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Correlates of sugar-sweetened beverage intake among low-income women during the first 1000 days

Published online by Cambridge University Press:  22 October 2020

Erika R Cheng
Affiliation:
Division of Children’s Health Services Research, Department of Pediatrics, Indiana University School of Medicine, Indianapolis, IN, USA
Elizabeth Batista
Affiliation:
Division of Pediatric Gastroenterology, Hepatology, and Nutrition, Department of Pediatrics, Columbia University Irving Medical Center/NewYork-Presbyterian Morgan Stanley Children’s Hospital, New York, NY, USA Rutgers, New Jersey Medical School, Newark, NJ, USA
Ling Chen
Affiliation:
Ob-Gyn, Columbia University Irving Medical Center, New York, NY, USA
Kelsey Nichols
Affiliation:
Division of Pediatric Gastroenterology, Hepatology, and Nutrition, Department of Pediatrics, Columbia University Irving Medical Center/NewYork-Presbyterian Morgan Stanley Children’s Hospital, New York, NY, USA
Sohyun Park
Affiliation:
Division of Nutrition, Physical Activity and Obesity, National Center for Chronic Disease Prevention and Health Promotion, Centers for Disease Control and Prevention (CDC), Atlanta, GA, USA
Nalini Charles*
Affiliation:
New York Presbyterian Hospital Special Supplemental Nutrition Program for Women, Infants, and Children, New York, NY10033, USA
Jennifer Woo Baidal
Affiliation:
Division of Pediatric Gastroenterology, Hepatology, and Nutrition, Department of Pediatrics, Columbia University Irving Medical Center/NewYork-Presbyterian Morgan Stanley Children’s Hospital, New York, NY, USA
*
*Corresponding author: Email [email protected]
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Abstract

Objective:

To describe prenatal and postpartum consumption of water, cows’ milk, 100 % juice and sugar-sweetened beverages (SSB) among women enrolled in the Special Supplemental Nutrition Program for Women, Infants and Children (WIC) programme in New York City (NYC) and to identify correlates of SSB intake in this population.

Design:

Cross-sectional data were collected from structured questionnaires that included validated beverage frequency questionnaires with the assistance of container samples. The association of maternal and household factors and non-SSB consumption with habitual daily energetic (kJ (kcal)) intake from SSB was assessed by using multivariable median regression.

Setting:

WIC programme in NYC, NY. Data were collected in 2017.

Participants:

388 pregnant or postpartum women (infant aged <2 years) from the NYC First 1000 Days Study.

Results:

Median age was 28 years (interquartile range (IQR) 24–34); 94·1 % were Hispanic/Latina, and 31·4 % were pregnant. Overall, 87·7 % of pregnant and 89·1% of postpartum women consumed SSB ≥ once weekly, contributing to a median daily energetic intake of 410 kJ (98 kcal) (IQR (113–904 kJ) 27–216) and 464 kJ (111 kcal) (IQR (163–1013 kJ) 39–242), respectively. In adjusted analyses, only consumption of 100 % juice was associated with greater median energetic intake from SSB (adjusted β for each additional ounce = 13; 95% CI 8, 31 (3·2; 95 % CI 2·0, 7·3).

Conclusions:

Among pregnant and postpartum women in WIC-enrolled families, interventions to reduce SSB consumption should include reduction of 100 % juice consumption as a co-target of the intervention.

Type
Short Communication
Copyright
© The Author(s), 2020. Published by Cambridge University Press on behalf of The Nutrition Society

The first 1000 d (e.g., the period from gestation through age 2 years) is a critical period for the development of childhood obesity(Reference Woo Baidal, Locks and Cheng1). The importance of nutrition during the first 1000 d is increasingly recognised, and the impending Dietary Guidelines for Americans 2020–2025 will include comprehensive dietary guidelines on this life course period for the first time ever(2). Sugar-sweetened beverages (SSB), including soda, sports/energy drinks, lemonade and sweetened fruit drinks, are known contributors to the obesity epidemic(Reference Woodward-Lopez, Kao and Ritchie3) and prime targets for prevention strategies. In particular, targeting women’s SSB consumption during pregnancy and postpartum could have downstream benefits for preventing obesity in children. This idea is supported by prospective research showing higher adiposity among school-aged children whose mothers consumed more SSB during pregnancy(Reference Gillman, Rifas-Shiman and Fernandez-Barres4) and by cross-sectional data noting positive associations of parent SSB consumption with SSB consumption in their children(Reference MazarelloPaes, Hesketh and O’Malley5). A better understanding of factors associated with women’s SSB consumption during this time would further inform obesity prevention strategies, especially given that pregnant women are motivated for behaviour change to promote offspring health(Reference Morel, Nichols and Nong6).

