Author: |
陳彥妤 Chen, Yan-Yu |
---|---|
Thesis Title: |
以24小時飲食回憶驗證懷孕婦女飲食頻率問卷之效度 Using 24-hour dietary recalls to assess validity of food frequency questionnaires for pregnant women |
Advisor: |
盧立卿
Lyu, Li-Ching |
Degree: |
碩士 Master |
Department: |
人類發展與家庭學系 Department of Human Development and Family Studies |
Thesis Publication Year: | 2015 |
Academic Year: | 103 |
Language: | 中文 |
Number of pages: | 128 |
Keywords (in Chinese): | 飲食頻率問卷 、24小時飲食回憶 、效度 、懷孕婦女 、營養攝取 、餐次 |
Keywords (in English): | food frequency questionnaire, 24-hour dietary recalls, validity, pregnant woman, nutritional intake, meal times |
Thesis Type: | Academic thesis/ dissertation |
Reference times: | Clicks: 184 Downloads: 16 |
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本研究於台灣北中南三區特定醫院婦產科門診收案,採用樣本為245人。於懷孕期間以面談、電訪和郵寄等方式收集問卷,使用孕期所收集之5份24小時飲食回憶(24-hour dietary recalls, 24HDR)作為基準,檢測常用食譜為選項的餐次飲食頻率問卷(meal-based food frequency questionnaire, FFQ)在孕期婦女營養攝取之效度(validity),並探討此FFQ在國內孕期婦女營養評估之可行性。師大食品營養素資料庫第二版(National Taiwan Normal University Food and Nutrition Management System 2,NUFOOD.2)進行運算,再用SPSS 19.0進行分析。
結果顯示,除了油鹽糖醬類無法比較外,兩方法的主要熱量食物分類一致,依序為:全榖根莖類、豆魚肉蛋類、湯飲奶類、水果類、蔬菜類、零食點心類。FFQ相對效度檢測,熱量及營養素除了維生素A和維生素B12外,FFQ攝取量皆高於24HDR。皮爾森相關係數從膽固醇0.13到鈣0.22,營養密度從飽和脂肪酸0.13到膳食纖維0.23,24HDR熱量校正FFQ後從飽和脂肪酸0.13到蛋白質0.73,大多呈顯著正相關。合併為3個餐次後,24HDR和FFQ的餐次熱量分布為:早餐23%和20%,午餐38%和40%,晚餐39%和40%;醣類分布最為一致,早餐21%、午餐40%、晚餐39%。餐次分布皮爾森相關係數從晚餐熱量0.13到早餐脂肪0.26,餐次營養素密度從午餐脂肪和晚餐熱量0.13到早餐脂肪0.31,餐次熱量調整從晚餐熱量0.13到午餐熱量0.42,其中24HDR熱量校正營養素為良好調整方法。Bland-Altman一致性分析熱量和營養素之散布點多落在可接受範圍內(limits of agreement, LOA= 95% confidence interval),FFQ在較高及較低攝取量與24HDR差異較大,而營養素攝取百分比則較為固定。
經24HDR熱量校正FFQ調整後兩方法相比,熱量與營養素的皮爾森積差相關71%達顯著正相關,平均相關係數為0.27;淨相關74%達顯著正相關,平均相關係數為0.28;斯皮爾曼等級相關68%達顯著正相關,平均相關係數為0.30。餐次分布的皮爾森積差相關67%達顯著正相關,平均相關係數為0.20;淨相關67%達顯著正相關,平均相關係數為0.20;斯皮爾曼等級相關67%達顯著正相關,平均相關係數為0.21。FFQ雖然會高估大多營養素的攝取,但經24HDR熱量校正後之相對效度為佳,營養素所占熱量百分比亦和24HDR相似,故此FFQ能做為評估台灣孕期婦女營養攝取之有效工具。
關鍵詞:
飲食頻率問卷(food frequency questionnaire)、24小時飲食回憶(24-hour dietary recalls)、效度(validity)、懷孕婦女(pregnant woman)、營養攝取(nutritional intake)、餐次(meal times)
This study recruited 245 pregnant women from the obstetrics and gynecology clinic at hospitals in northern, middle and southern Taiwan and used the face-to-face interviews, telephone interviews and mail questionnaires to collect dietary data during pregnancy. We used the average of 5 24-hours dietary recalls (24HDR) as standard to assess validity of meal-based food frequency questionnaire (FFQ), and investigated the feasibility of the FFQ for assessing nutrition status during pregnancy in Taiwan. The database system entitled “National Taiwan Normal University Food and Nutrition Management System 2 (NUFOOD.2)” was used for data computing, and the SPSS 19.0 for data analysis.
