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研究生: 施嘉美
Chia-Mei Shih
論文名稱: 負重運動與飲食行為對中年婦女骨骼健全之影響
Effects of weight-bearing exercise and dietary behavior on the bone health of middle-aged females
指導教授: 湯馥君
Tang, Fu-Chun
學位類別: 碩士
Master
系所名稱: 人類發展與家庭學系
Department of Human Development and Family Studies
論文出版年: 2008
畢業學年度: 96
語文別: 中文
論文頁數: 148
中文關鍵詞: 負重運動雌二醇骨骼代謝指標跟骨廣頻超音波衰減率骨質密度
英文關鍵詞: weight-bearing exercise, estradiol, bone turnover markers, broadband ultrasound attenuation, bone density
論文種類: 學術論文
相關次數: 點閱:201下載:14
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  • 本研究目的是探討負重運動與飲食行為對中年婦女骨骼健全間之相關性。研究對象為40~65歲之中年婦女,依運動習慣及停經與否分為四組:行經運動組21人 (47.8 ± 3.6歲)、停經運動組21人 (55.8 ± 1.9歲)、行經靜態組21人 (47.6 ± 3.6歲) 以及停經靜態組25人 (57.0 ± 3.4歲);分別進行「飲食、運動與生活習慣問卷」、飲食態度問卷調查、身體組成、跟骨廣頻超音波衰減率及雙能量X光吸收值之測量、血清雌二醇與骨鹼性磷酸酶之濃度分析,及尿液羥基脯胺酸、3-甲基組胺酸、鈣與脫氧吡啉二酚胺等濃度及酸鹼值檢測。
    結果發現,四組受試者對於自我體型認知上皆呈現不滿意,但並未影響其飲食態度。就飲食攝取而言,四組受試者每日熱量攝取皆未達建議量,而部分受試者卻對自我食量有高估的認知。蛋、豆、魚、肉類和水果類的攝取份數、乳製品之鈣攝取量、總蛋白質與動物性蛋白等食物攝取及三正餐熱量攝取之差異,源自於規律負重運動之從事與否 (p<.05)。就身體組成而言,四組受試者之體脂重百分比、除脂體重百分比受規律負重運動之影響,同體重下,運動組有較高之除脂體重,靜態組則體脂重較高;腰臀比則受停經與否之影響,以停經組顯著高於行經組 (p<.01)。就生化分析而言,受試者之血清雌二醇濃度以停經組顯著低於行經組 (p<.0001)、血清骨鹼性磷酸酶濃度則以停經組顯著高於行經組 (p<.01)。尿液中之羥基脯胺酸濃度以停經組顯著高於行經組 (p<.05)、尿液中之脫氧吡啉二酚胺濃度則以運動組顯著低於靜態組 (p<.05)。尿液中之3-甲基組胺酸、尿鈣等濃度及酸鹼值在各組間則無差異。就骨骼生理而言,受試者慣用腳 (r = .276, p<.01) 、非慣用腳 (r = .386, p<.001) 之跟骨廣頻超音波衰減率及雙能量X光吸收值 (r = .338, p<.01) 與每週負重運動時間呈顯著正相關。但不論運動習慣為何,行經組雙腳之跟骨廣頻超音波衰減率及雙能量X光吸收值皆顯著高於停經組者 (p<.0001)。停經運動組非慣用腳之跟骨廣頻超音波衰減率及雙能量X光吸收值皆分別顯著高於停經靜態組者 (p<.05),顯示規律的負重運動對骨骼具正面益處,特別是已停經者。停經組之每日熱量 (r = .355, p<.05) 及植物性蛋白質攝取 (r = .300, p<.05) 均與非慣用腳之跟骨廣頻超音波衰減率呈現正相關,且停經組之每日熱量 (r = .409, p<.01) 及植物性蛋白質攝取 (r = .327, p<.05) 亦與雙能量X光吸收值呈現正相關。靜態組之慣用腳 (r = .518, p<.01)、非慣用腳 (r = .397, p<.01) 之跟骨廣頻超音波衰減率及雙能量X光吸收值 (r = .443, p<.01) 均與血清雌二醇呈顯著正相關。年齡與每週負重運動時間對雙能量X光吸收值具有35.0% (R2 = .350, p<.0001 ) 之解釋力。
    本研究受試中年婦女之體型意識並不影響其飲食態度。而從事規律負重運動之受試中年婦女,無論停經與否,其在飲食攝取、生理結構與營養代謝指標等皆優於靜態生活之中年婦女。而於停經婦女中,在缺乏雌二醇的保護下,規律負重運動及飲食攝取對於其骨骼健全之維護,則更是扮演著極其重要的角色。

    The purpose of this study was to explore the relationship among diet, exercise and the bone health of middle-aged females. Based on exercise habit and menstrual status, the middle-aged subjects (aged 40~65 years) were divided into four groups: premenopause/exercise group (n=21, 47.8 ± 3.6 y/o), postmenopause/exercise group (n=21, 55.8 ± 1.9 y/o), premenopause/sedentary group (n=21, 47.6 ± 3.6 y/o), and postmenopause/sedentary group (n=25, 57.0 ± 3.4 y/o). We examined the dietary behavior and exercise habits, Eating Attitudes Test (EAT-26), body composition, calcaneus broadband ultrasound attenuation (BUA), dual energy X-ray absorptiometry (DXA), serum concentrations of estradiol and bone alkaline phosphatase (BAP), urinary concentrations of hydroxyproline (HP), 3-methylhistidine (3-MH), calcium, deoxypyrodinoline (Dpd), and urinary pH value.
    The female subjects were dissatisfied with their body image which did not affect their eating attitudes. Although self-perceived food intake was overestimated, yet, the energy intake was obviously below the recommendation ranges. Among the groups, the differences in the exchanges (Ex) of egg, bean, fish and meat, in the Ex of fruits, dairy calcium consumption, total protein, animal protein, and energy intake from meal were primarily due to the effect of weight-bearing exercise (p<.05). The percentages of body fat mass and fat-free mass were affected by exercise: within the same body weight range, the fat-free mass of the exercise subjects tended to be higher than that of the sedentary subjects, whereas the fat mass was lower. The waist to hip ratio of the postmenopause subjects was significantly higher than that of the premenopause subjects (p<.01). The serum estradiol concentration of the postmenopause subjects was lower than that of the premenopause subjects (p<.0001), whereas serum BAP concentration was higher (p<.01). The urinary HP concentration of the postmenopause subjects was significantly higher than that of the premenopause subjects (p<.05), and the Dpd concentration of the exercise subjects was significantly lower than that of the sedentary subjects (p<.05). There were no differences in the urinary 3-MH, calcium concentrations as well as the pH value among the four groups. There were positive relactionship between BUA of calcaneus of the dominant (r = .276, p<.01) and non-dominant leg (r = .386, p<.001), as well as DXA of lumbar spine (r = .338, p<.01) and the weekly weight-bearing exercise time. The BMD of the premenopause subjects were significantly higher than the postmenopause subjects (p<.0001), respectively, regardless of their exercise habits. The BUA of calcaneus of the non-dominant leg as well as DXA of lumbar spine in the postmenopause/exercise group were significantly higher than the postmenopause/sedentary group (p<.05), respectively. It demonstrated that weight-bearing exercise played a protective role on bone quality and bone density, particularly for the postmenopause females. The energy (r = .355, p<.05) and plant protein (r =.300, p<.05) consumptions of the postmenopause subjects were positively associated with the BUA of calcaneus of the non-dominant leg. The energy (r = .409, p<.01) and plant protein (r = .327, p<.05) consumptions of the postmenopause subjects were also positively associated with their DXA data of lumbar spine. The BUA of calcaneus of the dominant leg (r = .518, p<.01) and non-dominant leg (r = .397, p<.01) and DXA of lumbar spine (r = .443, p<.01) were positively associated with the serum estradiol concentration of the sedentary group, not the exercise group at all. Age and weekly weight-bearing exercise time explained 35.0% (R2 = .350, p<.0001 ) of the variation on DXA of lumbar spine.
