以國民營養健康狀況變遷調查2013-2020年之資料探討鈣、維生素D和鎂對老人骨質健康之影響

張柏晨; Po-Chen Chang

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/92298

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	潘文涵	zh_TW
dc.contributor.advisor	Wen-Harn Pan	en
dc.contributor.author	張柏晨	zh_TW
dc.contributor.author	Po-Chen Chang	en
dc.date.accessioned	2024-03-21T16:29:59Z	-
dc.date.available	2024-03-22	-
dc.date.copyright	2024-03-21	-
dc.date.issued	2024	-
dc.date.submitted	2024-02-07	-
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The clinician’s guide to prevention and treatment of osteoporosis. Osteoporos Int. 2022. 12. Del Valle HB, Yaktine AL, Taylor CL, Ross AC. Dietary reference intakes for calcium and vitamin D. 2011. 13. 蕭寧馨、許珊菁. 鈣: 衛生福利部國民健康署; 2022 [Available from: https://www.hpa.gov.tw/Pages/Detail.aspx?nodeid=4248&pid=12285. 14. Medicine Io. Dietary reference intakes for calcium, phosphorus, magnesium, vitamin D, and fluoride. Washington, DC: The National Academies Press; 1997. 448 p. 15. Medicine Io. Dietary Reference Intakes for Calcium and Vitamin D. Ross AC, Taylor CL, Yaktine AL, Del Valle HB, editors. Washington, DC: The National Academies Press; 2011. 1132 p. 16. German Nutrition Society B, Germany. New Reference Values for Calcium. Annals of Nutrition and Metabolism. 2013;63(3):186-92. 17. Recommendations NN. Nordic Nutrition Recommendations 2012: Integrating nutrition and physical activity. Nordic Council of Ministers: Copenhagen, Denmark. 2014:627. 18. Michaud C, Musse N, Kahn JP, Grebert M, Burlet C, Mejean L. [Nutrition behavior in adolescent students (15-19 years of age) in the Nancy metropolitan area. A comparison with the recommended nutritional intake of the French population]. Rev Epidemiol Sante Publique. 1989;37(2):149-59. 19. Rizzoli R. Nutritional aspects of bone health. Best Practice & Research Clinical Endocrinology & Metabolism. 2014;28(6):795-808. 20. Rossini M, Adami S, Bertoldo F, Diacinti D, Gatti D, Giannini S, et al. Guidelines for the diagnosis, prevention and management of osteoporosis. Reumatismo. 2016;68(1):1-39. 21. Christianson MS, Shen W. Osteoporosis prevention and management: nonpharmacologic and lifestyle options. Clin Obstet Gynecol. 2013;56(4):703-10. 22. Erem S, Atfi A, Razzaque MS. Anabolic effects of vitamin D and magnesium in aging bone. J Steroid Biochem Mol Biol. 2019;193:105400. 23. Rizzoli R, Biver E, Brennan-Speranza TC. Nutritional intake and bone health. Lancet Diabetes Endocrinol. 2021;9(9):606-21. 24. Kumssa DB, Joy EJ, Ander EL, Watts MJ, Young SD, Walker S, et al. Dietary calcium and zinc deficiency risks are decreasing but remain prevalent. Sci Rep. 2015;5:10974. 25. Larsen ER, Mosekilde L, Foldspang A. Vitamin D and calcium supplementation prevents osteoporotic fractures in elderly community dwelling residents: a pragmatic population-based 3-year intervention study. J Bone Miner Res. 2004;19(3):370-8. 26. Weaver CM, Alexander DD, Boushey CJ, Dawson-Hughes B, Lappe JM, LeBoff MS, et al. Calcium plus vitamin D supplementation and risk of fractures: an updated meta-analysis from the National Osteoporosis Foundation. Osteoporos Int. 2016;27(1):367-76. 27. Bristow SM, Bolland MJ, Gamble GD, Leung W, Reid IR. Dietary calcium intake and change in bone mineral density in older adults: a systematic review of longitudinal cohort studies. Eur J Clin Nutr. 2022;76(2):196-205. 28. Schleicher RL, Sternberg MR, Looker AC, Yetley EA, Lacher DA, Sempos CT, et al. National estimates of serum total 25-hydroxyvitamin D and metabolite concentrations measured by liquid chromatography–tandem mass spectrometry in the US population during 2007–2010. J Nutr. 2016;146(5):1051-61. 