The Special Supplemental Nutrition Program for Women, Infants, and Children (WIC) provides nutrition counselling, education and a food package to qualifying women and children under age 5 years. Given its focus on early life, WIC is a platform for early childhood obesity prevention(Reference Koleilat, Whaley and Esguerra7), which is particularly important for racial/ethnic minority and low-income populations because they experience higher rates of childhood obesity(Reference Andreyeva, Luedicke and Henderson8Reference Bocca, Corpeleijn and Stolk12). Reports of dietary patterns of WIC participants exist, but they focus almost exclusively on infants and children, while evidence on diet quality of pregnant and parenting women in WIC, particularly with regard to beverage intake, is more limited. We recently found a high prevalence of SSB consumption among parents in a multi-site WIC programme located in northern Manhattan, New York City (NYC), NY(Reference Woo Baidal, Morel and Nichols13). In order to inform future interventions to promote healthy beverage consumption in this population, the current study describes prenatal and postpartum consumption of water, cows’ milk, 100 % juice and SSB and analyses demographic and beverage correlates of SSB intake in this high-risk population.

Methods

Cross-sectional data were from 388 pregnant and postpartum, WIC-enrolled women (infant aged <2 years) participating in the NYC First 1000 Days Study, an observational research study that took place at the NewYork-Presbyterian Hospital WIC locations(Reference Woo Baidal, Morel and Nichols13). Study staff administered questionnaires to collect data on beverage consumption and maternal and household characteristics, including age, race/ethnicity, pre-pregnancy weight, education and income. We obtained written informed consent; all materials were available in English and Spanish. The authors’ institutional review board approved the study.

Beverage consumption was measured by the BEVQ-15(Reference Hedrick, Savla and Comber14), a validated questionnaire that assesses beverage consumption across fifteen individual categories. We used container samples as visual aids to facilitate participants’ responses to serving size information. We estimated median daily intake of SSB in kilocalories (kcal) and ounces using validated methods(Reference Hedrick, Savla and Comber14); daily intake was assessed by converting frequency of consumption over the past month to average daily consumption and then multiplying by the reported volume per serving. We defined SSB as liquids containing added energetic sweeteners (e.g., fructose, glucose or high-fructose maize syrup) and habitual beverage consumers as those who reported consuming beverages at least once weekly.

Analyses were conducted using SAS 9.4. We summarised the sample characteristics overall and by women’s pregnancy status (i.e., pregnant, postpartum). We then used multivariable quantile regression to assess associations of maternal and household factors and other beverage consumption on median daily SSB consumption. Maternal and household factors were selected a priori based on their association with SSB consumption in other populations(Reference Han and Powell15). The model included self-reported maternal and household factors, as well as median daily intake of water, milk and 100 % juice. Throughout, we present 95 % CI, corresponding to a two-sided α level of 0·05.

Results

The sample consisted of 388 low-income (<185 % federal poverty level) predominately Hispanic/Latina women enrolled in WIC; 31 % (n 122) were pregnant (Table 1) and 89 % reported habitual consumption of SSB.

Table 1 Characteristics of study sample overall and by pregnancy status, among women in WIC households

WIC, Special Supplemental Nutrition Program for Women, Infants, and Children; SSB, sugar-sweetened beverages.

* Includes regular soda, sports drink, energy drink and sweetened coffee/tea drink.

Nearly all women reported drinking water, milk and 100 % fruit juice (Table 2). Pregnant and postpartum women consumed a median of 8 (interquartile range (IQR) 2–18) and 10 (IQR 4–20) fluid ounces of SSB, respectively, contributing to a median daily energetic intake of 410 kJ (IQR 113–904) 98 kcal (IQR 27–216) and 464 kJ (IQR 163–1013) (111 kcal (IQR 39–242)). Milk was the most frequently consumed energy-containing beverage among pregnant women, accounting for 628 median daily beverage kJ (IQR 326–1151) (150 kcal (IQR 78–275)), followed by 100 % juice, which was consumed by 85 % of pregnant women and accounted for median 590 daily kJ (IQR 84–598) (141 daily kcal (IQR 20–143)). SSB were the most frequently consumed energy-containing beverage (89 %) among postpartum women, and accounted for the most kJ intake (median 464 kJ; IQR 163–1013) kcal intake (median 111 kcal; IQR 39–242). Eighty-four percent of postpartum women consumed 100 % juice, a daily average of 6 fluid ounces and 423 kJ (101 kcal).