    The body image of the middle-aged females did not affect their eating attitudes. Without the protection of estradiol, our results indicate that regular weight-bearing exercise and diet play important roles in the maintenance of bone health of middle-aged females.

    中文摘要………………………………………………………………………….... i 英文摘要……………………………………………………………………..…...... iii 謝誌…………………………………………………………………….………....... vi 目次………………………………………………………………….………....... vii 表次……………………………………………………………................................ xi 圖次…………………………………………………...………………………......... xiv 英文縮寫表…………………………………………...……………………….......... xv 第一章 緒論……………………………………………………………..…...... 1 第一節 研究動機……………………………………………………………...…… 1 第二節 研究目的………………………………………………………………...… 2 第三節 研究問題………………………………………………………………...… 3 第四節 名詞界定………………………………………………………………...… 4 第二章 文獻探討………………………………………………………...….. 7 第一節 骨骼生理與骨質疏鬆症…………………………………………..….…… 7 一、骨骼生理………………………..………………………………….....….. 7 二、骨質疏鬆症……………..……………………………………..……......... 9 第二節 營養素攝取與骨骼…………………………………………..……..….… 14 ㄧ、蛋白質的重要性……………………………………………………......... 14 二、鈣質的重要性……………...………………………………………...…... 15 三、蛋白質、鈣質與骨骼之相關性………………….…………………….... 15 第三節 運動習慣與生理狀況……………………………………………..……..... 17 ㄧ、運動與骨骼健全.…………………………..…………………………….... 17 二、相關負重運動簡介……………………………..……………………...….. 18 三、生理狀況….………………..………………….…..……............................ 20 第四節 文獻探討總結....…………………………………………………..……..... 23 第三章 研究方法……………………………………………………...…….. 24 第一節 研究流程……………………………………………………………...…… 24 第二節 研究架構…………………………………………………………….…..… 25 第三節 研究對象………………………………………………….............……..… 26 第四節 研究工具與方法…………………………………………………….…..… 27 第五節 統計分析…………………………………………………………….…..… 38 第四章 研究結果………………………………………………….…..…….. 39 第一節 基本資料……………………………………………………….....…..…… 39 一、生理參數.……………..………………………………………….……..…. 39 二、運動習慣.……………..………………………………………….……..…. 39 三、雌二醇濃度與經期狀況.………..………………………………………… 40 四、妊娠期間飲食及補充劑攝取狀況.……………..………………………… 40 第二節 自我體型認知…………………………………………………………...… 41 第三節 飲食行為………………………………………………………………...… 42 一、飲食態度調查.……..…………………………………………………...…. 42 二、飲食攝取….………..…………………………………………………...…. 42 第四節 身體組成分析………………………………………………..………….… 43 第五節 生化分析…………………………………………………………..…….… 46 一、血液分析...……………………………………………...........................…. 46 二、尿液分析.…………..………………………………………………..….…. 46 第六節 相關分析…………………………………………………………..…….… 46 一、妊娠資料與骨骼生理之相關分析..........................................................…. 46 二、體型意識、熱量攝取與身體組成之相關分析.……………………..….…. 47 三、骨骼生理之相關分析.......................................……………………..….…. 48 第五章 討論………………………………………………………..…..…….... 49 第一節 運動習慣…………………………………………………….........…..…… 49 第二節 妊娠狀況……………………………………………………….........…..… 49 第三節 自我體型認知……………………………………………………….…..… 51 第四節 飲食行為…………………………………………………………….…..… 52 一、飲食態度調查.………..…………………………………………….…..…. 52 二、飲食攝取….…………..…………………………………………….…..…. 53 第五節 身體組成分析………………………………………………..……….…… 58 第六節 生化分析…………………………………………………………..….…… 61 一、血液分析...…………………………….........................………………..…. 61 二、尿液分析.……..……………………………………….……………..……. 62 第七節 相關性探討…………………………………………….…..……………… 65 一、體型意識、熱量攝取與身體組成之相關性探討..…….………………..… 65 二、身體組成之相關性探討..…………………..………….………………..… 66 三、骨代謝之相關性探討…………………………..……...………………..… 66四、多元迴歸之分析……………………………………...……….………..… 69 第六章 結論與建議…………..…………………………..…………..…….. 70 第一節 結論………………………………………………………....………..……. 70 第二節 建議………………………………………………………....………..……. 72 第三節 研究限制…………………………………………………....………..……. 73 第四節 未來研究之建議…………………………………………....………..……. 73 參考文獻 一、中文部份……………………………………………………………....…...….. 111 二、西文部份……………………………………………………………......……... 115 附錄 附錄一 受試者同意書…………………………………………………….…….... 136 附錄二 學生電子佈告欄之研究公告內容………………..……………………... 137 附錄三 校園海報張貼內容……………………………..……………..…........... 138 附錄四 人體試驗審查通過書…………………..……………..……................... 139 附錄五 「飲食、運動與生活習慣問卷」…………………………………....….... 140 附錄六 飲食態度問卷…………………..……………..….............................….. 147

    王順正 (1993)。運動訓練對骨骼肌蛋白質的影響-以尿中3甲基組胺酸的變化來評量。中華體育,25,54-64頁。
    內政部統計處 (2005)。主要國家65歲以上人口占總人口比率。臺北市:內政部統計處。
    司麗雲 (2004)。八段錦運動對更年期婦女身體組成、更年期困擾症狀及血脂肪相關因子成效之探討。國立台北護理學院中西醫結合護理研究所碩士論文,未出版,臺北市。
    甘龍醫用生理學上、下冊 (白禮源編譯) (1995)。臺北市:藝軒。(原著出版年﹕1991年)。
    行政院衛生署 (1998)。臺灣常見食品營養圖鑑(編號:016099860023)。臺北市:行政院衛生署。
    行政院衛生署 (1999)。1993-1996年台灣國民營養健康狀況變遷調查結果。臺北市:行政院衛生署。