29. Sarafin K, Durazo-Arvizu R, Tian L, Phinney KW, Tai S, Camara JE, et al. Standardizing 25-hydroxyvitamin D values from the Canadian Health Measures Survey. The American Journal of Clinical Nutrition. 2015;102(5):1044-50. 30. Cashman KD, Dowling KG, Škrabáková Z, Gonzalez-Gross M, Valtueña J, De Henauw S, et al. Vitamin D deficiency in Europe: pandemic? The American Journal of Clinical Nutrition. 2016;103(4):1033-44. 31. Jiang Z, Pu R, Li N, Chen C, Li J, Dai W, et al. High prevalence of vitamin D deficiency in Asia: A systematic review and meta-analysis. Crit Rev Food Sci Nutr. 2021:1-10. 32. 衛生福利部國民健康署. 國民營養健康狀況變遷調查 (106-109年). 2020. 33. Eleni A, Panagiotis P. A systematic review and meta-analysis of vitamin D and calcium in preventing osteoporotic fractures. Clin Rheumatol. 2020;39(12):3571-9. 34. Murad MH, Elamin KB, Abu Elnour NO, Elamin MB, Alkatib AA, Fatourechi MM, et al. Clinical review: The effect of vitamin D on falls: a systematic review and meta-analysis J Clin Endocrinol Metab. 2011;96(10):2997-3006. 35. Tenta R, Moschonis G, Koutsilieris M, Manios Y. Calcium and vitamin D supplementation through fortified dairy products counterbalances seasonal variations of bone metabolism indices: the Postmenopausal Health Study. European Journal of Nutrition. 2011;50(5):341-9. 36. Yao P, Bennett D, Mafham M, Lin X, Chen Z, Armitage J, et al. Vitamin D and calcium for the prevention of fracture: a systematic review and meta-analysis. JAMA Netw Open. 2019;2(12):e1917789. 37. Tu SH, Chen C, Hsieh YT, Chang HY, Yeh CJ, Lin YC, et al. Design and sample characteristics of the 2005-2008 Nutrition and Health Survey in Taiwan. Asia Pac J Clin Nutr. 2011;20(2):225-37. 38. Whyte MP. Misinterpretation of osteodensitometry with high bone density: BMD Z > or = + 2.5 is not "normal". J Clin Densitom. 2005;8(1):1-6. 39. Huang YC, Lee MS, Pan WH, Wahlqvist ML. Validation of a simplified food frequency questionnaire as used in the Nutrition and Health Survey in Taiwan (NAHSIT) for the elderly. Asia Pac J Clin Nutr. 2011;20(1):134-40. 40. Diagnostics R. Elecsys Vitamin D total III. 2022. 41. Densitometry TISfC. 2019 ISCD Official Positions 2019 [updated 2019. Available from: https://iscd.org/wp-content/uploads/2021/09/2019-Official-Positions-Adult-1.pdf. 42. Kanis JA, Adachi JD, Cooper C, Clark P, Cummings SR, Diaz-Curiel M, et al. Standardising the descriptive epidemiology of osteoporosis: recommendations from the Epidemiology and Quality of Life Working Group of IOF. Osteoporos Int. 2013;24(11):2763-4. 43. Osteoporosis WSGotPaMo. Prevention and management of osteoporosis : report of a WHO scientific group. Geneva: World Health Organization; 2003. 44. Liou YM, Jwo CJC, Yao KG, Chiang L-C, Huang L-H. Selection of appropriate Chinese terms to represent intensity and types of physical activity terms for use in the Taiwan version of IPAQ. Journal of Nursing Research. 2008;16(4). 45. Questionnaire IPA. Guidelines for data processing and analysis of the International Physical Activity Questionnaire (IPAQ) - short form 2014 [Available from: https://www.physio-pedia.com/images/c/c7/Quidelines_for_interpreting_the_IPAQ.pdf. 46. Willett WC, Howe GR, Kushi LH. Adjustment for total energy intake in epidemiologic studies. Am J Clin Nutr. 1997;65(4 Suppl):1220S-8S; discussion 9S-31S. 47. Administration HP. Dietary Reference Intakes, DRIs.; 2020. 48. Administration HP. Daily Food Guides. In: Welfare MoHa, editor. 