The results showed that the main source of foods groups classification in energy are the similar for the two methods, as following food groups: whole grains and roots, soybean-fish-meat-egg, soup-drinks-milk, fruits, vegetables, snacks and desserts except for oil, salt, sugar and sauce groups which are not comparable. Relative validity analysis of FFQ showed that most energy and nutrients intakes from FFQ are higher than 24HDR except for vitamin A and vitamin B12. Pearson correlation coefficients were from 0.13 for calcium to 0.22 for cholesterol, nutrient density from 0.13 for saturated fatty acids to 0.23 for dietary fiber, 24HDR energy adjusted (calibrated FFQ) from 0.13 for saturated fatty acids to 0.73 for protein, and most nutrients were significantly positive correlated. Combining into three meal times, energy distributions of 3 meals of 24HDR and FFQ are as follows: 23% and 20% for breakfast, 38% and 40% for lunch, 39% and 40% for dinner, respectively. The distributions of carbohydrate intakes were most consistent than other nutrients by 3 meal times, both methods were 21% for breakfast, 40% for lunch, and 39% for dinner. Pearson correlation coefficients of meal distributions were from 0.13 for energy of dinner to 0.26 for fat of breakfast. The correlation coefficients for nutrient densities were 0.13 for fat of lunch fat and energy of dinner to 0.31 for fat of breakfast. The correlation confficients for 24HDR energy adjusted (calibrated FFQ) were from 0.13 for energy of dinner to 0.42 for energy of lunch. The 24HDR energy adjusted (calibrated FFQ) suggested to be a better energy adjusted method. By using the Bland-Altman method to analyze the consistency of dietary intakes, most scattered points were within the acceptable range (limits of agreement, LOA = 95% confidence interval). Differences between FFQ and 24HDR were larger in the higher and lower dietary intake samples, but the percentages of energy for the related nutrients intakes were relatively fixed.
Compared to the calibrated FFQ with 24HDR, the results showed that the 71% significantly positive correlations with the average Pearson correlation coefficient of 0.27. The results from the Spearman rank correlations showed 68% significant positive correlations with the average correlation coefficient of 0.30. In addition, the results showed the 74% significantly positive correlations by the partial correlation analyses with the average correlation coefficient of 0.28. For meals distributions, the results showed that 67% significantly positive correlation with the average Pearson correlation coefficient of 0.20. The results showed 67% significantly positive correlations by partial correlations with the average correlation coefficient of 0.20. The results showed 67% significant positive correlations by Spearman rank correlations with the average correlation coefficient of 0.21. Although FFQ tends to overestimate most nutrient intakes, the energy adjusted by 24HDR (calibrated FFQ) showed good relative validity, and the percentages of energy from protein, fat and carbohydrate were similar to the 24HDR. Therefore FFQ is an effective tool for assessing dietary intakes for pregnant women in Taiwan.
Key words:
food frequency questionnaire, 24-hour dietary recalls, validity, pregnant woman, nutritional intake, meal times
Andersen, L. F., Veierod, M. B., Johansson, L., Sakhi, A., Solvoll, K., & Drevon, C. A. (2005). Evaluation of three dietary assessment methods and serum biomarkers as measures of fruit and vegetable intake, using the method of triads. Br J Nutr, 93(4), 519-527.
Araujo, M. C., Yokoo, E. M., & Pereira, R. A. (2010). Validation and calibration of a semiquantitative food frequency questionnaire designed for adolescents. J Am Diet Assoc, 110(8), 1170-1177. doi: 10.1016/j.jada.2010.05.008
Baddour, S. E., Virasith, H., Vanstone, C., Forest, J. C., Giguere, Y., Charland, M., & Weiler, H. A. (2013). Validity of the Willett food frequency questionnaire in assessing the iron intake of French-Canadian pregnant women. Nutrition, 29(5), 752-756. doi: 10.1016/j.nut.2012.12.019
Barbieri, P., Nishimura, R. Y., Crivellenti, L. C., & Sartorelli, D. S. (2013). Relative validation of a quantitative FFQ for use in Brazilian pregnant women. Public Health Nutr, 16(8), 1419-1426. doi: 10.1017/s1368980012003783
Bartko, J. J. (1966). The intraclass correlation coefficient as a measure of reliability. Psychological reports, 19(1), 3-11.
Bel-Serrat, S., Mouratidou, T., Pala, V., Huybrechts, I., Bornhorst, C., Fernandez-Alvira, J. M., . . . Moreno, L. A. (2014). Relative validity of the Children's Eating Habits Questionnaire-food frequency section among young European children: the IDEFICS Study. Public Health Nutr, 17(2), 266-276. doi: 10.1017/s1368980012005368
Carroll, R. J., Midthune, D., Subar, A. F., Shumakovich, M., Freedman, L. S., Thompson, F. E., & Kipnis, V. (2012). Taking advantage of the strengths of 2 different dietary assessment instruments to improve intake estimates for nutritional epidemiology. Am J Epidemiol, 175(4), 340-347. doi: 10.1093/aje/kwr317
Cheng, Y., Yan, H., Dibley, M. J., Shen, Y., Li, Q., & Zeng, L. (2008). Validity and reproducibility of a semi-quantitative food frequency questionnaire for use among pregnant women in rural China. Asia Pac J Clin Nutr, 17(1), 166-177.