    行政院衛生署 (2002)。國人膳食營養素參考攝取量及其說明。臺北市:行政院衛生署。
    行政院衛生署 (2002)。健康食品之改善骨質疏鬆評估方法。臺北市:行政院衛生署。
    行政院衛生署 (2003)。關懷別人也要疼惜自己-婦女營養參考手冊。臺北市:行政院衛生署。
    行政院衛生署 (2003)。銀髮族健康園地-老年期營養參考手冊。臺北市:行政院衛生署。
    行政院衛生署 (2004)。台灣地區老人營養健康狀況調查1999-2000調查結果。臺北市:行政院衛生署。
    行政院主計處 (2007)。95年國人零歲平均餘命估測結果。臺北市:行政院主計處。
    呂明璋 (2003)。骨組織中波速與波衰減參數的量測。國立成功大學醫學工程研究所,碩士論文,未出版,臺南市。
    呂萬安 (2004)。太極拳、外丹功對成年人自律神經活性的效應。國立陽明大學傳統醫藥學研究所,博士論文,未出版,臺北市。
    吳至行、盧豐華、張智仁 (1992)。非糖尿病健康人軀體脂肪分部與血壓、血脂及血脂蛋白變化的相關性。中華民國家庭醫學雜誌,2,156-167頁。
    吳貴琍 (1998)。規律運動對停經後婦女的骨質密度與性激素之影響。大專體育,8,55-61頁。
    吳幸娟、吳佳娟、金惠民、胡淑惠、陳惠欣、章樂綺、黃惠煐、曾美智、劉慧蓉、 蔡秀玲 (2001)。營養評估。臺中市:華格那出版社。
    吳燕珊 (2003)。月經週期與月經症候群對大專排球選手運動表現之影響。國立臺灣師範大學體育學系,碩士論文,未出版,臺北市。
    吳明瑞 (2005)。利用超音波骨質密度儀評估尿毒症血液透析患者之骨質狀況。國立成功大學醫學工程研究所,碩士論文,未出版,臺南市。
    沈淑禎、蔡克嵩、楊榮森、錢本文、劉堂桂、周松男、張賴昇平、蘇誠道 (1994)。正常中國婦女實際年齡和停經後年數對骨礦物質減少的影響。中華放射線醫學雜誌,19,39-45頁。
    邱正芬 (2003)。論壇健康促進與疾病預防委員會第三期文獻回顧研析計畫 (編號:FO-HPDP03-05)。臺北市:國家衛生研究院。
    林興中 (1995)。骨質疏鬆症之成因。臺灣醫界,38,34-38頁。
    林麗娟 (2002)。肌力和耐力性運動與身體活動程度對鈣離子調節激素及骨骼指標之影響。國立臺灣師範大學體育學系,博士論文,未出版,臺北市。
    林麗真 (2003)。臺灣停經婦女骨質密度與生活習慣研究。私立中國文化大學 生活應用科學研究所,碩士論文,未出版,臺北市。
    許世正 (1996)。談婦女停經症候群及其保健。高醫醫訊月刊,第16卷,第12期。
    連珮茹 (2004)。臺中市國中生病態飲食相關的心態行為及其營養攝取量和飲食狀況之調查。中山醫學大學營養科學研究所碩士論文,未出版,臺中市。
    陳金鼓、甘光熙 (1997)。瑜珈對大學生基本體能之影響。體育與運動,104, 49-55頁。
    陳玉欣 (1999)。國中生飲食行為及相關因子的流行病學研究。國立臺灣大學流行病學研究所碩士論文,未出版,臺北市。
    陳國群 (2001)。最新內分泌學。臺北縣:藝軒圖書出版社。
    陳亮佑 (2006)。台南市中年婦女面對更年期的態度、生活型態與更年期症狀、生活品質之關係。國立成功大學醫學研究所,碩士論文,未出版,臺南市。
    陳慧君、蕭寧馨(2005)。大骨湯之礦物質含量,臺灣營養學會雜誌,30,28-35。
    陳慧君、彭惠鈺、鄭金寶、楊榮森 (2006)。高鈣飲食衛教對於鈣攝取量的影響。臺灣醫學,10,185-192頁。
    梁文倩 (2004)。停經過程婦女性生活滿意度之探討-以高雄市楠梓區婦女為例。國立台北護理學院護理研究所,碩士論文,未出版,臺北市。
    張瓊丹 (2002)。太極拳訓練對改善老年高血壓個案之健康信念、健康狀況與運 動行為之成效。國立台北護理學院護理研究所,碩士論文,未出版,臺北市。
    張芳瑋 (2006)。異黃酮與鈣對停經婦女骨質之影響。國立臺灣師範大學人類發展與家庭學系,碩士論文,未出版,臺北市。
    郭志輝 (1999)。舞蹈應用生理解剖學。臺北市:五南圖書出版公司。
    郭瑋綺 (2004)。探討大豆異黃酮素對於老鼠造骨細胞增生與骨蛋白表現的影響。私立臺北醫學大學,碩士論文,未出版,臺北市。
    陸文灝 (2001)。健康魔法書。臺北市:民視文化。
    黃基礎、史金燾、施河 (2000)。人體生理學(第二版)。臺北縣:藝軒圖書出版社。
    黃智宏 (2002)。使用超音波逆散射訊號統計模型於骨質疏鬆症之臨床偵測。私立中原大學醫學工程研究所,碩士論文,未出版,桃園縣。
    黃伯超、游素玲 (2007)。鈣與骨質疏鬆症。健康世界,260,13-18頁。
    趙台駿 (2003)。由定量式超音波與雙能X光吸收儀所測得骨質密度之比較。私立義守大學電子工程學系,碩士論文,未出版,高雄縣。
    蔡豐麟 (2000)。運動與骨質疏鬆症。運動生理週訊,第55期。
    鄭小嵐(2004)。高齡者飲食習慣與規律運動對其身體組成及血液、液生化指標相關性之探討。國立臺灣師範大學人類發展與家庭研究所碩士論文,未出版,臺北市。
    劉美珠 (1990)。瑜珈-身心合一的科學。中華體育,13,45-50頁。
    劉瓊尹 (2004)。停經後有無規律運動婦女之健康概念與體適能的比較研究。國立臺灣師範大學體育學系,碩士論文,未出版,臺北市。
    黎小娟、徐亞瑛 (2006)。蛋白質攝取在老年骨鬆性髖骨骨折術後的角色。臺灣老年醫學雜誌,2(2),70-81頁。
    廖家祺 (2001)。中等強度有氧舞蹈訓練對女性身體組成、血液生化值及抗氧化能力之影響。國立體育學院教練研究所碩士論文,未出版,桃園縣。
    賴玉釧、胡雪萍、劉珍芳、方雩、陳金發、駱屏南 (2003)。青少年體操選手飲食及生理狀況之探討。臺灣營養學會雜誌,28,114-122頁。
    賴淑萍 (2006)。大學生「女運動員三症候群」之相關探討。國立臺灣師範大學人類發展與家庭學系,碩士論文,未出版,臺北市。
    蕭啟信 (2003)。腹腔鏡子宮全切除手術。臺北長庚婦產科月刊。
    蕭雅馨 (2006)。十二週強力適能瑜珈訓練對靜態工作女性之生理及健康體適能的影響。私立大葉大學運動事業管理學系,碩士論文,未出版,彰化縣。

    二、 西文部分
    Abrams, S. A. (2003). Normal acquisition and loss of bone mass. Hormone Research, 60(3), 71S-76S.
    Albright, F., Smith, P. H., & Richardson, A. M. (1941). Postmenopausal osteoporosis. Journal of the American Medical Association, 116(11), 2465-2474.
    Alekel, D. L., Germain, A. S., Peterson, C. T., Hanson, K. B., Stewart, J. W., & Toda, T. (2000). Isoflavone-rich soy protein isolate attenuates bone loss in the lumbar spine of perimenopausal women. The American Journal of Clinical Nutrition, 72(3), 844-852.
    Allaz, A. F., Bernstein, M., Rouget, P., Archinard, M., & Morabia, A. (1998). Body weight preoccupation in middle-age and ageing women: a general population survey. The International Journal of Eating Disorders, 23(3), 287-294.
    Angyán, L., Téczely, T., Karsai, I., & Petofi, A. (2005). Comparative analysis of the effects of physical exercise. Acta Physiologica Hungarica, 92(1), 19-26.
    Anshel, M. H. (2004). Sources of disordered eating patterns between ballet dancers and non-dancers. Journal of Sport Behavior, 27(2), 115-133.
    Arican, M., Koylu, O., Uyaroglu, A., Erol, M., & Calim, K. N. (2004). Diagnostic importance of deoxypyridinoline and osteocalcine in equine osteoarthritis. Acta Veterinaria Brunensis, 73(4), 491-496.