Table 2 Maternal patterns of beverage consumption in the First 1000 d according to pregnancy status among women in WIC households*

WIC, Special Supplemental Nutrition Program for Women, Infants, and Children; IQR, interquartile range; SSB, sugar-sweetened beverages.

* Consumption measured in fluid ounces.

Included regular soda, sports drink, energy drink and sweetened coffee/tea drink.

During pregnancy, any 100 % juice and milk consumption were positively correlated (Spearman r 0·2; P 0·03), while 100 % juice and SSB consumption were positively correlated during the postpartum period (Spearman r 0·2; P 0·005). In both pregnancy and postpartum periods, greater 100 % juice consumption was correlated with lower water consumption (P 0·07 and 0·04, respectively; data not shown).

In our multivariable analysis (Table 3), only consumption of 100 % juice was associated with greater median SSB energetic intake (adjusted β for each additional 100 % juice ounce (approximately 74 kJ (17·7 kcal)) = 13 SSB kJ; 95% CI 8, 31 (3·2 SSB kcal; 95 % CI 2·0, 7·3).

Table 3 Associations of maternal and household characteristics with maternal daily sugar-sweetened (SSB) consumption. Parameter estimates from quantile regression models. Data from 388 women in the first 1000 d*

* We estimated medians and used quantile regression due to the non-normal distribution of SSB consumption; β estimates represent the median difference in kJ (kcal) consumption compared with the reference group.

Adjusted for maternal age, pre-pregnancy BMI and pregnancy status; household income and highest educational level; and maternal beverage consumption.

Effect estimates and CI for eight participants with unknown pre-pregnancy BMI are not estimable.

Discussion

Nearly all of the pregnant and postpartum women in our sample – almost 90 % – drank SSB during the past month, contributing approximately 418 kJ (100 kcal) to overall daily energy intake. The median consumption of SSB kJ (kcal) in our sample was lower than mean estimates found in previous research among women aged 20–39 years from nationally representative National Health and Nutrition Examination Survey data(Reference Cioffi, Figueroa and Welsh16). This discrepancy may be due to population differences, as our sample of low-income WIC participants was not population based or nationally representative like the National Health and Nutrition Examination Survey sample. Measurement differences may also play a role, as the National Health and Nutrition Examination Survey study reports mean daily consumption of 622 and 646 kJ (158·3 and 154·4 kcal) for pregnant and non-pregnant women, respectively(Reference Cioffi, Figueroa and Welsh16), while we examined habitual consumption as median (not mean) daily kcal and ounces.

The types of beverages consumed by women varied across pregnancy status. Among pregnant women, the main sources of SSB kJ (kcal) were sweetened fruit drinks and soda, v. sweetened coffee/tea drinks and soda among women postpartum. Pregnant women did not consume sweetened coffee/tea drinks, aligned with recommendations to limit caffeine intake during pregnancy(17,18) .

In our sample, 100 % juice was the second largest contributor to kJ (kcal) intake from beverages among pregnant women, after cows’ milk, and a major source of kJ (kcal) intake for women postpartum. Juice was also the only correlate of SSB consumption in adjusted analyses. Several mechanisms may explain this association. First, women may not know the difference between 100 % fruit juice and fruit drinks that contain added sugars. In prior qualitative research in the same population(Reference Morel, Nichols and Nong6), we found that women were unaware of the sugar content in 100 % juice and were confused about the difference between 100 % juice, which does not contain added sugars, and sweetened fruit drinks, which do. Cravings and taste preferences could also play a role. Sonneville proposed that drinking 100 % juice may impact the early development of taste preferences and lead to a partiality for other sweetened beverages. Their study(Reference Sonneville, Long and Rifas-Shiman19) found that higher 100 % juice intake at 1 year of age was associated with higher 100 % juice intake, SSB intake and BMI z-score during early and mid-childhood.

