研究生: |
楊蕓菁 Yang, Yun-Chin |
---|---|
論文名稱: |
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 Long-term follow-up study of sugar sweetened beverages, snacks and desserts, and refined sugar consumption among preschoolers aged 2 to 5 years |
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: | 2012 |
畢業學年度: | 100 |
語文別: | 中文 |
論文頁數: | 304 |
中文關鍵詞: | 學齡前兒童 、含糖飲料 、糕餅點心 、精製糖 、世代研究 |
英文關鍵詞: | preschooler, sugar-sweetened beverages, snacks and desserts, refined sugar, cohort study |
論文種類: | 學術論文 |
相關次數: | 點閱:292 下載:68 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
嬰幼兒期的飲食營養與生長健康狀況,奠定日後各領域之發展,也是養成個人良好飲食型態的關鍵時期。本研究目的為提供本土學齡前兒童2~5歲之含糖飲料及糕餅點心攝取情形,並經由研發估算精製糖攝取量之方法學,探討其與家庭背景、體型、飲食營養素攝取及健康狀況之相關性。
本研究屬前瞻性之長期追蹤世代研究,於民國91及93年間於台北市立婦幼醫院及台大醫院招募151及150位嬰兒(簡稱民91世代與民93世代),兩世代皆以問卷調查法收集飲食、健康狀況、體位發展等資料。本研究則利用24小時飲食回憶資料計算幼兒2~5歲含糖飲料及糕餅點心攝取量,並估計其精製糖百分比,進一步獲得幼兒平均每日攝取自含糖飲料及糕餅點心之精製糖量,續而以SPSS 19.0及STATA 8.0版進行描述性及相關性分析。
含糖飲料攝取方面,幼兒2~5歲有飲用含糖飲料之比例隨年齡增加而增加,「調味及發酵乳飲」攝取人數百分比保持最高,「五穀雜糧飲」呈逐年上升趨勢,「茶飲料」則有最大幅度之上升;糕餅點心攝取方面,幼兒於2~4歲時以「餅乾類」攝取人數百分比維持最高,而「中式甜湯類」則呈現逐年上升趨勢,且有最大上升幅度,至幼兒5歲時呈最高攝取人數百分比。精製糖攝取方面,幼兒2~5歲之精製糖攝取約占總熱量依序為5%、6%、9%及8%,且經性別控制後,幼兒5歲時精製糖攝取與2~4歲精製糖攝取皆呈顯著正相關(p<0.05);另經性別及出生體型(體重、身高)等變項控制後,顯示幼兒4歲精製糖攝取與5歲體重及身高呈顯著正相關(p<0.05),而與5歲BMI之相關性則經性別及出生BMI等變項控制後呈不顯著(p>0.05)。
研究進一步依5歲幼兒精製糖攝取量百分位等分為三組,分別為低、中、高攝取量組(n=44,43,45),平均攝取量依序約為11、26、48克。結果顯示三組幼兒之家庭背景、雙親體位及健康狀況資料皆無顯著組別差異(p>0.05);但三組幼兒之身高、蛋類攝取與熱量、醣類及多種營養素攝取具顯著差異(p<0.05),高攝取量組之幼兒身高為最高,且蛋類、熱量、醣類及多種營養素攝取量也顯著較高,而乳製品攝取為最低(未達顯著差異);另依五歲幼兒精製糖熱量攝取占總熱量攝取百分比分組結果顯示過量攝取組(>總熱量10%,n=46)幼兒之主食類及乳製品攝取顯著低於適量攝取組(<總熱量10%,n=86) (p<0.05),且適量攝取組幼兒之鈣質攝取高於過量攝取組(未達顯著差異)。
本研究亦合併兩世代嬰幼兒出生至5歲(n=132)之資料,依出生體重第25及第75百分位分成相對低出生體重(relative low birth weight infants, rLBW)、相對適當出生體重(relative adequate birth weight infants, rABW)、相對高出生體重(relative high birth weight infants, rHBW)三組。結果顯示,幼兒追蹤至5歲之體型(體重、身高及BMI)於三組間達顯著差異(p<0.05),仍以rHBW組保持最高,rLBW組保持最低;但相對適當出生體重組(rABW)與其他兩組間之差異性已漸趨微小。另幼兒追蹤至5歲之體型增加倍數、增加百分比則也具出生組別差異(p<0.05),rLBW組幼兒之生長速度較rHBW組快速。營養素攝取方面,全體5歲幼兒平均熱量攝取約為1366大卡,蛋白質、脂質及醣類攝取約48、45、192公克,各占總熱量攝取14%、29%及56%;鈣質攝取(319毫克)僅達DRIs一半,膳食纖維攝取(8克)尚不及建議量一半。
本研究幼兒於2~5歲之平均精製糖攝取尚符合衛生署建議(<總熱量10%),但5歲時仍有三分之一比例攝取超量,且可能影響主食類及乳製品之攝取,而成長中幼兒應培養良好飲食習慣,均衡飲食以利正常生長發育;另本研究乃利用粗估方式進行精製糖之相關研究,未來應參考國內外發表之食品營養成分相關資料,進行本研究資料庫之糖質數據新建,以利更精確探討之進行。
The status of diet, nutrition and health of early childhood is essential for children’s growth, development, and establishment of good dietary patterns. The purpose of this study is to investigate the consumption of sugar-sweetened beverages, snacks, and desserts among local pre-school children aged two to five years old, to assess the intake of refined sugar by developing methodology method, and to examine its association with parents’ socio-demographic characteristics, figure status, and nutrient intakes as well as health status.