Decarli, A., Franceschi, S., Ferraroni, M., Gnagnarella, P., Parpinel, M. T., La Vecchia, C., . . . Giacosa, A. (1996). Validation of a food-frequency questionnaire to assess dietary intakes in cancer studies in Italy. Results for specific nutrients. Ann Epidemiol, 6(2), 110-118.
Elorriaga, N., Irazola, V. E., Defago, M. D., Britz, M., Martinez-Oakley, S. P., Witriw, A. M., & Rubinstein, A. L. (2014). Validation of a self-administered FFQ in adults in Argentina, Chile and Uruguay. Public Health Nutr, 1-9. doi: 10.1017/s1368980013003431
Erkkola, M., Karppinen, M., Javanainen, J., Rasanen, L., Knip, M., & Virtanen, S. M. (2001). Validity and reproducibility of a food frequency questionnaire for pregnant Finnish women. Am J Epidemiol, 154(5), 466-476.
Gennaro, S., Biesecker, B., Fantasia, H. C., Nguyen, M., & Garry, D. (2011). Nutrition profiles of African [corrected] American women in the third trimester. MCN Am J Matern Child Nurs, 36(2), 120-126. doi: 10.1097/NMC.0b013e3182057a13
Kolahdooz, F., Butler, L., Lupu, M., Sheehy, T., Corriveau, A., & Sharma, S. (2014). Assessment of dietary intake among Inuvialuit in Arctic Canada using a locally developed quantitative food frequency questionnaire. J Am Coll Nutr, 33(2), 147-154. doi: 10.1080/07315724.2013.874890
Liu, L., Wang, P. P., Roebothan, B., Ryan, A., Tucker, C. S., Colbourne, J., . . . Sun, G. (2013). Assessing the validity of a self-administered food-frequency questionnaire (FFQ) in the adult population of Newfoundland and Labrador, Canada. Nutr J, 12, 49. doi: 10.1186/1475-2891-12-49
Lyu, L. C., Lin, C. F., Chang, F. H., Chen, H. F., Lo, C. C., & Ho, H. F. (2007). Meal distribution, relative validity and reproducibility of a meal-based food frequency questionnaire in Taiwan. Asia Pac J Clin Nutr, 16(4), 766-776.
Masson, L. F., McNeill, G., Tomany, J. O., Simpson, J. A., Peace, H. S., Wei, L., . . . Bolton-Smith, C. (2003). Statistical approaches for assessing the relative validity of a food-frequency questionnaire: use of correlation coefficients and the kappa statistic. Public Health Nutr, 6(3), 313-321. doi: 10.1079/phn2002429
Mejia-Rodriguez, F., Orjuela, M. A., Garcia-Guerra, A., Quezada-Sanchez, A. D., & Neufeld, L. M. (2012). Validation of a novel method for retrospectively estimating nutrient intake during pregnancy using a semi-quantitative food frequency questionnaire. Matern Child Health J, 16(7), 1468-1483. doi: 10.1007/s10995-011-0912-8
Meltzer, H. M., Brantsaeter, A. L., Ydersbond, T. A., Alexander, J., & Haugen, M. (2008). Methodological challenges when monitoring the diet of pregnant women in a large study: experiences from the Norwegian Mother and Child Cohort Study (MoBa). Matern Child Nutr, 4(1), 14-27. doi: 10.1111/j.1740-8709.2007.00104.x
Mouratidou, T., Ford, F., & Fraser, R. B. (2006). Validation of a food-frequency questionnaire for use in pregnancy. Public Health Nutr, 9(4), 515-522.
