‐dwelling elderly subjects in Japan. Geriatrics & Gerontology International, 13(4), 958-963.
Tarazona-Santabalbina, F. J., Gómez-Cabrera, M. C., Pérez-Ros, P., Martínez-Arnau, F. M., Cabo, H., Tsaparas, K., ... & Viña, J. (2016). A multicomponent exercise intervention that reverses frailty and improves cognition, emotion, and social networking in the community-dwelling frail elderly: a randomized clinical trial. Journal of the American Medical Directors Association, 17(5), 426-433.
Theou, O., Stathokostas, L., Roland, K. P., Jakobi, J. M., Patterson, C., Vandervoort, A. A., & Jones, G. R. (2011). The effectiveness of exercise interventions for the management of frailty: A systematic review. Journal of Aging Research, 2011.
Thornell, L. E. (2011). Sarcopenic obesity: Satellite cells in the aging muscle. Current Opinion in Clinical Nutrition & Metabolic Care, 14(1), 22-27.
Tibaek, S., Holmestad-Bechmann, N., Pedersen, T. B., Bramming, S. M., & Friis, A. K. (2015). Reference values of maximum walking speed among independent community-dwelling Danish adults aged 60 to 79 years: A cross-sectional study. Physiotherapy, 101(2), 135-140.
Toraman, A., & Yıldırım, N. Ü. (2010). The falling risk and physical fitness in older people. Archives of Gerontology and Geriatrics, 51(2), 222-226.
Volkert, D. (2011). The role of nutrition in the prevention of sarcopenia. Wiener Medizinische Wochenschrift, 161(17-18), 409-415.
Wetle, T. F. (2008). The oldest old: Missed public health opportunities. American Journal of Public Health, 98(7), 1159.
Woollacott, M. H., Shumway-Cook, A., & Nashner, L. M. (1986). Aging and posture control: Changes in sensory organization and muscular coordination. The International Journal of Aging and Human Development, 23(2), 97-114.
World Health Organization. (2016). The International Classification of Diseases, 10th revision, 2nd edition.
World Health Organization. (2012, April, 3). World Health Day – Global brief. Retrieved from : https://www.who.int/world-health-day/2012/en/
Zhao, Y., & Chung, P. K. (2016). Differences in functional fitness among older adults with and without risk of falling. Asian Nursing Research, 10(1), 51-55.
Zizza, C. A., Ellison, K. J., & Wernette, C. M. (2009). Total water intakes of community-living middle-old and oldest-old adults. Journals of Gerontology Series A: Biomedical Sciences and Medical Sciences, 64(4), 481-486.