This research aims to be a prospective cohort study, including the first cohort of 130 children and the second cohort of 150 children recruited from the Taipei Municipal Women’s and Children’s Hospital and the National Taiwan University Hospital in 2002 and 2004. The intake of food and nutrient as well as the health status and body measurements are assessed by questionnaire. The intake of sugar-sweetened beverages, snacks, and desserts among children aged two to five years old are calculated by using the 24-hour recalls in the study. An estimated percentage of refined sugar is used in order to obtain the average daily intake of refined sugar from sugar-sweetened beverages, snacks, and desserts. The SPSS 19.0 and STATA 8.0 statistical program are used for all analysis.
The consumption of sugar-sweetened beverages among reported children increases with age. Among the sugar-sweetened beverages, “flavored and fermented milk” contributes to the highest percentage among children aged from two to five years old, while the “whole grains drinks” shows an increasing trend in years. Among the different category of drinks, “tea” has the most significant increase in its consumption. For sacks and desserts, “biscuits” contribute to the highest percentage among children age range from two to four years old, with “Chinese sweet soup” showing an upward trend by years while having the highest increasing percentage. It also becomes the highest among children aged five years old. The intakes from refined sugar are 5%, 6%, 9% and 8% respectively of their total energy among children aged 2 to 5 years old. After controlling the gender, refined sugar consumptions of children at age 5 and the intakes at age 2 to 4 years old are positively associated (p<0.05). After controlling the gender and birth-size (weight and height), refined sugar intakes of children at age 4 are positively associated with body weight and height at age 5(p<0.05), and the association with BMI of 5-year-old children by gender and birth BMI variable controlled is not significant (p>0.05).
Five-year-old children are divided into three categories according to the percentile of refined sugars intakes and are named low, medium and high intake groups (n = 44,43,45). The average intake of refined sugar is approximately 11,26,48 grams. The results show that no parents’ socio-demographic characteristics, parents figures status, or health status difference of various types of consumers (p>0.05). There are significant differences in height, intakes of eggs, calories, carbohydrates, and a lot of nutrients among the three groups (p<0.05). Those in the highest category of refined sugars intake also have higher figure, higher intake of eggs, total calories, carbohydrates, and a lot of nutrients than low-consumers who have lower intake of dairy products (no significant). Five-year-old children are also divided into two categories according to the total energy intake of refined sugars. The results show that the group with excessive-intake (>10% of total calories, n = 46) also has significantly lower intake of cereals and dairy products than the group with adequate-intake (p<0.05) and lower intake of calcium (no significant).