    Arjmandi, B. H., Khalil, D. A., Smith, B. J., Lucas, E. A., Juma, S., Payton, M. E., & Wild, R. A. (2003). Soy protein has a greater effect on bone in postmenopausal women not on hormone replacement therapy, as evidenced by reducing bone resorption and urinary calcium excretion. The Journal of Clinical Endocrinology and Metabolism, 88(3), 1048-1054.
    Ashuma, S., Shashi, S., Anju, H. K., & Sumit, S. (2005). Study of some common biochemical bone turnover markers in postmenopausal women. Indian Journal of Clinical Biochemistry, 20(1), 131-134.
    Bassett, C. A. L. (1968). Biologic significance of piezoelectricity. Calcified Tissue International, 1, 252-272.
    Bale, P., Mayhew, J. L., Piper, F. C., Ball, T. E., & Willman, M. K. (1992). Biological and performance variables in relation to age in male and female adolescent athletes. The Journal of Sports Medicine and Physical Fitness, 32(2):142-148.
    Ballard, F. J., & Tomas, F. M. (1983). 3-Methylhistidine as a measure of skeletal muscle protein breakdown in human subjects: the case for its continued use. Clinical Science, 65(3), 209-215.
    Bathalon, G. P., Hays, N. P., Meydani, S. N., Dawson-Hughes, B., Schaefer, E. J., Lipman, R., Nelson, M., Greenberg, A. S., & Roberts, S. B. (2006). Metabolic, psychological, and health correlates of dietary restraint in healthy postmenopausal women. The Journals of Gerontology, 56(4), M206-211.
    Bischoff, H., Stähelin, H. B., Vogt, P., Friderich, P., Vonthein, R., Tyndall, A., & Theiler, R. (1999). Immobility as a major cause of bone remodeling in residents of a long-stay geriatric ward. Calcified Tissue International, 64(6), 485-489.
    Black, D., Duncan, A., & Robins, S. P. (1988). Quantitative analysis of the pyridinium crosslinks of collagen in urine using ion-paired reversed-phase high-performance liquid chromatography. Analytical Biochemistry, 169(1), 197-203.
    Brahm, H., Piehl-Aulin, K., & Ljunghall, S. (1996). Biochemical markers of bone metabolism during distance running in healthy, regularly exercising men and women. Scandinavian Journal of Medicine & Science in Sports,6(1), 26-30.
    Brahm, H., Ström, H., Piehl-Aulin, K., Mallmin, H., & Ljunghall, S. (1997). Bone metabolism in endurance trained athletes: a comparison to population-based controls based on DXA, SXA, quantitative ultrasound, and biochemical markers. Calcified Tissue International, 61(6), 448-454.
    Brown, S. J., Child, R. B., Day, S. H., & Donnelly, A. E. (1997). Indices of skeletal muscle damage and connective tissue breakdown following eccentric muscle contractions. European Journal of Applied Physiology and Occupational Physiology, 75(4), 369-374.
    Brooke-Wavell, K., Jones, P. R. M., Hardman, A. E., Tsuritani, I., & Yamada, Y. (2001). Commencing, continuing and stopping brisk walking: Effects on bone mineral density, quantitative ultrasound of bone and markers of bone metabolism in postmenopausal women. Osteoporosis International, 12(7), 581-587.
    Calvo, M. S. , Eyre, D. R., & Gundberg, C. M. (1996). Molecular basis and clinical application of biological markers of bone turnover. Endocrine Reviews, 17(4), 333-368.
    Castillo, E. M., Goodman-Gruen, D., Kritz-Silverstein, D., Morton, D. J., Wingard, D. L., & Barrett-Connor, E. (2003). Sarcopenia in elderly men and women: the Rancho Bernardo study. American Journal of Preventive Medicine, 25(3), 226-231.
    Chaffai, G., Peyrin, F., Nuzzo, S., Porcher, R., Berger, G., & Laugier, P. (2002). Ultrasound characterization of human cancellous bone using transmission and backscatter measurements: relationships to density and microstructure. Bone, 30(1), 229-237.
    Chatterjee, D., Chakraborty, M., Leit, M., Neff, L., Jamsa-Kellokumpu, S., Fuchs, R., Bartkiewicz, M., Hernando, N., & Baron, R. (1992). The osteoclast proton pump differs in its pharmacology and catalytic subunits from other vacuolar H+-ATPases. The Journal of Experimental Biology, 172, 193-204.
    Chan, K., Qin, L., Lau, M., Woo, J., Au, S., Choy, W., Lee, K., & Lee, S. (2004). A randomized, prospective study of the effects of Tai Chi Chun exercise on bone mineral density in postmenopausal women. Archives of Physical Medicine and Rehabilitation, 85(5), 717-722.
    Chow, R. K., & Harrison, J. E. (1987). Relationship of kyphosis to physical fitness and bone mass on post-menopausal women. American Journal of Physical Medicine, 66(5), 219-227.
    Cosman, F., Nieves, J., Wilkinson, C., Schnering, D., Shen, V., & Lindsay, R. (1996). Bone density change and biochemical indices of skeletal turnover. Calcified Tissue International, 58(4), 236-243.
    Cortet, B., Boutry, N., Dubois, P., Legroux-Gerot, I., Cotton, A., & Marchandise, X. (2004). Does quantitative ultrasound of bone reflect more bone mineral density than bone microarchitecture? Calcified Tissue International, 74(1), 60-67.
    Davis, S. R. (1996). Premature ovarian failure. Maturitas, 23(1), 1-8.
    Dawson-Hughes, B. (2003). Interaction of dietary calcium and protein in bone health in humans. The Journal of Nutrition, 133(3):852-854.
    Dean, K. J. (2001). Bone alkaline phosphatase, a serum bone turnover assay: usefulness in managing postmenopausal women receiving therapy to prevent or treat osteoporosis. Quidel Corporation.
    DeCherney, A. (1993). Physiologic and pharmacologic effects of estrogen and progestins on bone. The Journal of Reproductive Medicine, 38(12), 1007-1014.
    DiPietro, L., Williamson, D. F., Caspersen, C. J., & Eaker, E. (1993). The descriptive epidemiology of selected physical activities and body weight among adults trying to lose weight: The Behavioral Risk Factor Surveillance System survey, 1989. International Journal of Obesity and Related Metabolic Disorders, 17(2), 69-76.
    DiPietro, L. (2001). Physical activity in aging: Changes in patterns and their relationship to health and function. The Journals of Gerontology, 56(2), 13-22.
    Di Monaco, M., Vallero, F., Di Monaco, R., Tappero, R., & Cavanna, A. (2007). Skeletal muscle mass, fat mass, and hip bone mineral density in elderly women with hip fracture. Journal of Bone and Mineral Metabolism, 25(4), 237-242.
    Dohm, G. L., Williams, R. T., Kasperek, G. J., & van Rij, A. M. (1982). Increased excretion of urea and Nτ-methylhistidine by rats and humans after a bout of exercise. Journal of Applied Physiology, 52(1), 27-33.
    Dresner-Pollak, R., Parker, R. A., Poku, M., Thompson, J., Seibel, M. J., & Greenspan, S. L. (1996). Biochemical markers of bone turnover reflect femoral bone loss in elderly women. Calcified Tissue International, 59(5), 328-333.
    Drysdale, I. P., Collins, A. L., Walters, N. J., Bird, D., & Hinkley, H. J. (2007). Potential benefits of marathon training on bone health as assessed by calcaneal broadband ultrasound attenuation. Journal of Clinical Densitometry, 10(2), 179-183.