WIC provides a monthly allotment of 100 % fruit juice that equates to an average of 3–5 ounces/d to pregnant and postpartum women, presenting an opportunity for intervention(20). A study in South Carolina revealed that more than 80 % of WIC participants would prefer fresh fruit over juice(Reference McElligott, Roberts and Varadi21), suggesting that reducing juice consumption in this population is a realistic goal. In 2017, an expert review of WIC food packages published by the National Academy of Sciences recommended specific changes to packages formulated for women and children, including WIC, in order to increase the value of the cash value benefit for fruits and vegetables, reduce the allocation of 100 % fruit juice and cows’ milk and provide the option for WIC participants to replace 100 % fruit juice with a greater cash value benefit amount(22). Our results suggest that implementation of these recommendations may possibly have secondary benefits of reducing SSB consumption among pregnant and postpartum women.

We acknowledge several limitations. Our sample is taken from a large urban setting and findings might not be generalisable to WIC families in other areas. Our sample was also predominately Hispanic/Latina. The sample size was not sufficient to conduct subgroup analyses of race/ethnicity, income or other factors associated with beverage consumption. Moreover, data are cross-sectional so we cannot establish temporality.

Evidence on dietary patterns of pregnant and parenting women in WIC is limited, although a recent study of pregnant WIC enrollees found low consumption of dark green vegetables, beans/plant proteins and whole grains(Reference Hill, Nunnery and Ammerman23). Our results add to the literature by characterising energetic and non-energetic beverage consumption in this population. Our data reveal that SSB consumption is prevalent among low-income predominantly Hispanic/Latina women enrolled in WIC who are either pregnant or within 2 years of giving birth, along with 100 % juice, accounts for a large portion of beverage kcal they consume. Targeting healthy beverage consumption for women in WIC-enrolled families may be important to fight the child obesity epidemic. Interventions targeting SSB reduction in this population should also target reduction of 100 % juice consumption. Further understanding why 100 % juice consumption is associated with SSB consumption could help with the design of such interventions.

Acknowledgements

Acknowledgements: The authors have no acknowledgements to disclose. Financial support: The current study was supported by the Robert Wood Johnson Foundation New Connections Grants through Healthy Eating Research Program (RWJF Grant #74198). Research reported in this publication was supported by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health under Award Number K23DK115682 and Award Number K01DK114383. The study sponsor had no role in the study design, collection, analysis and interpretation of data; writing of the manuscript or decision to submit the report for publication. Conflict of interest: The authors declared no conflict of interest. Authorship: E.R.C. helped conceptualise the study, interpreted data, drafted the manuscript and critically reviewed the manuscript for important intellectual content. E.B. collected data and helped conceptualise the study. L.C. carried out analyses and interpretation of results. K.N. coordinated and supervised data collection. S.P. helped with interpretation of data. N.C. helped with conceptualising the study. J.W.B. conceptualised and designed the study, supervised data collection, interpreted results and drafted the manuscript. All authors critically reviewed the manuscript for important intellectual content and approved the final manuscript as submitted and agree to be accountable for all aspects of the work. Ethics of human subject participation: The current study was conducted according to the guidelines laid down in the Declaration of Helsinki and all procedures involving research study participants were approved by the Columbia University Irving Medical Center Institutional Review Board. Written informed consent was obtained from all subjects/patients.