The analysis combined two cohorts’ studies consisting a total of 132 subjects age ranging from newborn to 5 years old. These participants are divided into three groups according to the 25th and 75th percentile cut-points: relative low birth weight infants group (rLBW), relative adequate birth weight infants group (rABW), and relative high birth weight infants group (rHBW). The result indicates that the growth indicators (weight, height and BMI) of infants between the three groups are significantly different from age 0 to 5(p<0.05). The rHBW group has higher means for weight, height and BMI, while the rLBW group is still the smallest of the three groups. However, the differences between the rABW and rLBW group become smaller. The assessments of the growth rates by multiplier of figures, weight/height gain percentages indicate that the growth speed is also significantly different among the three groups (p<0.05). The rLBW group has faster growth speed than the rHBW group. The mean daily caloric intake of 5-year-old children is 1366 Kcal, and the average dietary intakes of protein, fat and carbohydrate are 48g, 45g, and 192g respectively. The total energy is made up by 14% from protein, 29% from fat, and 56% from carbohydrates. The mean calcium intake is 319 mg compared to the DRIs of 600 mg, and the mean dietary fiber intake is 8 g compared to the IOM of 25 g.
In this study, the average intake of refined sugar is still in line with the Department of Health recommendations (<10% of total calories) among children aged 2 to 5 years old. Yet over one-third of 5-year-old children have over 10% calories intakes from refined sugar, which may affect the cereals and dairy products consumption. Children should have good eating habits and a balanced diet in order to facilitate normal growth and development. This study assesses the intake of refined sugars by using rough estimate method. Further studies are needed to confirm these findings by renewing our refine sugar database with local or other countries’ Food and Nutrition Composition Database.
一、中文部分
文部科學省科學技術學術審議會資源調查分科會(民99)。日本食品標準成分表2010。2010年11月16日,取自http://www.mext.go.jp
行政院衛生署(民90)。中華民國飲食手冊。台北市。
行政院衛生署(民95)。國民飲食指標參考手冊。民95年11月1日,取自http://www.bhp.doh.gov.tw/bhpnet/portal
行政院衛生署(民98)。台灣營養健康狀況變遷調查。民98年12月8日,取自http://nahsit.nhri.org.tw
行政院衛生署(民99)。衛生署國人均衡飲食建議。民99年5月13日,取自http://www.bhp.doh.gov.tw/bhpnet/portal/PressShow.aspx
行政院衛生署(民100)。國人膳食營養素參考攝取量及其說明(修訂第7版)。台北市。
行政院衛生署(民100)。國民飲食指標。民100年7月6日,取自http://www.doh.gov.tw
行政院衛生署食品藥物管理局(民101)。台灣地區食品營養成份資料庫。2012年3月28日,取自http://consumer.fda.gov.tw/