    Dvornyk, V., Liu, X. H., Shen, H., Lei, S. F., Zhao, L. J., Huang, Q. R., Qin, Y. J., Jiang, D. K., Long, J. R., Zhang, Y. Y., Gong, G., Recker, R. R., & Deng, H. W. (2003). Differentiation of Caucasians and Chinese at bone mass candidate genes: Implication for ethnic difference of bone mass. Annals of Human Genetics, 67(3), 216-227.
    Eastell, R., Robins, S. P., Colwell, T., Assiri, A. M., Riggs, B. L., & Russell, R. G. (1993). Evaluation of bone turnover in type I osteoporosis using biochemical markers specific for both bone formation and bone resorption. Osteoporosis International, 3(5), 255-260.
    Eastell, R., Delmas, P. D., Hodgson, S. F., Eriksen, E. F., Mann, K. G., & Riggs, B. L. (1988). Bone formation rate in older normal women: concurrent assessment with bone histomorphometry, calcium kinetics, and biochemical markers. The Journal of Clinical Endocrinology and Metabolism, 67(4), 741-748.
    Elia, M., Carter, A., Bacon, S., Winearls, C. G., & Smith, R. (1981). Clinical usefulness of urinary 3-methylhistidine excretion in indicating muscle protein breakdown. British Medical Journal, 282(6261), 351-354.
    Engelke, K., Kemmler, W., Lauber, D., Beeskow, C., Pintag, R.,& Kalender, W. A. (2006). Exercise maintains bone density at spine and hip EFOPS: A 3-year longitudinal study in early postmenopausal women. Osteoporosis International, 17(1),133-142.
    Ettinger, B., Black, D. M., Palermo, L., Nevitt, M. C., Melnikoff, S., & Cummings, S. R. (1994). Kyphosis in older women and its relation to back pain, disability and osteopenia: the study of osteoporotic fractures. Osteoporosis International, 4(1), 55-60.
    Eyre, D. R., Koob, T. J., & Vanness, K. P. (1984). Quantification of hydroxypyridinium crosslinks in collagen by high performance liquid chromatography. Analytical biochemistry, 137(2), 380-388.
    Faulkner, K. G., McClung, M. R., Coleman, L. J., & Kingston-Sandahl, E. (1994). Quantitative ultrasound of the heel: correlation with densitometric measurements at different skeletal sites. Osteoporosis International, 4(1), 42-47.
    Fiore, C. E., Pennisi, P., Ciffo, F., Scebba, C., Amico, A., & Di-Fazzio, S. (1999). Immobilization-dependent bone collagen breakdown appears to increase with time: evidence for a lack of new bone equilibrium in response to reduced load during prolonged bed rest. Hormone and Metabolic Research, 31(1), 31-36.
    Fransen, M., Nairn, L., Winstanley, J., Lam, P., & Edmonds, J. (2007). Physical activity for osteoarthritis management: A randomized controlled clinical trial evaluating hydrotherapy or Tai Chi classes. Arthritis and Rheumatism, 57(3), 407-414.
    Fujimoto, D., Moriguchi, T., Ishida, T., & Hayashi H. (1978). The structure of pyridinoline, a collagen crosslink. Biochemical and Biophysical Research Communications, 84(1), 52-57.
    Gabbitas, B., & Canalis, E. (1998). Insulin-like growth factors sustain insulin-like growth factor-binding protein-5 expression in osteoblasts. The American Journal of Physiology, 275(2), 222-228.
    Garner, D. M., Olmsted, M. P., Bohr, Y., & Garfinkel, P. E. (1982). The eating attitudes test: psychometric features and clinical correlates. Psychological Medicine, 12, 871-878.
    Garnero, P., Shih, W. J., Gineyts, E., Karpf, D. B., Delmas, P. D. (1994). Comparison of new biochemical markers of bone turnover in late postmenopausal osteoporotic women in response to alendronate treatment. The Journal of Clinical Endocrinology and Metabolism, 79(6), 1693-1700.
    Gibson, J. H., Mitchell, A., Harries, M. G., & Reeve, J. (2004). Nutritional and exercise-related determinants of bone density in elite female runners. Osteoporosis International, 15(8), 611-618.
    Girasole, G., Jilka, R. L., Passeri, G., Boswell, S., Boder, G., Williams, D. C., & Manolagas, S. C. (1992). 17 beta-estradiol inhibits interleukin-6 production by bone marrow-derived stromal cells and osteoblasts in vitro: A potential mechanism for the antiosteoporotic effect of estrogens. The Journal of Clinical Investigation, 89(3), 883-891.
    Glüer, C. C., Wu, C. Y., Jergas, M., Goldstein, S. A., & Genant, H. K. (1994). Three quantitative ultrasound parameters reflect bone structure. Calcified Tissue International, 55(1), 46-52.
    Ghannam, N. N., Hammami, M. M., Bakheet, S. M., & Khan, B. A. (1999). Bone mineral density of the spine and femur in healthy Saudi females: Relation to vitamin D status, pregnancy, and lactation. Calcified Tissue International, 65(1), 23-28.
    Gorai, I., Taguchi, Y., Chaki, O., Nakayama, M., & Minaguchi, H. (1997). Specific changes of urinary excretion of cross-linked N-telopeptides of type I collagen in pre- and postmenopausal women: Correlation with other markers of bone turnover. Calcified Tissue International, 60(4), 317-322.
    Graafmans, W. C., Van Lingen, A., Ooms, M. E., Bezemer, P. D., & Lips, P. (1996). Ultrasound measurements in the calcaneus: Precision and its relation with bone mineral density of the heel, hip and lumbar spine. Bone, 19(2), 97-100.
    Greendale, G. A., Lee, N. P., & Arriola, E. R. (1999). The menopause. The Lancet, 353 (9152), 571-580.
    Greendale, G. A., McDivit, A., Carpenter, A., Seeger, L., & Huang, M. H. (2002). Yoga for women with hyperkyphosis: Results of a pilot study. American Public Health Association, 92(10), 1611-1614.
    Gropper, S. S., Smith, J. L., & Groff, J. L. (2005). Advanced Nutrition and Human Metabolism. (4th ed.). Belmont, CA: Wadsworth Thomson Learning.
    Hans, D., Wu, C., Njeh, C. F., Zhaos, S., Augat, P., Newitt, D., Link, T., Lu, Y., Majumdar, S., & Genant, H. K. (1999). Ultrasound velocity of trabecular cubes reflects mainly bone density and elasticity. Osteoporosis International, 64(1), 18-23.
    Hanna, M. T., Tucker, K. L., Dawson-Hughes, B., Cupples, L. A., Felson, D. T., & Kiel, D. P. (2000). Effect of dietary protein on bone loss in elderly men and women: The Framingham Osteoporosis Study. Journal of Bone and Mineral Research, 15(12), 2504-2512.
    Hass, C. J., Gregor, R. J., Waddell, D. E., Oliver, A., Smith, D. W., Fleming, R. P., & Wolf, S. L. (2004). The influence of Tai Chi training on the center of pressure trajectory during gait initiation in older adults. Archives of Physical Medicine and Rehabilitation, 85(10), 1593-1598.
    Hernandez, C. J., Tang, S. Y., Baumbach, B. M., Hwu, P. B., Sakkee, A. N., van der Ham, F., DeGroot, J., Bank, R. A., & Keaveny, T. M. (2005). Trabecular microfracture and the influence of pyridinium and non-enzymatic glycation-mediated collagen cross-linds. Bone, 37(6),825-832.
    Henriksen, K., Sørensen, M. G., Nielsen, R. H., Gram, J., Schaller, S., Dziegiel, M. H., Everts, V., Bollerslev, J., & Karsdal, M. A. (2006). Degradation of the organic phase of bone by osteoclasts: a secondary role for lysosomal acidification. Journal of Bone and Mineral Research, 21(1), 58-66.
