研究生: |
盧玉萍 Lu, Yu-Ping |
---|---|
論文名稱: |
追蹤不同出生體重兒童至十歲之飲食變遷與生長發展研究 Dietary transition and growth development for children with different birth weights across the first decade of life |
指導教授: |
盧立卿
Lyu, Li-Ching |
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: | 2017 |
畢業學年度: | 105 |
語文別: | 中文 |
論文頁數: | 227 |
中文關鍵詞: | 出生體重 、生長發展 、飲食營養攝取 、生長速度 、體重反彈 |
英文關鍵詞: | birth weight, growth development, dietary nutrition intake, growth rate, adiposity rebound |
DOI URL: | https://doi.org/10.6345/NTNU202202055 |
論文種類: | 學術論文 |
相關次數: | 點閱:157 下載:19 |
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兒童期是影響未來體位及飲食習慣的重要時期,國外研究發現出生體重左右了人們一生生長及慢性病發展,而此期間營養攝取是兒童生長發展的關鍵,所以探討本土不同出生體重兒童在兒童時期之飲食營養攝取是否具有差異及對其生長發展有何影響是本研究想進了解的方向。
本研究為世代研究,對象主要來自於民國91及93年所招募之2個長期追蹤世代。將募集到的受試者以出生體重之第25及75百分位分為3組:相對低出生體重(relative low birth weight infants, rLBW)、相對適當出生體重(relative adequate birth weight infants, rABW)及相對高出生體重(relative high birth weight infants, rHBW),每年定期以電話訪問收集24小時飲食回憶、體位等資料,持續追蹤兒童至10歲(n=94)。統計軟體使用SPSS 22.0及STATA 8.0進行分析。
生長發展分析結果發現,不同出生體重兒童0~10歲體重、身高、BMI均達顯著差異,10年來相對高出生體重組兒童之體位均顯著較高(p<0.05),而相對低出生體重組則依然保持最低。兒童0~2歲生長追上(z>0.67)之相關分析中發現,不論在體重、身高或是BMI等方面,相對低出生體重組生長追上的比例顯著高於相對高出生體重組;且生長追上組之10歲體重、BMI顯著較高(p<0.05)。
飲食營養攝取中,兒童熱量及能量營養素在10年來呈現顯著增加(p for trend < 0.001),然而4~10歲鈣質攝取量明顯不足(337~357mg)。兒童每公斤體重熱量及能量營養素攝取隨時間增加而降低(p for trend < 0.001),但每公斤體重蛋白質攝取均較建議值高(10歲攝取量為1.77g/kg)。而比較不同出生體重兒童歷年營養素攝取時發現,10歲時熱量及營養素攝取多未出現顯著差異(p>0.05)。相關性分析中,兒童歷年之每公斤體重熱量及能量營養素多與10歲體位呈負相關,這也意味著早期每公斤體重熱量及能量營養素攝取量低,10歲體位較高。多元迴歸分析中,單獨放入10歲每公斤體重熱量及能量營養素時發現,每公斤體重熱量及能量營養素與10歲體位呈現負相關,但在個別每公斤體重能量營養素之模式中同時加入熱量時可以觀察到,每公斤體重熱量、脂質與10歲體位仍呈負相關,但每公斤體重蛋白質及醣類攝取呈現正相關。
在體重反彈分析中,早、晚期組體重反彈年齡分別為5及6歲;早期組發生體重反彈(5歲)之後,其平均BMI均高於晚期組。此外,兒童早期每公斤體重蛋白質攝取與體重反彈年齡呈負相關,也就是說早期每公斤體重蛋白質攝取高,體重反彈較早發生,伴隨著未來BMI也就越高。
綜合以上,雖然出生體重、生長追上及體重反彈等因素均影響兒童10歲時體位之分布,但同時兒童早期之每公斤體重熱量及能量營養素亦提供了兒童未來生長之潛在資訊,故了解兒童早期營養攝取並提供適當飲食對其生長發展以及健康狀況格外重要。
Childhood is an important period that affects the body size and eating habits. However, the recent studies have found that birth weight contributes to the development of growth and chronic diseases. Therefore, nutrition status is the key to growth development of children with different birth weights. This study would explore whether dietary nutrition intakes were different in children with different birth weights and how nutrition status benefits the growth development of these children.