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。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
吳幸娟、潘文涵、葉乃華、張新儀(民99)。以24 小時飲食回顧法評估國小學童膳食營養狀況(台灣國小學童營養健康狀況調查2001-2002)。民國99年1月5日,取自http://www.fda.gov.tw
吳美娥(民74)。台北地區學齡前兒童之膳食營養狀況。中華民國營養學會雜誌,10,27-37。
吳清山、盧美貴(民91)。托兒所的衛生保健,幼兒教育法規彙編。五南圖書出版公司。
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。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
李芳靚、盧立卿、方麗容、陳葵蓉、江忻蓉(民100)。台灣營養學會雜誌,36(3),96-86。
李蘭、陳光和、蕭淑真、黃碧花(民68)。嬰幼兒之健康行為發展研究。行政院國家科學委員會專題研究計畫報告(NSC 80-0412-B002-96)
沈敬人(民90)。台灣地區幼兒營養素攝取狀況。輔仁大學食品營養研究所碩士論文,未出版,台北縣。
林佳蓉、陳師瑩、陳姿秀、黃靖媛、陳瑤惠、王敏英(民95)。兒童飲食習慣現況調查及改善計劃-幼兒飲食習慣現況調查。嘉南藥理科技大學專題研究計畫成果報告(計畫編號::CNCE9401),未出版。
林佳蓉、曾明淑、高美丁、葉文婷、潘文涵(民88)。台灣地區四至 十二歲兒童之飲食習慣與型態(國民營養健康狀況變遷調查1993-1996)。取自http://www.fda.gov.tw
林佳蓉、曾明淑、詹思萍(民86)。台灣地區一至六歲幼兒營養狀況調查。中華民國營養學會雜誌,22,47-61。
林筱菁(民97)。婦女懷孕前飲食營養攝取狀態與新生兒體型之相關性研究。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
侯金杏、徐光華、林世忠、張仙平(民93)。台北市北投區幼稚園及托兒所膳食供應之營養現況分析。健康促進暨衛生教育雜誌,24,95-110。
厚生労働省雇用均等児童家庭局(2011)。平成22年乳幼児身体発育調査報告書。2011年10月27日,取自http://www.mhlw.go.jp
紀伊真(民97)。台北地區零至四歲幼童飲食營養狀況與生長發育之前瞻性研究。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
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。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
張怡民(民92)。2001-2002台灣地區國小學童口腔狀況與甜食攝取之相關性。高雄醫學大學口腔衛生科學研究所碩士論文,未出版,高雄市。
張慈桂、藍忠孚、李燕鳴、王本榮(民93)。影響學齡前兒童過重相關因素之探討。台灣公共衛生雜誌,23(6),487-496。
張新儀、謝耀德、潘文涵、鄭喬薇(民100)。甜飲料攝取的代謝症候群風險:NAHSIT 2005-2008。民國100年5月9日,取自http://consumer.fda.gov.tw
陳姮霏(民93)。懷孕婦女飲食狀況對新生兒體型影響之前瞻性研究。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
陳姿媛(民100)。追蹤不同出生體重幼兒至四歲之生長狀況及飲食營養研究。國立台灣師範大學人類發展與家庭學系研究所碩士論文,未出版,台北市。
曾明淑、林佳蓉、高美丁(民93)。台灣地區嬰幼兒營養狀況與相關議題。營養監測與政策發展國際研討會,中央研究院,台北市。
曾愛迪、曹筱埩、猿倉薰子、黃國晉、黃伯超、許慈芳、山本茂(民99)。台灣營養學會雜誌,35(4),146-156。
黃雅鈴(民99)。台灣地區國人含糖飲料攝取與慢性疾病之相關性研究。靜宜大學食品營養學系研究所碩士論文,未出版,台北市。
董氏基金會(民95)。95年幼兒餐點營養品質調查。民國95年12月,取自Http://www.jtf.org.tw
董氏基金會(民101)。96年4~6歲幼兒及家長飲品攝取調查報告。民國101年1月3日,取自http://nutri.jtf.org.tw
蔡秀玲、郭靜香、蔡佩芬(民85)。生命期營養。台北市:藝軒。
二、英文部分
American Beverage Association. Nutrition & Science-Beverage Ingredient-High Fructose Corn Syrup, 2012. Available from: http://www.ameribev.org
Axelsson, I. E., Ivarsson, S. A., & Raiha, N. C. (1989). Protein intake in early infancy: effects on plasma amino acid concentrations, insulin metabolism, and growth. Pediatr Res, 26(6), 614-617.
Baghurst, K. I., Record, S. J., Syrette, J. A., Crawford, D. A., & Baghurst, P. A. (1989). Intakes and sources of a range of dietary sugars in various Australian populations. [Research Support, Non-U.S. Gov't]. Med J Aust, 151(9), 512-518.