    Hickson, J. F., & Hinkelmann, K. (1989). Exercise and protein intake effects on urinary 3-methylhistidine excretion. The American Journal of Clinical Nutrition, 41(2), 246-253.
    Hillman, L. S. (1990). Nutritional factors affecting mineral homeostasis and mineralization in the term and preterm ingant. In D. J. Simmons (Eds.), Nutrition and bone development (pp. 55-67). New York, NY: Oxford University.
    Hind, K., & Burrows, M. (2007). Weight-bearing exercise and bone mineral accrual in children and adolescents: a review of controlled trials. Bone, 40(1), 14-27.
    HO, S. C., Chan, S. G., Yip, Y .B., Cheng, A., Yi, Q., & Chan, C. (1999). Menopausal symptoms and symptom clustering in Chinese women. Maturitas, 33(3), 219-227.
    Hu, J. F., Zhao, X. H., Jia, J. B., Parpia, B., & Campbell, T. C. (1993a). Dietary calcium and bone density among middle-aged and elderly women in China. The American Journal of Clinical Nutrition, 58(2), 219-227.
    Hu, J. F., Zhao, X. H., Parpia, B., Campbell, T. C. (1993b). Dietary intakes and urinary excretion of calcium and acids: a cross-sectional study of women in China. The American Journal of Clinical Nutrition, 58(3), 398-406.
    Kalkwarf, H. J., Khoury, J. C., & Lanphear, B. P. (2003). Milk intake during childhood and adolescence, adult bone density, and osteoporotic fractures in US women. The American Journal of Clinical Nutrition, 77(1), 257-265.
    Kamimura, M., Uchiyama, S., Takahara, K., Hashidate, H., Kawaguchi, A., & Nakagawa, H. (2005). Urinary excretion of type I collagen cross-linked N-telopeptide and serum bone-specific alkaline phosphatase analysis to determine the correlation of age and back-pain related changes in elderly women. Journal of Bone and Mineral Metabolism, 23(6), 495-500.
    Kanis, J. A. (1991). Calcium requirements for optimal skeletal health in women. Calcified Tissue International, 49, S33-S41.
    Keen, R. W., & Kelly, P. J. (1997). Genetic factors in osteoporosis: What are the implications for prevention and treatment? Drugs and Aging, 11(5), 333-337.
    Kerstetter, J. E., Looker, A. C., & Insogna, K. L. (2000). Low dietary protein and low bone density. Calcif Tissue International, 66(4), 313.
    King, J. C. (2001). Effect of reproduction on the bioavailability of calcium, zinc and selenium. The Journal of Nutrition, 131(4), 1355S-1358S.
    Kipnis, V., Subar, A. F., Midthune, D., Freedman, L. S., Ballard-Barbash, R., Troiano, R. P., Bingham, S., Schoeller, D. A., Schatzkin, A., & Carroll, R. J. (2003). Structure of Dietary Measurement Error: Results of the OPEN Biomarker Study. American Jourmal of Epidemiology, 158(1), 14-21.
    Kitatani, K., Nakatsuka, K., Naka, H., Miki, T., Morii, H., & Nishizawa, Y. (2003). Clinical usefulness of measurements of urinary deoxypyridinoline (DPD) in patients with postmenopausal osteoporosis receiving intermittent cyclical etidronate: advantage of free form of DPD over total DPD in predicting treatment efficacy. Journal of Bone and Mineral Metabolism, 21(4), 217-224.
    Lappa, V., Dontas, I. A., Trovas, G., Constantelou, E., Galanos, A., & Lyritis, G. P. (2007). Quantitative ultrasound is better correlated with bone mineral density and biochemical bone markers in elderly women. Clinical Rheumatology, 26(7), 1067-1073.
    Leech, J. A., Dulberg, C., Kellie, S., Pattee, L., & Gay, J. (1990). Relationship of lung function to severity of osteoporosis in women. The American Review of Respiratory Disease, 141(1), 68-71.
    Lee, M., Czerwinski, S. A., Choh, A. C., Demerath, E. W., Sun, S. S., Chumlea, W. C., Towne, B., & Siervogel, R. M. (2006). Unique and common genetic effects between bone mineral density and calcaneal quantitative ultrasound measures: The Fels Longitudinal Study. Osteoporosis International, 17(6), 865-871.
    Lee, R. D., & Nieman, D. C. (2003). Nutritional assessment (3th ed.). New York, NY: McGraw-Hill Companies, Inc.
    Lerner, U. H. (2006). Bone remodeling in post-menopausal osteoporosis. Journal of Dental Research, 85(7), 584-595.
    Martini, G., Valenti, R., Giovani, S., Franci, B., Campagna, S., & Nuti, R. (2001). Influence of insulin-like growth factor-1 and leptin on bone mass in healthy postmenopausal women. Bone, 28(1), 113-117.
    Matkovic, V., Fontana, D., Tominac, C., Goel, P., & Chesnut, C. H. 3rd. (1990). Factors that influence peak bone mass formation: A study of calcium balance and the inheritance of bone mass in adolescent females. The American Journal of Clinical Nutrition, 52(5), 878-888.
    Marci, C. D., Anderson, W. B., Viechnicki, M. B., & Greenspan, S. L. (2000). Bone mineral densitometry substantially influences health-related behaviors of postmenopausal women. Calcified Tissue International, 66(2), 113-118.
    Mazzuoli, G., Acca, M., Pisani, D., Diacinti, D., Scarda, A., Scarnecchia, L., Pacitti, M. T., D'Erasmo, E., Minisola, S., Bianchi, G., & Manfredi, G. (2000). Annual skeletal balance and metabolic bone marker changes in healthy early postmenopausal women: Results of a prospective study. Bone, 26(4), 381-386.
    McKinlay, S. M. (1996). The normal menopause transition: An Overview. Maturitas, 23(2), 137-145.
    McLean, J. A., Barr, S. I., & Prior, J. C. (2001). Cognitive dietary restraint is associated with higher urinary cortisol excretion in healthy premenopausal women. The American Journal of Clinical Nutrition, 73(1), 7-12.
    Melov, S., Tarnopolsky, M. A., Beckman, K., Felkey, K., & Hubbard, A. (2007). Resistance exercise reverses aging in human skeletal muscle. PLoS ONE, 2(5), e465.
    Metz, J. A., Anderson, J. J., & Gallagher, P. N. (1993). Intakes of calcium, phosphorus, and protein, and physical-activity level are related to radical bone mass in young adult women. The American Journal of Clinical Nutrition, 58(4), 537-542.
    Micklesfield, L. K., Lambert, E. V., Fataar, A. B., Noakes, T. D., & Myburgh, K. H. (1995). Bone mineral density in mature, premenopausal ultramarathon runners. Medicine and Science in Sports and Exercise, 27(5), 688-696.
    Minisola, S., Pacitti, M. T., Ombricolo, E., Costa, G., Scarda, A., Palombo, E., & Rosso, R. (1998). Bone turnover and its relationship with bone mineral density in pre- and postmenopausal women with or without fractures. Maturitas, 29(3), 265-270.
    Miyakoshi, N., Hongo, M., Maekawa, S., Ishikawa, Y., Shimada, Y., & Itoi, E. (2007). Back extensor strength and lumbar spinal mobility are predictors of quality of life in patients with postmenopausal osteoporosis. Osteoporosis International, 18(10), 1397-1403.
    Muñoz-Torres, M., Alonso, G., & Raya, M. P. (2004). Calcitonin therapy in osteoporosis. Treatments in Endocrinology, 3(2), 117-132.