The study was a cohort study. The subjects were recruited in 2002 and 2004 from two cohorts. The subjects were divided into three groups according to the 25th and 75th percentile cut points: relative low birth weight (rLBW), relative adequate birth weight (rABW) and relative high birth weight (rHBW). Interviewers gathered the 24-hour dietary recalls, anthropometric measures, and other information of children every year by telephone interviews until children was ten. The software packages of SPSS 22.0 and STATA 8.0 were employed for statistical analysis.
From birth to 10 years old, the results of anthropometric measurements of different birth groups showed that children of different birth weight groups were significantly different in weight, height and BMI (p<0.05). The rHBW group was always with highest and the rLBW group with the lowest mean among the three groups. We analyzed the various indicators of different growth rates. The prevalence of rLBW in the catch-up group (0~2 year, z >0.67) was significantly higher than rHBW and children of catch-up group was significantly heavier and taller (p<0.05).
Energy, protein, fat and carbohydrate intakes of children increased annually but calcium intake was with a mean of 357 mg which was much lower than the recommended value. Although energy per kilogram of body weight and energy nutrients per kilogram of body weight intake decreased year by year, protein per kilogram of body weight intake was higher than the recommended dietary allowance (1.8g/kg at 10). In addition, the energy and nutrient intakes were not significantly different among the three birth weight groups (p>0.05). The results from the correlation analyses showed the energy per kilogram of body weight and energy nutrients per kilogram of body weight intake were negative correlated with the weight, height and BMI at the age of 10 years. By the multiple regression analysis, when the variable of energy per kilogram of body weight and energy nutrients per kilogram of body weight intake singly enter the models, we could find the energy and energy nutrients were negatively associated with the weight, height and BMI at 10. Entering the energy nutrients into the energy model, you found the results that the energy and fat were still negatively correlated with growth indicators at 10 but the protein and carbohydrate were positively with growth indicators.
The mean age at adiposity rebound of children in earlier and later rebound groups was five and six years old, respectively. After adiposity rebound of earlier rebound group appeared, the later BMI values of earlier rebound group were higher than later rebound group. Moreover, the protein per kilogram of body weight intake early in life was negatively associated with the age at adiposity rebound. Therefore our data suggested that the children with higher protein intake early in life might have the earlier the adiposity rebound, and consequently, had the higher subsequent BMI.
In conclusion, our results showed that birth weight, catch-up growth and adiposity rebound had influence on body size at 10. This study found that the energy per kilogram of body weight and energy nutrients per kilogram of body weight intakes were indicators of children growth status at the same time. Therefore, we should pay attention to provide adequate diet early in life for children to support good growth and health status.
一、 中文文獻
以斯帖統計(2014年1月23日)。長期追蹤資料中缺失值的處理【部落格文字資料】。取自https://goo.gl/xhnXK2
江忻蓉(民101)。分析嬰兒哺餵方式及飲食攝取與體型發展之前瞻性研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
呂忻瑾(民97)。台北都會區不同出體重嬰兒飲食營養與生長發育之前瞻性研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
李芳靚(民99)。追蹤孕產期至六歲幼童飲食營養與生長發育之前瞻性研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
李芳靚、盧立卿、方麗容、陳葵蓉、江忻蓉.(民100)。幼童體重反彈與熱量供應營養素攝取之關係。臺灣營養學會雜誌,36(3),76-86.
何沛穎(民99)。飲食營養對不同出生體重新生兒至二歲生長發育之追蹤研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
研究生2.0(2013年5月29日)。Missing data 資料缺失簡介【部落格文字資料】。取自https://goo.gl/ZvzoUN
馬家蕙(民99)。追蹤台北都會區不同出生體重新生兒至三歲飲食營養與生長發育之研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
陳姿媛(民100)。追蹤不同出生體重幼兒至四歲之生長發展及飲食營養研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
陳姮霏(民93)。懷孕婦女飲食發展對新生兒體型影響之前瞻性研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
陳慧儀(民102)。飲食動植物性蛋白質與礦物質來源對兒童生長發展之相關研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
蔡秀玲、郭靜香、蔡佩芬(民85)。生命期營養。臺北市:藝軒。
楊淑惠、鄭心嫻、陳淑嫥、黃惠明、許薰惠、陳金發、... & 謝明哲. (民88)。台北市學齡前兒童的體位與營養素攝取和血液脂質生化的關係. 臺灣營養學會雜誌, 24(2), 139-151.