Beatty, W. W., & Beatty, P. A. (1970). Hormonal determinants of sex differences in avoidance behavior and reactivity to electric shock in the rat. J Comp Physiol Psychol, 73(3), 446-455.
Berkey, C. S., Rockett, H. R., Field, A. E., Gillman, M. W., & Colditz, G. A. (2004). Sugar-added beverages and adolescent weight change. [Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Research Support, U.S. Gov't, P.H.S.]. Obes Res, 12(5), 778-788. doi: 10.1038/oby.2004.94
Bray, G. A., Nielsen, S. J., & Popkin, B. M. (2004). Consumption of high-fructose corn syrup in beverages may play a role in the epidemic of obesity. Am J Clin Nutr, 79(4), 537-543.
Campos, M., Garcia, L., Garcia, I. E., Rivera, C., & Valcarcel, M. I. (2008). Rate of weight gain in very-low birth weight Puerto Rican neonates. P R Health Sci J, 27(2), 141-145.
Carruth, B. R., Ziegler, P. J., Gordon, A., & Barr, S. I. (2004). Prevalence of picky eaters among infants and toddlers and their caregivers' decisions about offering a new food. J Am Diet Assoc, 104(1 Suppl 1), s57-64. doi: 10.1016/j.jada.2003.10.024
Centers for Disease Control and Prevention. (2000). 2000 CDC Growth Charts for the United States: Methods and Development. Retrieved from http://www.cdc.gov/growthcharts
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). [Research Support, Non-U.S. Gov't]. Int J Obes (Lond), 34(7), 1169-1176. doi: 10.1038/ijo.2010.61
Cutting, T. M., Fisher, J. O., Grimm-Thomas, K., & Birch, L. L. (1999). Like mother, like daughter: familial patterns of overweight are mediated by mothers' dietary disinhibition. [Clinical Trial Research Support, U.S. Gov't, P.H.S.]. Am J Clin Nutr, 69(4), 608-613.
Dennison, B. A., Rockwell, H. L., & Baker, S. L. (1997). Excess fruit juice consumption by preschool-aged children is associated with short stature and obesity. [Comparative Study Research Support, Non-U.S. Gov't]. Pediatrics, 99(1), 15-22.
Desor, J. A., & Beauchamp, G. K. (1987). Longitudinal changes in sweet preferences in humans. [Research Support, U.S. Gov't, P.H.S.]. Physiol Behav, 39(5), 639-641.
Dubois, L., Farmer, A., Girard, M., & Peterson, K. (2007). Regular sugar-sweetened beverage consumption between meals increases risk of overweight among preschool-aged children. [Research Support, Non-U.S. Gov't]. J Am Diet Assoc, 107(6), 924-934; discussion 934-925. doi: 10.1016/j.jada.2007.03.004
Fiorito, L. M., Marini, M., Francis, L. A., Smiciklas-Wright, H., & Birch, L. L. (2009). Beverage intake of girls at age 5 y predicts adiposity and weight status in childhood and adolescence. [Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't]. Am J Clin Nutr, 90(4), 935-942. doi: 10.3945/ajcn.2009.27623
Fisher, J., Mitchell, D., Smiciklas-Wright, H., & Birch, L. (2001). Maternal milk consumption predicts the tradeoff between milk and soft drinks in young girls' diets. [Comparative Study Research Support, U.S. Gov't, P.H.S.]. J Nutr, 131(2), 246-250.
Food Standard Australia New Zealand. NUTTAB 2010, 2010. Available from: http://www.foodstandards.gov.au
Frary, C. D., Johnson, R. K., & Wang, M. Q. (2004). Children and adolescents' choices of foods and beverages high in added sugars are associated with intakes of key nutrients and food groups. [Comparative Study Research Support, Non-U.S. Gov't]. J Adolesc Health, 34(1), 56-63.
Gibney, M., Sigman-Grant, M., Stanton, J. L., Jr., & Keast, D. R. (1995). Consumption of sugars. [Comparative Study]. Am J Clin Nutr, 62(1 Suppl), 178S-193S; discussion 194S.