Ollberding, N. J., Gilsanz, V., Lappe, J. M., Oberfield, S. E., Shepherd, J. A., Winer, K. K., . . . Kalkwarf, H. J. (2015). Reproducibility and intermethod reliability of a calcium food frequency questionnaire for use in Hispanic, non-Hispanic Black, and non-Hispanic White youth. J Acad Nutr Diet, 115(4), 519-527.e512. doi: 10.1016/j.jand.2014.12.016
Osowski, J. M., Beare, T., & Specker, B. (2007). Validation of a food frequency questionnaire for assessment of calcium and bone-related nutrient intake in rural populations. J Am Diet Assoc, 107(8), 1349-1355. doi: 10.1016/j.jada.2007.05.012
Prentice, R. L., Huang, Y., Kuller, L. H., Tinker, L. F., Horn, L. V., Stefanick, M. L., . . . Johnson, K. C. (2011). Biomarker-calibrated energy and protein consumption and cardiovascular disease risk among postmenopausal women. Epidemiology, 22(2), 170-179. doi: 10.1097/EDE.0b013e31820839bc
Pufulete, M., Emery, P. W., Nelson, M., & Sanders, T. A. (2002). Validation of a short food frequency questionnaire to assess folate intake. Br J Nutr, 87(4), 383-390. doi: 10.1079/bjnbjn2002518
Samuelson, G., Bratteby, L. E., Enghardt, H., & Hedgren, M. (1996). Food habits and energy and nutrient intake in Swedish adolescents approaching the year 2000. Acta Paediatr Suppl, 415, 1-19.
Shatenstein, B., Xu, H., Luo, Z. C., & Fraser, W. (2011). Relative validity of a food frequency questionnaire for pregnant women. Can J Diet Pract Res, 72(2), 60-69. doi: 10.3148/72.2.2011.60
Silva-Jaramillo, K. M., Neutzling, M. B., & Drehmer, M. (2015). FFQ for the adult population of the capital of Ecuador (FFQ-Quito): development, reliability and validity. Public Health Nutr, 1-10. doi: 10.1017/s1368980014003346
Silva, N. F., Sichieri, R., Pereira, R. A., Silva, R. M., & Ferreira, M. G. (2013). Reproducibility, relative validity and calibration of a food frequency questionnaire for adults. Cad Saude Publica, 29(9), 1783-1794.
Slater, B., Enes, C. C., Lopez, R. V., Damasceno, N. R., & Voci, S. M. (2010). Validation of a food frequency questionnaire to assess the consumption of carotenoids, fruits and vegetables among adolescents: the method of triads. Cad Saude Publica, 26(11), 2090-2100.
Streppel, M. T., de Vries, J. H., Meijboom, S., Beekman, M., de Craen, A. J., Slagboom, P. E., & Feskens, E. J. (2013). Relative validity of the food frequency questionnaire used to assess dietary intake in the Leiden Longevity Study. Nutr J, 12, 75. doi: 10.1186/1475-2891-12-75
Vazquez, C., Alonso, R., Garriga, M., de Cos, A., de la Cruz, J. J., Fuentes-Jimenez, F., . . . Mata, P. (2012). Validation of a food frequency questionnaire in Spanish patients with familial hypercholesterolaemia. Nutr Metab Cardiovasc Dis, 22(10), 836-842. doi: 10.1016/j.numecd.2011.01.007
Vereecken, C. A., De Bourdeaudhuij, I., & Maes, L. (2010). The HELENA online food frequency questionnaire: reproducibility and comparison with four 24-h recalls in Belgian-Flemish adolescents. Eur J Clin Nutr, 64(5), 541-548. doi: 10.1038/ejcn.2010.24
Winkvist, A., Persson, V., & Hartini, T. N. (2002). Underreporting of energy intake is less common among pregnant women in Indonesia. Public Health Nutr, 5(4), 523-529. doi: 10.1079/phn2001317
Zalilah, M. S., Jr., Mirnalini, K., Safiah, M. Y., Tahir, A., Siti Haslinda, M. D., Siti Rohana, D., . . . Fatimah, A. S. (2008). Daily Energy Intake from Meals and Afternoon Snacks: Findings from the Malaysian Adults Nutrition Survey (MANS). Malays J Nutr, 14(1), 41-55.
Zhang, H., Qiu, X., Zhong, C., Zhang, K., Xiao, M., Yi, N., . . . Yang, X. (2015). Reproducibility and relative validity of a semi-quantitative food frequency questionnaire for Chinese pregnant women. Nutr J, 14(1), 56. doi: 10.1186/s12937-015-0044-x
LIU, Y.-H., & 劉育豪. (2013). 建立國人 n-6 及 n-3 脂肪酸膳食評估運算方法. 建立國人 n-6 及 n-3 脂肪酸膳食評估運算方法(2013-07-01).
許勝懋, 洪百薰, & 洪永泰. (2011). 臺灣健康危害行為監測系統之信度分析✽. 調查研究-方法與應用(26), 123-159.
廖欣瑩, 陳葵蓉, & 盧立卿. (2014). 以食物頻率問卷評估台灣婦女懷孕前至產後營養素密度及飲食攝取變化. 臺灣營養學會雜誌, 39(2), 28-37.
孫言鳳, & 黄萬琪. (2011). 大學生食物频率問卷编制及其信度, 效度評價. 中國公共衛生, 27(12), 1611-1612.