References

Woo Baidal, JA, Locks, LM, Cheng, ER et al. (2016) Risk factors for childhood obesity in the first 1000 days: a systematic review. Am J Prev Med 50, 761779.CrossRefGoogle ScholarPubMed
Dietary Guidelines Advisory Committee (2020) Scientific Report of the 2020 Dietary Guidelines Advisory Committee: Advisory Report to the Secretary of Agriculture and the Secretary of Health and Human Services. Washington, DC: U.S. Department of Agriculture, Agricultural Research Service.Google Scholar
Woodward-Lopez, G, Kao, J & Ritchie, L (2011) To what extent have sweetened beverages contributed to the obesity epidemic? Public Health Nutr 14, 499509.CrossRefGoogle ScholarPubMed
Gillman, MW, Rifas-Shiman, SL, Fernandez-Barres, S et al. (2017) Beverage intake during pregnancy and childhood adiposity. Pediatrics 140, 112.CrossRefGoogle ScholarPubMed
MazarelloPaes, V, Hesketh, K, O’Malley, C et al. (2015) Determinants of sugar-sweetened beverage consumption in young children: a systematic review. Obes Rev 16, 903913.CrossRefGoogle Scholar
Morel, K, Nichols, K, Nong, Y et al. (2019) Parental and provider perceptions of sugar-sweetened beverage interventions in the first 1000 days: a qualitative study. Acad Pediatr 19(7), 748755 . CrossRefGoogle ScholarPubMed
Koleilat, M, Whaley, SE, Esguerra, KB et al. (2017) The role of WIC in obesity prevention. Curr Pediatr Rep 5, 132141.CrossRefGoogle Scholar
Andreyeva, T, Luedicke, J, Henderson, KE et al. (2013) Grocery store beverage choices by participants in federal food assistance and nutrition programs. Am J Prev Med 43, 411418.CrossRefGoogle Scholar
Sekhobo, JP, Egglefield, K, Edmunds, LS et al. (2012) Evidence of the adoption and implementation of a statewide childhood obesity prevention initiative in the New York State WIC Program: the NY Fit WIC process evaluation. Health Educ Res 27, 281291.CrossRefGoogle ScholarPubMed
Black, MM, Quigg, AM, Cook, J et al. (2012) WIC participation and attenuation of stress-related child health risks of household food insecurity and caregiver depressive symptoms. Arch Pediatr Adolesc Med 166, 444451.Google ScholarPubMed
Barkin, SL, Gesell, SB, Po’e, EK et al. (2012) Culturally tailored, family-Centered, behavioral obesity intervention for Latino-American preschool-aged children. Pediatrics 130(3), 445446.CrossRefGoogle ScholarPubMed
Bocca, G, Corpeleijn, E, Stolk, RP et al. (2012) Results of a multidisciplinary treatment program in 3-year-old to 5-year-old overweight or obese children: a randomized controlled clinical trial. Arch Pediatr Adolesc Med 166, 11091115.CrossRefGoogle ScholarPubMed
Woo Baidal, J, Morel, K, Nichols, K et al. (2018) Sugar-sweetened beverage attitudes and consumption during the first 1000 days of life. Am J Pub Health 108, 16591665.CrossRefGoogle ScholarPubMed
Hedrick, VE, Savla, J, Comber, DL et al. (2012) Development of a brief questionnaire to assess habitual beverage intake (BEVQ-15): sugar-sweetened beverages and total beverage energy intake. J Acad Nutr Diet 112, 840849.CrossRefGoogle ScholarPubMed
Han, E & Powell, LM (2013) Consumption patterns of sugar-sweetened beverages in the United States. J Acad Nutr Diet 113, 4353.CrossRefGoogle ScholarPubMed
Cioffi, CE, Figueroa, J & Welsh, JA (2018) Added sugar intake among pregnant women in the United States: national health and nutrition examination survey 2003–2012. J Acad Nutr Diet 118, 886–895.e1.CrossRefGoogle ScholarPubMed
ACOG Committee Opinion No. 462 (2018) Moderate caffeine consumption during pregnancy. Obstet Gynecol 116(Pt 1), 467468.Google Scholar
World Health Organization (2018) Restricting caffeine intake during pregnancy. https://www.who.int/elena/titles/caffeine-pregnancy/en/ (accessed May 2019).Google Scholar
Sonneville, KR, Long, MW, Rifas-Shiman, SL et al. (2015) Juice and water intake in infancy and later beverage intake and adiposity: could juice be a gateway drink? Obesity (Silver Spring) 23, 170176.CrossRefGoogle ScholarPubMed
Food and Nutrition Servie (FNS) USDA (2014) Special Supplemental Nutrition Program for Women, Infants and Children (WIC): Revisions in the WIC Food Packages; Final Rule. In. Vol 7 CFR Part 246 Food and Nutrition Service (FNS), USDA.Google Scholar
McElligott, JT, Roberts, JR, Varadi, EA et al. (2012) Variation in fruit juice consumption among infants and toddlers: associations with WIC participation. South Med J 105, 364369.CrossRefGoogle ScholarPubMed
National Academies of Sciences, Engineering, and Medicine Health and Medicine Division, Food and Nutrition Board Committee to Review WIC Food Packages. Review of WIC Food Packages: Improving Balance and Choice: Final Report. Washington, DC: National Academies Press.Google Scholar
Hill, AM, Nunnery, DL, Ammerman, A et al. (2020) Racial/ethnic differences in diet quality and eating habits among WIC pregnant women: implications for policy and practice. Am J Health Promot 34, 169176.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Characteristics of study sample overall and by pregnancy status, among women in WIC households

Figure 1

Table 2 Maternal patterns of beverage consumption in the First 1000 d according to pregnancy status among women in WIC households*

Figure 2

Table 3 Associations of maternal and household characteristics with maternal daily sugar-sweetened (SSB) consumption. Parameter estimates from quantile regression models. Data from 388 women in the first 1000 d*