Hediger, M. L., Overpeck, M. D., Maurer, K. R., Kuczmarski, R. J., McGlynn, A., & Davis, W. W. (1998). Growth of infants and young children born small or large for gestational age: findings from the Third National Health and Nutrition Examination Survey. Arch Pediatr Adolesc Med, 152(12), 1225-1231.
Hoppe, C., Molgaard, 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. [Research Support, Non-U.S. Gov't]. Am J Clin Nutr, 79(3), 494-501.
Hoppe, C., Udam, T. R., Lauritzen, L., Molgaard, C., Juul, A., & Michaelsen, K. F. (2004). Animal protein intake, serum insulin-like growth factor I, and growth in healthy 2.5-y-old Danish children. Am J Clin Nutr, 80(2), 447-452.
Hsieh, T. T., Hsu, J. J., Chen, C. J., Chiu, T. H., Liou, J. D., Hsieh, C. C., et al. (1991). Analysis of birth weight and gestational age in Taiwan. J Formos Med Assoc, 90(4), 382-387.
Hui, L. L., Schooling, C. M., Leung, S. S., 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 Pediatr Adolesc Med, 162(3), 212-218.
Huybrechts, I., & De Henauw, S. (2007). Energy and nutrient intakes by pre-school children in Flanders-Belgium. [Research Support, Non-U.S. Gov't]. Br J Nutr, 98(3), 600-610. doi: 10.1017/S000711450773458X
Huynh, D. T., Dibley, M. J., Sibbritt, D. W., & Tran, H. T. (2008). Energy and macronutrient intakes in preschool children in urban areas of Ho Chi Minh City, Vietnam. [Research Support, Non-U.S. Gov't]. BMC Pediatr, 8, 44. doi: 10.1186/1471-2431-8-44
Ibanez, L., Ong, K., Dunger, D. B., & de Zegher, F. (2006). Early development of adiposity and insulin resistance after catch-up weight gain in small-for-gestational-age children. J Clin Endocrinol Metab, 91(6), 2153-2158.
Institute of Medicine. (2005). Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids (Macronutrients). Washington, DC: The National Academies Press.
Jamel, H. A., Sheiham, A., Cowell, C. R., & Watt, R. G. (1996). Taste preference for sweetness in urban and rural populations in Iraq. [Comparative Study]. J Dent Res, 75(11), 1879-1884.
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. [Research Support, N.I.H., Extramural]. J Am Diet Assoc, 107(12), 2061-2069. doi: 10.1016/j.jada.2007.09.011
Kranz, S., & Siega-Riz, A. M. (2002). Sociodemographic determinants of added sugar intake in preschoolers 2 to 5 years old. J Pediatr, 140(6), 667-672. doi: 10.1067/mpd.2002.124307
Leung, S. S., Chan, S. M., Lui, S., Lee, W. T., & Davies, D. P. (2000). Growth and nutrition of Hong Kong children aged 0-7 years. [Research Support, Non-U.S. Gov't]. J Paediatr Child Health, 36(1), 56-65.
Lim, S., Zoellner, J. M., Lee, J. M., Burt, B. A., Sandretto, A. M., Sohn, W., . . . Lepkowski, J. M. (2009). Obesity and sugar-sweetened beverages in African-American preschool children: a longitudinal study. [Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't]. Obesity (Silver Spring), 17(6), 1262-1268. doi: 10.1038/oby.2008.656
Lin, C. M., Chen, C. W., Chen, P. T., Lu, T. H., & Li, C. Y. (2007). Risks and causes of mortality among low-birthweight infants in childhood and adolescence. Paediatr Perinat Epidemiol, 21(5), 465-472.