2018. 49. Bordelon P, Ghetu MV, Langan RC. Recognition and management of vitamin D deficiency. Am Fam Physician. 2009;80(8):841-6. 50. Tai V, Leung W, Grey A, Reid IR, Bolland MJ. Calcium intake and bone mineral density: systematic review and meta-analysis. Bmj. 2015;351:h4183. 51. Bolland MJ, Leung W, Tai V, Bastin S, Gamble GD, Grey A, et al. Calcium intake and risk of fracture: systematic review. Bmj. 2015;351:h4580. 52. Malmir H, Larijani B, Esmaillzadeh A. Consumption of milk and dairy products and risk of osteoporosis and hip fracture: a systematic review and Meta-analysis. Crit Rev Food Sci Nutr. 2020;60(10):1722-37. 53. de Lamas C, de Castro MJ, Gil-Campos M, Gil Á, Couce ML, Leis R. Effects of dairy product consumption on height and bone mineral content in children: a systematic review of controlled trials. Adv Nutr. 2019;10(suppl_2):S88-s96. 54. Uenishi K, Ishida H, Kamei A, Shiraki M, Ezawa I, Goto S, et al. Calcium requirement estimated by balance study in elderly Japanese people. Osteoporos Int. 2001;12(10):858-63. 55. Willett W, Rockström J, Loken B, Springmann M, Lang T, Vermeulen S, et al. Food in the Anthropocene: the EAT-Lancet Commission on healthy diets from sustainable food systems. Lancet. 2019;393(10170):447-92. 56. Pan WH, Lee MM, Yu SL, Huang PC. Foods predictive of nutrient intake in Chinese diet in Taiwan: II. Vitamin A, vitamin B1, vitamin B2, vitamin C and calcium. Int J Epidemiol. 1992;21(5):929-34. 57. Gropper SAS, Smith JL, Carr TP. Advanced nutrition and human metabolism / Sareen S. Gropper, Jack L. Smith, Timothy P. Carr. Eighth edition. ed. Boston, MA: Cengage Learning, Inc.; 2022. 58. Orchard TS, Larson JC, Alghothani N, Bout-Tabaku S, Cauley JA, Chen Z, et al. Magnesium intake, bone mineral density, and fractures: results from the Women''s Health Initiative Observational Study. Am J Clin Nutr. 2014;99(4):926-33. 59. 李妮臻, 鄭裕耀, 葉乃華, 高美丁, 潘文涵. 鎂點數表. 中華民國營養學會雜誌. 2005;30(2):64-80. 60. Wang D, Yang Y. The relationship between serum 25-hydroxyvitamin D levels and osteoporosis in postmenopausal women. Clin Interv Aging. 2023;18:619-27. 61. Ott Susan M. 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Use of CTX-I and PINP as bone turnover markers: National Bone Health Alliance recommendations to standardize sample handling and patient preparation to reduce pre-analytical variability. Osteoporos Int. 2017;28(9):2541-56.	-
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/92298	-
dc.description.abstract	鈣質是造骨的最基本元素，每天要攝入多少鈣及其他相關營養素，才能維護骨質最佳狀態，是極為重要的營養議題；然而臺灣訂定鈣膳食參考攝取量，主要仰賴歐美的專家報告，由於不同人種之遺傳、飲食及生活型態差異大，亟需我國本土研究實證資料；此外鈣的利用還受到鎂及維生素D、身體發炎狀態的影響，國人到底需要多少鈣質及相關營養素飽受爭議；此外兒童青少年之骨本建立與老人之骨密維持議題需分別探討。本研究針對骨質疏鬆議題，使用2013-2020之國民營養健康狀況調查老人資料共2179筆，進行多變量回歸分析探討骨密相關營養素與骨質密度（應變項）之關係；股骨頸和腰椎之骨密度由DEXA測得，飲食鈣和鎂攝取量由簡易頻率問卷計算，血清維生素D以電化學冷光免疫分析法測得。結果顯示，總鈣攝取量對65歲以上老人之股骨頸及腰椎骨密度沒有統計上的影響；每天攝取超過628毫克的非乳鈣者（第五分位）骨質密度與其他四分位比較顯著最低，然而乳鈣攝取量與骨密度亦沒有相關性。值得注意的是，適量的乳鈣（107 - 438 mg/d）與較高的股骨頸骨密度相關。鎂平均攝取接近每日營養素建議量的組別相較於攝取量較少者，有顯著較高的骨密度。另外血清維生素D濃度達到足量30 ng/mL以上其股骨頸與腰椎骨密度也會越高。由本研究推論，當下鈣質攝取量對台灣老人骨密狀況並非關鍵，適當的鎂與維生素D營養之重要性可能更為重要。	zh_TW