楊蕓菁(民101)。長期追蹤學齡前兒童二至五歲含糖飲料及糕餅點心與精製糖攝取情形(未出版之碩士論文)。國立台灣師範大學,臺北市。
董家堯、黃韶顏(2009)。幼兒營養與膳食。臺北市:心理。
董氏基金會(2011年04月13日)。蛋白質的利用與品質。取自https://nutri.jtf.org.tw/index.php?idd=1&aid=45&bid=344&cid=1244
衛生福利部國民健康署(民100)。國人膳食營養素參考攝取量修訂第七版。取自nutri.jtf.org.tw/img/100proposal.pdf
衛生福利部國民健康署(民102)。兒童及青少年生長身體質量指數建議值。取自http://obesity.hpa.gov.tw/TC/BMIproposal.aspx
衛生福利部國民健康署(民105)。2012台灣國民營養健康發展變遷調查。取自http://obesity.hpa.gov.tw/TC/research.aspx
衛生福利部國民健康署(民106)。母乳哺育國內現況。取自https://www.hpa.gov.tw/Pages/Detail.aspx?nodeid=506&pid=463
薛宇慧(民104)。追蹤不同出生體重兒童至八歲生長發展與飲食營養之研究(未出版之碩士論文)。國立台灣師範大學,臺北市。
謝明哲、胡淼琳、楊素卿、陳俊榮、徐成金、陳明汝(民99)。實用營養學。臺北市:華杏。
二、 英文文獻
Anderson, J. J. (2013). Potential health concerns of dietary phosphorus: cancer, obesity, and hypertension. Ann Ny Acad Sci, 1301(1), 1-8.
Barker, D. J. (1995). Fetal origins of coronary heart disease. Brit Med J, 311(6998), 171.
Barker, D. J., Osmond, C., Winter, P. D., Margetts, B., & Simmonds, S. J. (1989). Weight in infancy and death from ischaemic heart disease. The Lancet, 334(8663), 577-580.
Barker, D. J., Eriksson, J. G., Forsén, T., & Osmond, C. (2002). Fetal origins of adult disease: strength of effects and biological basis. Int J Epidemiol, 31(6), 1235-1239.
Boersma, B., & Wit, J. M. (1997). Catch-up growth. Endocr Rev, 18(5), 646-661.
Boonpleng, W., Park, C. G., & Gallo, A. M. (2012). Timing of adiposity rebound: a step toward preventing obesity. Pediatric nursing, 38(1), 37.
Briefel, R. R., Reidy, K., Karwe, V., Jankowski, L., & Hendricks, K. (2004). Toddlers’ transition to table foods: impact on nutrient intakes and food patterns. J Am Diet Assoc, 104, 38-44.
Cameron, N., Pettifor, J., Wet, T., & Norris, S. (2003). The relationship of rapid weight gain in infancy to obesity and skeletal maturity in childhood. Obes Res, 11(3), 457-460.
Centers for Disease Control and Prevention(2014). Breastfeeding Report Card. Retrieved from https://www.cdc.gov/breastfeeding/data/reportcard.htm
Chen, W., & Chang, M. H. (2010). New growth charts for Taiwanese children and adolescents based on World Health Organization standards and health-related physical fitness. Pediatr Neonatol, 51(2), 69-79.
Chivers, P., Hands, B., Parker, H., Bulsara, M., Beilin, L. J., Kendall, G. E., & Oddy, W. H. (2010). Body mass index, adiposity rebound and early feeding in a longitudinal cohort (Raine Study). Int J Obesity, 34(7), 1169-1176.
Dietz, W. H. (1994). Critical periods in childhood for the development of obesity. Am J Clin Nutr, 59(5), 955-959.
Dietz, W. H. (2006). Sugar-sweetened beverages, milk intake, and obesity in children and adolescents. J Pediatr, 148(2), 152-154.
Ding, Z., He, Q., & Fan, Z. (1998). National epidemiological study on obesity of children aged 0-7 years in China 1996. J Chin Med Assoc, 78(2), 121-123.
Dorosty, A. R., Emmett, P. M., Cowin, I. S., & Reilly, J. J. (2000). Factors associated with early adiposity rebound. Pediatrics, 105(5), 1115-1118.
Fulgoni, V. L. (2008). Current protein intake in America: analysis of the National Health and Nutrition Examination Survey, 2003–2004. Am J Clin Nutr, 87(5), 1554S-1557S.