Linardakis, M., Sarri, K., Pateraki, M. S., Sbokos, M., & Kafatos, A. (2008). Sugar-added beverages consumption among kindergarten children of Crete: effects on nutritional status and risk of obesity. [Comparative Study Research Support, Non-U.S. Gov't]. BMC Public Health, 8, 279. doi: 10.1186/1471-2458-8-279
Manios, Y. (2006). Design and descriptive results of the "Growth, Exercise and Nutrition Epidemiological Study In preSchoolers": the GENESIS study. [Research Support, Non-U.S. Gov't]. BMC Public Health, 6, 32. doi: 10.1186/1471-2458-6-32
Mattes, R. D. (1996). Dietary compensation by humans for supplemental energy provided as ethanol or carbohydrate in fluids. [Clinical Trial Controlled Clinical Trial]. Physiol Behav, 59(1), 179-187.
McGartland, C., Robson, P. J., Murray, L., Cran, G., Savage, M. J., Watkins, D., . . . Boreham, C. (2003). Carbonated soft drink consumption and bone mineral density in adolescence: the Northern Ireland Young Hearts project. [Research Support, Non-U.S. Gov't]. J Bone Miner Res, 18(9), 1563-1569. doi: 10.1359/jbmr.2003.18.9.1563
Mennella, J. A., Pepino, M. Y., & Reed, D. R. (2005). Genetic and environmental determinants of bitter perception and sweet preferences. [Research Support, U.S. Gov't, P.H.S.]. Pediatrics, 115(2), e216-222. doi: 10.1542/peds.2004-1582
Ministry of Health, Labour and Welfare. Outline for the Results of the National Health and Nutrition Survey Japan, 2007. Available from: http://www.mhlw.go.jp/english/
Mitchell, M. K. (2003). Nutrition across the life span. Philadelphia, USA: W. B. Saunders.
Monteiro, P. O., Victora, C. G., Barros, F. C., & Monteiro, L. M. (2003). Birth size, early childhood growth, and adolescent obesity in a Brazilian birth cohort. Int J Obes Relat Metab Disord, 27(10), 1274-1282.
Mueller, N. T., Odegaard, A., Anderson, K., Yuan, J. M., Gross, M., Koh, W. P., & Pereira, M. A. (2010). Soft drink and juice consumption and risk of pancreatic cancer: the Singapore Chinese Health Study. [Research Support, N.I.H., Extramural]. Cancer Epidemiol Biomarkers Prev, 19(2), 447-455. doi: 10.1158/1055-9965.EPI-09-0862
New Zealand Food Composition Database. The Concise New Zealand Food Composition Table, 2009. Available from: http://www.foodcomposition.co.nz
Newby, P. K., Peterson, K. E., Berkey, C. S., Leppert, J., Willett, W. C., & Colditz, G. A. (2004). Beverage consumption is not associated with changes in weight and body mass index among low-income preschool children in North Dakota. [Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Research Support, U.S. Gov't, P.H.S.]. J Am Diet Assoc, 104(7), 1086-1094. doi: 10.1016/j.jada.2004.04.020
Nicklas, T. A., Yang, S. J., Baranowski, T., Zakeri, I., & Berenson, G. (2003). Eating patterns and obesity in children. The Bogalusa Heart Study. [Comparative Study Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Research Support, U.S. Gov't, P.H.S.]. Am J Prev Med, 25(1), 9-16.
Nielsen, G. A., Thomsen, B. L., & Michaelsen, K. F. (1998). Influence of breastfeeding and complementary food on growth between 5 and 10 months. Acta Paediatr, 87(9), 911-917.
O'Connor, T. M., Yang, S. J., & Nicklas, T. A. (2006). Beverage intake among preschool children and its effect on weight status. [Research Support, Non-U.S. Gov't]. Pediatrics, 118(4), e1010-1018. doi: 10.1542/peds.2005-2348
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. [Research Support, Non-U.S. Gov't]. BMJ, 320(7240), 967-971.
Pomerance, H. H., & Krall, J. M. (1984). The relationship of birth size to the rate of growth in infancy and childhood. Am J Clin Nutr, 39(1), 95-99.
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. Bmj, 330(7504), 1357.
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.