    Nieves, J. W., Komar, L., Cosman, F., & Lindsay, R. (1998). Calcium potentiates the effect of estrogen and calcitonin on bone mass: Review and analysis. The American Journal of Clinical Nutrition, 67(1), 18-24.
    Nordin, B. E. (1997). Calcium and osteoporosis. Nutrition,13(7-8), 664-686.
    Novotny, R., Daida, Y. G., Grove, J. S., Acharya, S., Vogt, T. M., & Paperny, D. (2004). Adolescent dairy consumption and physical activity associated with bone mass. Preventive Medicine, 39(2), 355-360.
    O'Brien, K. O., Donangelo, C. M., Zapata, C. L., Abrams, S. A., Spencer, E. M., & King, J. C. (2006). Bone calcium turnover during pregnancy and lactation in women with low calcium diets is associated with calcium intake and circulating insulin-like growth factor 1 concentrations. American Journal of Clinical Nutrition, 83(2), 317-323.
    Okubo, H., Sasaki, S., Horiguchi, H., Oguma, E., Miyamoto, K., Hosoi, Y., Kim, M. K., & Kayama, F. (2006). Dietary patterns associated with bone mineral density in premenopausal Japanese farmwomen. American Journal of Clinical Nutrition, 83(5), 1185-1192.
    Pacifici, R., Rifas, L., McCracken, R., & Avioli, L. V. (1990). The role of interleukin-1 in postmenopausal bone loss. Experimental Gerontology, 25(3-4), 309-316.
    Paul, G. L., DeLany, J. P., Snook, J. T., Seifert, J. G., & Kirby, T. E. (1989). Serum and urinary markers of skeletal muscle tissue damage after weight lifting exercise. European Journal of Applied Physiology and Occupational Physiology, 58(7), 786-790.
    Pfeilschifter, J., Chenu, C., Bird, A., Mundy, G. R., & Roodman, G. D. (1989). Interleukin-1 and tumor necrosis factor stimulate the formation of human osteoclastlike cells in vitro. Journal of Bone and Mineral Research, 4(1), 113-118.
    Picard, D., Ste-Marie, L. G., Coutu, D., Carrier, L., Chartrand, R., Lepage, R., Fugère, P., & D'Amour, P. (1988). Premenopausal bone mineral content relates to height, weight and calcium intake during early adulthood. Bone and Mineral, 4(3), 299-309.
    Pødenphant, J., Johansen, J. S., Thomsen, K., Riis, B. J., Leth, A., & Chrostoamsem, C. (1987). Bone turnover in spinal osteoporosis. Journal of Bone and Mineral Research, 2(6), 497-503.
    Prakasamma, M., & Bhaduri, A. (1984). A study of yoga as a nursing intervention in the care of patients with pleural effusion. Journal of Advanced Nursing, 9(2), 127-133.
    Prentice, A. (2003). Micronutrients and the bone mineral content of the mother, fetus and newborn. The Journal of Nutrition, 133(5), 1693S-1699S.
    Qin, L., Au, S., Choy, W., Leung, P., Neff, M., Lee, K., Lau, M., Woo, J., & Chan, K. (2002). Regular Tai Chi Chuan exercise may retard bone loss in postmenopausal women: A case-control study. Archives of Physical Medicine and Rehabilitation, 83(10), 1355-1359.
    Raisz, L. G. (2005). Pathogenesis of osteoporosis: Concepts, conflicts, and prospects. The Journal of Clinical Investigation, 115(12), 3318-3325.
    Rattanakul, C., Lenbury, Y., Krishnamara, N., & Wollkind, D. J. (2003). Modeling of bone formation and resorption mediated by parathyroid hormone: Response to estrogen/PTH therapy. BioSystems, 70(1), 55-72.
    Raymond-Barker, P., Petroczi, A., & Quested, E. (2007). Assessment of nutritional knowledge in female athletes susceptible to the Female Athlete Triad syndrome. Journal of Occupational Medicine and Toxicology, 2, 10-21.
    Reid, I. R. (2002). Relationships among body mass, its components, and bone. Bone, 31(5), 547-555.
    Rich-Edwards, J. W., Manson, J. E., Hennekens, C. H., & Buring, J. E. (1995). The primary prevention of coronary heart disease in women. The New England Journal of Medicine, 332(26), 1758-1766.
    Rifas, L., Kenney, J. S., Marcelli, M., Pacifici, R., Cheng, S. L., Dawson, L. L., & Avioli, L. V. (1995). Production of interleukin-6 in human osteoblasts and human bone marrow stromal cells: Evidence that induction by interleukin-1 and tumor necrosis factor-alpha is not regulated by ovarian steroids. Endocrinology, 136(9), 4056-4067.
    Ritchie, L. D., Fung, E. B., Halloran, B. P., Turnlund, J. R., Van Loan, M. D., Cann, C. E., & King, J. C. (1998). A longitudinal study of calcium homeostasis during human pregnancy, lactation, and after weaning. The American Journal of Clinical Nutrition, 67(4), 693-701.
    Rudberg, A., Magnusson, P., Larsson, L., & Joborn, H. (2000). Serum isoforms of bone alkaline phosphatase increase during physical exercise in women. Calcified Tissue International, 66(5), 342-347.
    Sandler, R. B., Slemenda, C. W., LaPorte, R. E., Cauley, J. A., Schramm, M. M., Barresi, M. L., & Kriska, A. M. (1985). Postmenopausal bone density and milk consumption in childhood and adolescence. The American Journal of Clinical Nutrition,42(2), 270-274.
    Schatzkin, A., Kipnis, V., Carroll, R. J., Midthune, D., Subar, A. F., Bingham, S., Schoeller, D. A., Troiano, R. P., & Freedman, L. S. (2003). A comparison of a food frequency questionnaire with a 24-hour recall for use in an epidemiological cohort study: Results from the biomarker-based Observing Protein and Energy Nutrition (OPEN) study. International Journal of Epidemiology, 32(6), 1054-1062.
    Schürch, M. A., Rizzoli, R., Slosman, D., Vadas, L., Vergnaud, P., & Bonjour, J. P. (1998). Protein supplements increase serum insulin-like growth factor-I levels and attenuate proximal femur bone loss in patients with recent hip fracture. A randomized, double-blind, placebo-controlled trial. Annals of Internal Medicine, 128(10), 801-809.
    Seifert-Klauss, V., Mueller, J. E., Luppa, P., Probst, R., Wilker, J., Höss, C., Treumann, T., Kastner, C., & Ulm, K. (2002). Bone metabolism during the perimenopausal transition: A prospective study. Maturitas, 41(1), 23-33.
    Shapses, S. A., & Riedt, C. S. (2006). Bone, body weight, and weight reduction: what are the concerns? The Journal of Nutrition, 136(6), 1453-1456.
    Shaw, C., Tzen, K., & Chang, T. (1998). A prospective study of bone mineral density change in Taiwan. Calcified tissue International, 62(2), 109-113.
    Short, K. R., & Nair, K. S. (1999). Mechanisms of sarcopenia of aging. Journal of Endocrinological Investigation, 22(5), 95S-105S.
    Snow, C. M., Shaw, J. M., Winters, K. M., & Witzke, K. A. (2000). Long-term exercise using weighted vests prevents hip bone loss in postmenopausal women. The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences, 55(9), 489-491.
    Stacey, E., Korkia, P., Hukkanen, M. V., Polak, J. M., & Rutherford, O. M. (1998). Decreased nitric oxide levels and bone turnover in amenorrheic athletes with spinal osteopenia. The Journal of Clinical Endocrinology and Metabolism, 83(9), 3056-3061.