Garnett, S. P., Cowell, C. T., Baur, L. A., Fay, R. A., Lee, J., Coakley, J., ... & Boulton, T. J. (2001). Abdominal fat and birth size in healthy prepubertal children. Int J Obesity, 25(11), 1667-1673
Guillaume, M., Lapidus, L., & Lambert, A. (1998). Obesity and nutrition in children. The Belgian Luxembourg Child Study IV. Eur J Clin Nutr, 52(5), 323-328.
Günther, A. L., Remer, T., Kroke, A., & Buyken, A. E. (2007). Early protein intake and later obesity risk: which protein sources at which time points throughout infancy and childhood are important for body mass index and body fat percentage at 7 y of age?. Am J Clin Nutr, 86(6), 1765-1772.
Günther, A. L. B., Buyken, A. E., & Kroke, A. (2006). The influence of habitual protein intake in early childhood on BMI and age at adiposity rebound: results from the DONALD Study. Int J Obesity, 30(7), 1072-1079.
Hassapidou, M., Fotiadou, E., Maglara, E., & Papadopoulou, S. K. (2006). Energy intake, diet composition, energy expenditure, and body fatness of adolescents in northern Greece. Obesity, 14(5), 855-862.
Hoppe, C., Mølgaard, C., Thomsen, B. L., Juul, A., & Michaelsen, K. F. (2004). Protein intake at 9 mo of age is associated with body size but not with body fat in 10-y-old Danish children. Am J Clin Nutr, 79(3), 494-501.
Hsieh, T. T., Hsu, J. J., Chen, C. J., Chiu, T. H., Liou, J. D., Hsieh, C. C., ... & Soong, Y. K. (1991). Analysis of birth weight and gestational age in Taiwan. J Formos Med Assoc, 90(4), 382-387.
Hsieh, W. S., Wu, H. C., Jeng, S. F., Liao, H. F., Su, Y. N., Lin, S. J., Hsieh, C. J., Chen, P. C. (2006). Nationwide singleton birth weight percentiles by gestational age in Taiwan, 1998-2002. Acta Paediatr Taiwan, 47(1), 25-33.
Hui, L. L., Schooling, C. M., Leung, S. S. L., Mak, K. H., Ho, L. M., Lam,
T. H., & Leung, G. M. (2008). Birth weight, infant growth, and
childhood body mass index: Hong Kong's children of 1997 birth
cohort. Arch Pediat Adol Med, 162(3), 212-218.
Institute of Medicine. (2002). Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids, ed 5. Retrieved from https://www.nap.edu/read/10490/chapter/1
Johnson, L., Mander, A. P., Jones, L. R., Emmett, P. M., & Jebb, S. A. (2008a). Energy-dense, low-fiber, high-fat dietary pattern is associated with increased fatness in childhood. Am J Clin Nutr, 87(4), 846-854.
Johnson, L., Mander, A. P., Jones, L. R., Emmett, P. M., & Jebb, S. A. (2008b). A prospective analysis of dietary energy density at age 5 and 7 years and fatness at 9 years among UK children. Int J Obesity, 32(4), 586-593.
Jones-Smith, J. C., Fernald, L. C., & Neufeld, L. M. (2007). Birth size and accelerated growth during infancy are associated with increased odds of childhood overweight in Mexican children. J Am Diet Assoc, 107(12), 2061-2069.
Keller, K. L., Kirzner, J., Pietrobelli, A., St-Onge, M. P., & Faith, M. S. (2009). Increased sweetened beverage intake is associated with reduced milk and calcium intake in 3-to 7-year-old children at multi-item laboratory lunches. J Am Diet Assoc, 109(3), 497-501.
Kersting, M., Sichert-Hellert, W., Alexy, U., Manz, F., & Schoch, G. (1998). Macronutrient intake of 1 to 18 year old German children and adolescents. Z Ernahrungswiss, 37(3), 252-259.
Kimmons, J. E., Dewey, K. G., Haque, E., Chakraborty, J., Osendarp, S. J., & Brown, K. H. (2005). Low nutrient intakes among infants in rural Bangladesh are attributable to low intake and micronutrient density of complementary foods. J Nutr, 135(3), 444-451.
Lahoz-García, N., García-Hermoso, A., Sánchez-López, M., Cañete García-Prieto, J., Milla-Tobarra, M., & Martínez-Vizcaíno, V. (2015). Associations between energy and fat intakes with adiposity in schoolchildren–the Cuenca Study. Nutr Hosp, 32(4).
Leung, S. S. F., Chan, S. M., Lui, S., Lee, W. T. K., & Davies, D. P. (2000). Growth and nutrition of Hong Kong children aged 0–7 years. J Paediatr Child H, 36(1), 56-65.