Safer, D. L., Agras, W. S., Bryson, S., & Hammer, L. D. (2001). Early body mass index and other anthropometric relationships between parents and children. [Research Support, U.S. Gov't, P.H.S.]. Int J Obes Relat Metab Disord, 25(10), 1532-1536. doi: 10.1038/sj.ijo.0801786
Scaglioni, S., Agostoni, C., Notaris, R. D., Radaelli, G., Radice, N., Valenti, M., . . . Riva, E. (2000). Early macronutrient intake and overweight at five years of age. Int J Obes Relat Metab Disord, 24(6), 777-781.
SSchulze, M. B., Manson, J. E., Ludwig, D. S., Colditz, G. A., Stampfer, M. J., Willett, W. C., & Hu, F. B. (2004). Sugar-sweetened beverages, weight gain, and incidence of type 2 diabetes in young and middle-aged women. [Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S.]. JAMA, 292(8), 927-934. doi: 10.1001/jama.292.8.927
Semmler, C., Ashcroft, J., van Jaarsveld, C. H., Carnell, S., & Wardle, J. (2009). Development of overweight in children in relation to parental weight and socioeconomic status. [Research Support, Non-U.S. Gov't Twin Study]. Obesity (Silver Spring), 17(4), 814-820. doi: 10.1038/oby.2008.621
Sigman-Grant, M., & Morita, J. (2003). Defining and interpreting intakes of sugars. [Review]. Am J Clin Nutr, 78(4), 815S-826S.
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. [Research Support, Non-U.S. Gov't]. Int J Obes Relat Metab Disord, 28(4), 476-482. doi: 10.1038/sj.ijo.0802405
Skinner, J. D., Ziegler, P., & Ponza, M. (2004). Transitions in infants' and toddlers' beverage patterns. J Am Diet Assoc, 104(1 Suppl 1), s45-50. doi: 10.1016/j.jada.2003.10.027
Somerset, S. M. (2003). Refined sugar intake in Australian children. [Comparative Study Research Support, Non-U.S. Gov't]. Public Health Nutr, 6(8), 809-813.
Sopko, G., Jacobs, D. R., Jr., & Taylor, H. L. (1984). Dietary measures of physical activity. [Research Support, U.S. Gov't, P.H.S.]. Am J Epidemiol, 120(6), 900-911.
Takahashi, E., Yoshida, K., Sugimori, H., Miyakawa, M., Izuno, T., Yamagami, T., & Kagamimori, S. (1999). Influence factors on the development of obesity in 3-year-old children based on the Toyama study. Prev Med, 28(3), 293-296.
United States Department of Agriculture(USDA)-Agricultural Research Service. USDA National Nutrient Database for Standard Reference Release 24, 2011. Available from: http://www.ars.usda.gov
Ventura, A. K., & Mennella, J. A. (2011). Innate and learned preferences for sweet taste during childhood. [Research Support, N.I.H., Extramural Review]. Curr Opin Clin Nutr Metab Care, 14(4), 379-384. doi: 10.1097/MCO.0b013e328346df65
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 Gastroenterol Nutr, 45(1), 90-95. doi: 10.1097/MPG.0b013e318058ca4e
Wang, Y. C., Bleich, S. N., & Gortmaker, S. L. (2008). Increasing caloric contribution from sugar-sweetened beverages and 100% fruit juices among US children and adolescents, 1988-2004. Pediatrics, 121(6), e1604-1614. doi: 10.1542/peds.2007-2834
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.
Welsh, J. A., Sharma, A. J., Grellinger, L., & Vos, M. B. (2011). Consumption of added sugars is decreasing in the United States. [Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't]. Am J Clin Nutr, 94(3), 726-734. doi: 10.3945/ajcn.111.018366
Xiong, X., Wightkin, J., Magnus, J. H., Pridjian, G., Acuna, J. M., & Buekens, P. (2007). Birth weight and infant growth: optimal infant weight gain versus optimal infant weight. Matern Child Health J, 11(1), 57-63.