    Stillman, R. J., Lohman, T. G., Slaughter, M. H., & Massey, B. H. (1986). Physical activity and bone mineral content in women aged 30 to 85 years. Medicine and Science in Sports and Exercise, 18(5), 576-580.
    Sutton, R. A., Wong, N. L., & Dirks, J. H. (1979). Effects of metabolic acidosis and alkalosis on sodium and calcium transport in the dog kidney. Kidney International, 15(5), 520-533.
    Sun, J. S., Tsuang, Y. H., Liao, C. J., Liu, H. C., Hang, Y. S., & Lin, F.H. (1997). The effects of calcium phosphate particles on the growth of osteoblasts. Journal of Biomedical Materials Research. 37(3), 324-334.
    Taranta, A., Brama, M., Teti, A., De Luca, V., Scandurra, R., & Spera, G. (2002). The selective estrogen receptor modulator raloxifene regulates osteoclast and osteoblast activity in vitro. Bone, 30(2), 368-376.
    Tiggemann, M. (2004). Body image across the adult life span: Stability and change. Body Image, 1(1), 29-41.
    Tirafili, C., Romagnoli, E., Pellegrino, C., Costa, G., Ombricolo, E., Marciano, M., Caravella, P., Rosso, R., Minisola, S., & Mazzuoli, G. F. (1997). Age- and menopause-related changes in speed of sound and ultrasound attenuation of the os calcis in a healthy Italian female population. Aging, 9(6), 404-407.
    Thomson, B. M., Mundy, G. R., & Chambers, T. J. (1987). Tumor necrosis factors alpha and beta induce osteoblastic cells to stimulate osteoclastic bone resorption. Journal of Immunology, 138(3), 775-779.
    Thompson, J. K. (1992). Body image: Extent of disturbance, associated features, theoretical models, assessment methodologies, intervention strategies, and a proposal for a new DSM diagnostic category-body image disorder. Progress in Behavior Modification,28, 3-54.
    Thompson, M. A., & Gray, J. J. (1995). Development and validation of a new body-image assessment scale. Journal of Personality Assessment, 64(2), 258-269.
    Thiébaud, D., Bigler, J. M., Renteria, S., Pache, T., Welti, H. J., Landry, M., & Burckhardt, P. (1998). A 3-year study of prevention of postmenopausal bone loss: Conjugated equine estrogens plus medroxyprogesterone acetate versus tibolone. Climacteric, 1(3), 202-210.
    Tosun, A., Bölükbaşi, N., Cingi, E., Beyazova, M., & Unlü, M. (2006). Acute effects of a single session of aerobic exercise with or without weight-lifting on bone turnover in healthy young women. Modern Rheumatology, 16(5), 300-304.
    Trappe, T., Williams, R., Carrithers, J., Raue, U., Esmarck, B., Kjaer, M., & Hickner, R. (2004). Influence of age and resistance exercise on human skeletal muscle proteolysis: A microdialysis approach. The Journal of Physiology, 554(3), 803-813.
    Uebelhart, D., Schlemmer, A., Johansen, J. S., Gineyts, E., Christiansen, C., & Delmas, P. D. (1991). Effect of menopause and hormone replacement therapy on the urinary excretion of pyridinium cross-links. The Journal of Clinical Endocrinology and Metabolism, 72(2), 367-373.
    Vainionpää, A., Korpelainen, R., Leppäluoto, J., & Jämsä, T. (2005). Effects of high-impact exercise on bone mineral density: A randomized controlled trial in premenopausal women. Osteoporosis International, 16(2), 191-197.
    Vural, P., Akgul, C., & Canbaz, M. (2006). Effects of hormone replacement therapy on plasma pro-inflammatory and anti-inflammatory cytokines and some bone turnover markers in postmenopausal women. Pharmacological Research, 54(4), 298-302.
    Wardlaw, G. M., Hampl, J. S., & Disilvestro, R. A. (2004). Perspectives in Nutrition. (7th ed.). New York, NY: McGraw Hill.
    Watts, N. B. (1999). Clinical utility of biochemical markers of bone remodeling. Clinical Chemistry, 45(8), 1359-1368.
    Welsh, L., & Rutherford, O. M. (1996). Hip bone mineral density is improved by high-impact aerobic exercise in postmenopausal women and men over 50 years. European Journal of Applied Physiology and Occupational Physiology,74(6), 511-517.
    Welten, D. C., Kemper, H. C., Post, G. B., & van-Staveren, W. A. (1995). A meta-analysis of the effect of calcium intake on bone mass in young and middle aged females and males. The Journal of Nutrition, 125(11), 2802-2813.
    White, L. L., Ballew, C., Gilbert, T. J., Mendlein, J. M., Mokdad, A. H., & Strauss, K. F. (1997). Weight, body image, and weight control practices of Navajo Indians: Findings from the Navajo Health and Nutrition Survey. The Journal of Nutrition, 127(10), 2094S-2098S.
    Williamson, D. A., White, M. A., Newton, R., Alfonso, A., & Stewart, T.M. (2005). Association of body size estimation and age in African-American females. Eating and Weight Disorders, 10(4), 216-221.
    Wysolmerski, J. J. (2002). The evolutionary origins of maternal calcium and bone metabolism during lactation. Journal of Mammary Gland Biology and Neoplasia, 7(3), 267-276.
    Xu, H., Lawson, D., Kras, A. & Ryan, D. (2005). The use of preventive strategies for bone loss. The American Journal of Chinese Medicine, 33(2), 299-306.
    Yang, N. P., Jen, I., Chuang, S. Y., Chen, S. H., & Chou, P. (2006). Screening for low bone mass with quantitative ultrasonography in a community without dual-energy X-ray absorptiometry: Population-based survey. BMC Musculoskeletal Disorders, 7, 24.
    Yarasheski, K. E., Pak-Loduca, J., Hasten, D. L., Obert, K. A., Brown, M. B., & Sinacore, D. R. (1999). Resistance exercise training increases mixed muscle protein synthesis rate in frail women and men≧76 yr old. American Journal of Physiology. Endocrinology and Metabolism, 277(1), 118-125.
    Yeap, S. S., Pearson, D., Cawte, S. A., & Hosking, D. J. (1998). The relationship between bone mineral density and ultrasound in postmenopausal and osteoporotic women. Osteoporosis International, 8(2), 141-146.
    Yeung, L. K., Lin, H. I., Chu, P. L., Tseng, C. F., Wang, J. S., Chao, T. Y., & Lu, K. C. (2004). The effect of parathyroid hormone on bone remodeling markers during maintenance hemodialysis. Fu-Jen Journal of Medicine, 2(3), 233-240.
    Young, N., Formica, C., Szmukler, G., & Seeman, E. (1994). Bone density at weight-bearing and nonweight-bearing sites in ballet dancers: the effects of exercise, hypogonadism, and body weight. The Journal of Clinical Endocrinology and Metabolism, 78(2), 449-454.
    Young, V. R., & Munro, H. N. (1978). Nτ-methylhistidine (3-methylhistidine) and muscle protein turnover: An overview. Federation Proceedings, 37(9), 2291-2300.
    Zellner, D. A., Harner, D. E., & Adler, R. L. (1989). Effects of eating abnormalities and gender on perceptions of desirable body shape. Journal of Abnormal Psychology, 98(1), 93-96.
    Zhu, Z. Q., Liu, W., Xu, C. L., Han, S. M., Zu, S. Y., & Zhu, G. J. (2007). Ultrasound bone densitometry of the calcaneus in healthy Chinese children and adolescents. Osteoporosis International, 18(4), 533-541.

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