Liese, A. D., Hirsch, T., Von Mutius, E., Keil, U., Leupold, W., & Weiland, S. K. (2001). Inverse association of overweight and breast feeding in 9 to 10-y-old children in Germany. Int J Obesity, 25(11), 1644-1650
Li, C., Kaur, H., Choi, W. S., Huang, T. T. K., Lee, R. E., & Ahluwalia, J. S. (2005). Additive Interactions of Maternal Prepregnancy BMI and Breast‐feeding on Childhood Overweight. Obes Res, 13(2), 362-371.
Lowe, J. (2016) Early adiposity rebound, birthweight, and ethnicity: evidence from the Millennium Cohort Study. Retrieved from University College London, Centre for Longitudinal Studies. website: http://www.cls.ioe.ac.uk/shared/get-file.ashx?itemtype=document&id=3217
Maycock, B., Binns, C. W., Dhaliwal, S., Tohotoa, J., Hauck, Y., Burns, S., & Howat, P. (2013). Education and support for fathers improves breastfeeding rates a randomized controlled trial. J Hum Lact, 29(4), 484-490.
Mirkopoulou, D., Grammatikopoulou, M. G., Gerothanasi, K., Tagka, A., Stylianou, C., & Hassapidou, M. (2010). Metabolic indices, energy and macronutrient intake according to weight status in a rural sample of 17-year-old adolescents. Rural Remote Health, 10(4), 1513.
Monteiro, P. O. A., Victora, C. G., Barros, F. C. D., & Monteiro, L. M. A. (2003). Birth size, early childhood growth, and adolescent obesity in a Brazilian birth cohort. Int J Obesity, 27(10), 1274-1282.
Moreira, P., Padez, C., Mourao, I., & Rosado, V. (2005). Dietary calcium and body mass index in Portuguese children. Eur J Clin Nutr, 59(7), 861-867.
Nassar, M. F., AbdelKader, A. M., Al-Refaee, F. A., & Al-Dhafiri, S. S. (2014). Pattern of beverage intake and milk and dairy products sufficiency among high-school students in Kuwait/Caractéristiques de la prise de boissons sucrées et suffisance des apports en lait et produits laitiers chez des élèves d'établissements du secondaire au Koweït. East Mediterr Health J, 20(11), 738.
National Institute of Health and Nutrition. (2007). Outline of the National Health and Nutrition Survey Japan. Retrieved from http://www.nibiohn.go.jp/eiken/english/research/project_nhns.html
National Institute of Health and Nutrition (2015) Overview of Dietary Reference Intakes for Japanese. Retrieved from http://www.nibiohn.go.jp/eiken/english/research/project_dris.html
Ohlsson, C., Lorentzon, M., Norjavaara, E., & Kindblom, J. M. (2012). Age at adiposity rebound is associated with fat mass in young adult males—the GOOD study. PloS One, 7(11), e49404.
Ong, K. K., Ahmed, M. L., Emmett, P. M., Preece, M. A., & Dunger, D. B. (2000). Association between postnatal catch-up growth and obesity in childhood: prospective cohort study. Brit Med J, 320(7240), 967-971.
Pampel, F. C., Denney, J. T., & Krueger, P. M. (2012). Obesity, SES, and economic development: a test of the reversal hypothesis. Soc Sci Med, 74(7), 1073-1081.
Picciano, M. F., Smiciklas-Wright, H., Birch, L. L., Mitchell, D. C., Murray-Kolb, L., & McConahy, K. L. (2000). Nutritional guidance is needed during dietary transition in early childhood. Pediatrics, 106(1), 109-114.
Prader, A., Tanner, J. M., & Von Harnack, G. A. (1963). Catch-up growth following illness or starvation: an example of developmental canalization in man. J Pediatr, 62(5), 646-659.
Reilly, J. J., Armstrong, J., Dorosty, A. R., Emmett, P. M., Ness, A., Rogers, I., ... & Sherriff, A. (2005). Early life risk factors for obesity in childhood: cohort study. Brit Med J, 330(7504), 1357.
Rolland-Cachera, M. F., Deheeger, M., Akrout, M., & Bellisle, F. (1995). Influence of macronutrients on adiposity development: a follow up study of nutrition and growth from 10 months to 8 years of age. Int J Obesity, 19(8), 573-578.