dc.description.abstract	Calcium is a critical component of bone formation. The Taiwanese dietary reference intake for calcium referenced on several Western countries’ Daily Reference Intakes. The findings of these countries might not be applicable to the Taiwanese population owing to genetic, environmental, and dietary differences. It is still controversial whether Taiwanese should eat as much calcium as the Western country; therefore, the present study aims to investigate the calcium effect on bone mineral density (BMD) among elders, especially considering the combined effect of magnesium and vitamin D, two essential elements for bone health. Of 2849 participants aged above 65y and underwent DXA examination from the 2013-2020 Nutrition and Health Survey in Taiwan, 2179 were included in our study. Daily dietary calcium and magnesium intakes were collected from a simplified Food Frequency Questionnaire, and serum 25(OH)D was analyzed by Electrochemiluminescence immunoassay. Femoral neck and lumbar spine BMD (FN BMD & LS BMD) were examined by DEXA. The multivariate regression model was used to understand the association between calcium, vitamin D, magnesium, and BMD. Our results showed that higher dietary magnesium intake (over 424 mg/d) and sufficient serum 25(OH)D (over 30 ng/ml) were significantly and positively associated with FN BMD and LS BMD, while total calcium intake level was not in Taiwanese elders above 65y. People with over 628 mg/d of non-dairy Ca at the fifth quintile had the least bone density compared to other 4 quintiles. On the other hand, dairy calcium intake was not associated with BMD.	en
dc.description.provenance	Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2024-03-21T16:29:59Z No. of bitstreams: 0	en
dc.description.provenance	Made available in DSpace on 2024-03-21T16:29:59Z (GMT). No. of bitstreams: 0	en
dc.description.tableofcontents	口試委員會審定書 i 誌謝 ii 中文摘要 iii ABSTRACT iv CONTENTS v LIST OF FIGURES vii LIST OF TABLES viii Chapter 1 Introduction 1 1.1 Osteoporosis 1 1.2 Dietary Calcium Reference Intakes 2 1.3 Nutrient Effects on Bone Health 2 1.3.1 Calcium 3 1.3.2 Vitamin D 4 1.3.3 Magnesium 5 1.4 Study Aim 5 Chapter 2 Materials and Methods 6 2.1 Survey Design 6 2.2 Participants 7 2.3 Data Collection 8 2.3.1 Exposures 9 2.3.2 Outcomes 10 2.3.3 Covariates 11 2.4 Statistical Analysis 11 Chapter 3 Results 14 3.1 BMD by Confounding Factors 14 3.2 Hierarchical Models 15 3.2.1 Univariate Effects of Nutrient Status on BMD 16 3.2.2 Independent Effects of Nutrient Status on BMD in Multivariate Models 16 3.2.3 Joint Effects of Nutrient Status on BMD 18 Chapter 4 Discussions 36 4.1 Effects of Calcium 36 4.2 Magnesium and Vitamin D 38 4.3 Influence of Phosphorus 40 4.4 Estimated T score with Optimal Calcium and Magnesium Intake and Serum 25(OH)D Level 40 4.5 Limitations 41 4.6 Conclusions 42 REFERENCE 48 APPENDIX 52	-
dc.language.iso	en	-
dc.subject	鈣	zh_TW
dc.subject	鎂	zh_TW
dc.subject	骨質疏鬆	zh_TW
dc.subject	骨密度	zh_TW
dc.subject	維生素D	zh_TW
dc.subject	Bone mineral density	en
dc.subject	Osteoporosis	en
dc.subject	Calcium	en
dc.subject	Magnesium	en
dc.subject	Vitamin D	en
dc.title	以國民營養健康狀況變遷調查2013-2020年之資料探討鈣、維生素D和鎂對老人骨質健康之影響	zh_TW
dc.title	Independent Effects of Calcium, Vitamin D, and Magnesium on Bone Health Among Older Adults: Cross-Sectional Study with Data from the Nutrition and Health Survey in Taiwan 2013-2020	en
dc.type	Thesis	-
dc.date.schoolyear	112-1	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	蔡克嵩;李美璇;許珊菁;林以勤	zh_TW
dc.contributor.oralexamcommittee	Keh-Sung Tsai;Meei-Shyuan Lee;Shan-Ching Hsu;Yi-Chin Lin	en
dc.subject.keyword	骨質疏鬆,骨密度,鈣,鎂,維生素D,	zh_TW
dc.subject.keyword	Osteoporosis,Bone mineral density,Calcium,Magnesium,Vitamin D,	en
dc.relation.page	68	-
dc.identifier.doi	10.6342/NTU202400637	-
dc.rights.note	同意授權(限校園內公開)	-
dc.date.accepted	2024-02-17	-
dc.contributor.author-college	生命科學院	-
dc.contributor.author-dept	生化科技學系	-
dc.date.embargo-lift	2025-12-31	-
顯示於系所單位：	生化科技學系

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