Rolland-Cachera, M. F., Deheeger, M., & Bellisle, F. (1999). Increasing prevalence of obesity among 18-year-old males in Sweden: evidence for early determinants. Acta Paediatr, 88(4), 365-367.
Rolland-Cachera, M. F., Deheeger, M., Bellisle, F., Sempe, M., Guilloud-Bataille, M., & Patois, E. (1984). Adiposity rebound in children: a simple indicator for predicting obesity. Am J Clin Nutr, 39(1), 129-135.
Rolland-Cachera, M. F., Deheeger, M., Maillot, M., & Bellisle, F. (2006). Early adiposity rebound: causes and consequences for obesity in children and adults. Int J Obesity, 30, S11-S17.
Ryan, C., Dwyer, J., Ziegler, P., Yang, E., Moore, L., & Song, W. O. (2002). What do infants really eat?. Nutr Today, 37(2), 50-56.
Shultis, W. A., Leary, S. D., Ness, A. R., Bain, C. J., & Emmett, P. M. (2005). Does birth weight predict childhood diet in the Avon longitudinal study of parents and children?. J Epidemiol Commun H, 59(11), 955-960.
Skinner, J. D., Bounds, W., Carruth, B. R., Morris, M., & Ziegler, P. (2004). Predictors of children's body mass index: a longitudinal study of diet and growth in children aged 2–8 y. Int J Obesity, 28(4), 476-482.
Steer, C. D., Sayers, A., Kemp, J., Fraser, W. D., & Tobias, J. H. (2014). Birth weight is positively related to bone size in adolescents but inversely related to cortical bone mineral density: Findings from a large prospective cohort study. Bone, 65, 77-82.
Suchomlinov, A., & Tutkuviene, J. (2014). The relationship between birth weight, adiposity rebound and overweight at the age of 17 years (results of the Lithuanian longitudinal growth study, 1990–2008). Anthropol Anz, 71(4), 329-346.
Tylavsky, F. A., Cowan, P. A., Terrell, S., Hutson, M., & Velasquez-Mieyer, P. (2010). Calcium intake and body composition in African-American children and adolescents at risk for overweight and obesity. Nutrients, 2(9), 950-964.
United States Department of Agriculture. (2010). Dietary Guidelines for Americans. Retrieved from https://health.gov/dietaryguidelines/2010/
Van Deutekom, A. W., Chinapaw, M. J., Jansma, E. P., Vrijkotte, T. G., & Gemke, R. J. (2017). The Association of Birth Weight and Infant Growth with Energy Balance-Related Behavior–A Systematic Review and Best-Evidence Synthesis of Human Studies. PloS One, 12(1), e0168186.
Verduci, E., Radaelli, G., Stival, G., Salvioni, M., Giovannini, M., & Scaglioni, S. (2007). Dietary macronutrient intake during the first 10 years of life in a cohort of Italian children. J Pediatr Gastr Nutr, 45(1), 90-95.
Wadsworth, M., Butterworth, S., Marmot, M., Ecob, R., & Hardy, R. (2005). Early growth and type 2 diabetes: evidence from the 1946 British birth cohort. Diabetologia, 48(12), 2505-10
Wei, J. N., Sung, F. C., Li, C. Y., Chang, C. H., Lin, R. S., Lin, C. C., ... & Chuang, L. M. (2003). Low birth weight and high birth weight infants are both at an increased risk to have type 2 diabetes among schoolchildren in Taiwan. Diabetes Care, 26(2), 343-348.
Williams, S. M. (2005). Weight and height growth rate and the timing of adiposity rebound. Obes Res, 13(6), 1123-1130.
Williams, S. M., & Goulding, A. (2009). Patterns of growth associated with the timing of adiposity rebound. Obesity, 17(2), 335-341.
World Health Organization (2016) Levels and trends in child malnutrition Retrieved from http://www.who.int/nutgrowthdb/jme_brochure2016.pdf
Wright, J. D., Wang, C. Y., Kennedy-Stephenson, J., & Ervin, R. B. (2003). Dietary intake of ten key nutrients for public health, United States: 1999–2000. Adv Data, 334(17), 1-4.
Wu, T. C., & Chen, P. H. (2009). Health consequences of nutrition in childhood and early infancy. Pediatr Neonatol, 50(4), 135-142.
Yan, J., Liu, L., Zhu, Y., Huang, G., & Wang, P. P. (2014). The association between breastfeeding and childhood obesity: a meta-analysis. BMC Public Health, 14(1), 1267.