Hostname: page-component-848d4c4894-2pzkn Total loading time: 0 Render date: 2024-06-01T06:48:12.769Z Has data issue: false hasContentIssue false
  • English
  • Français

Pragmatic implementation studies to improve nutrition practices and policies: childcare during the first 1000 days as a contributor to long-term health

Published online by Cambridge University Press:  12 April 2018

Jacqueline L Walker  and
Robyn Littlewood
Jacqueline L Walker*
Affiliation:
School of Human Movement and Nutrition SciencesThe University of QueenslandSt Lucia, QLD 4072, Australia
Robyn Littlewood
Affiliation:
School of Human Movement and Nutrition SciencesThe University of QueenslandSt Lucia, QLD 4072, Australia Department of Dietetics and Food ServicesLady Cilento Children’s HospitalChildren’s Health Queensland Hospital and Health ServiceBrisbane, QLD, Australia Centre for Children’s Health ResearchChildren’s Health Queensland Hospital and Health ServiceBrisbane, QLD, Australia Statewide Queensland Child and Youth Clinical NetworkOffice of Strategy ManagementQueensland HealthBrisbane, QLD, Australia
*
Email: j.walker3@uq.edu.au
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content. As you have access to this content, full HTML content is provided on this page. A PDF of this content is also available in through the ‘Save PDF’ action button.
Type
Invited Commentary
Information
Public Health Nutrition , Volume 21 , Issue 7 , May 2018 , pp. 1209 - 1211
Copyright
Copyright © The Authors 2018 

The ‘first 1000 days’ (1000 d) refers to the period from conception to 2 years of age. Since the term was coined over 6 years ago, this movement has gained momentum resulting in organisations across the globe developing initiatives and driving a research agenda specific to this critical time period( 1 Reference Perreault, Mikail and Atkinson 3 ). Increasing evidence suggests that the health status of children during the first 1000 d of life directly impacts the trajectory of children’s lives and influences long-term health outcomes, with nutrition playing a major role( 4 ). Optimal nutrition to support full growth potential and development during the first 1000 d has been linked not only to reduced risk of chronic diseases later in life, for example obesity, diabetes and heart disease( 4 Reference Garmendia, Corvalan and Uauy 6 ), but also to improved developmental outcomes regarding educational achievement, earning potential and human capital( Reference Martorell 7 , Reference Horta, Victoria and de Mola 8 ). It is also well documented that both undernutrition and overweight/obesity are major health conditions worldwide( 9 , 10 ). Many developing countries are experiencing what the WHO describes as the ‘double burden’ of disease: ‘It is not uncommon to find under-nutrition and obesity co-existing within the same country, the same community and the same household’( 10 ). The ability, therefore, of targeted nutrition strategies to positively influence and change not only individual-level, but also systems-level practices and policies in early childhood is significant.

Across the world, more time, effort and resources need to be invested into nutrition solutions targeting the first 1000 d, with emphasis on pragmatic implementation studies focused on how to best translate evidence-based research into changes in practice and policy. We need to improve our understanding of what works best for who, when and why; how this best works; and how to support both children and their families to improve their nutrition practices. When focusing specifically on childhood overweight and obesity as an example, there is clear evidence favouring lifestyle interventions and supportive environments from both a prevention and treatment perspective( Reference Al-Khudairy, Loveman and Colquitt 11 13 ). However, there is less understanding of what influences and contributes to successful implementation of programmes and initiatives, and how these change clinical practice and policy. These challenges are reflected in the 2016 WHO Report of the Commission on Ending Childhood Obesity, which acknowledged that ‘progress in tackling childhood obesity has been slow and inconsistent’( 14 ). The report details a comprehensive approach to the prevention and management of childhood overweight and obesity, of which key elements include systematic changes in policy, communication and education, and capacity building. Given that childhood overweight and obesity is a complex problem that requires linked, scalable solutions at many different levels( Reference Brownson, Colditz and Proctor 15 ), there should not be a not a ‘one size fits all’ approach and further evidence considering context-specific factors combined with an understanding of the variables most salient to implementation is required.

The paper by Hollar et al. published in this issue of Public Health Nutrition is an encouraging example of how a coordinated, well-planned pragmatic study can lead to positive outcomes from a policy and practice perspective in early childcare centres in Broward County, Florida, USA( Reference Hollar, Cook and Natale 16 ). The authors implemented a multicomponent intervention and train-the-trainer programme to provide both training and technical assistance, and thereby to improve the nutrition context, policies and practices at the centres. They targeted vulnerable groups in society (children from low-income families who were ethnically diverse) and partnered directly with the staff within the centres, working together on a ‘bottom up’ approach. Focused training, practical resources and expert support all contributed to improved nutrition environments in the centres( Reference Hollar, Cook and Natale 16 ). The initiative demonstrates significant capacity building by identifying enablers for change within the early childcare system and leveraging current resources.

Childcare settings are both opportunistic and ideal to drive the promotion of healthy behaviours, as they can contribute to both prevention of and early intervention on childhood overweight and obesity in the light of the importance of the first 1000 d( 17 , 18 ). In many countries globally, including Australia and the USA, national, evidence-based policies and standards guide practice within these settings in terms of the nutrition environment( 19 , 20 ). These standards vary in their mandatory compliance requirements by national accrediting bodies. Nevertheless, childcare centres provide the best opportunity to reach many children, regardless of ethnicity and socio-economic status or family skill, and thus these environments should be targeted for nutrition interventions. This is particularly important to consider when focusing on emerging economies, where obesity prevention and management is generally not a high-priority health issue. In many countries in South Asia, Africa and the Middle East, rates of childhood malnutrition or undernutrition are still extremely high( 21 ). Poor nutrition in the first 1000 d can not only increase the risk of overweight and obesity, but can also lead to stunted growth in children( 21 ). For example, in West and Central Africa in 2016, 33·5 % of children under 5 years of age were stunted( 21 ). Childcare settings in these countries are also an important avenue that provides an opportunity for education, behaviour change and nutrition interventions to promote optimal growth and development. One example of this is a study by Amugsi et al. who examined 1187 mother–young child dyads in urban and rural Ghana( Reference Amugsi, Mittelmark and Lartey 22 ). The authors showed that improved childcare practices (including the diversity of foods eaten and feeding practices such as the frequency of solids/semi-solids and breast-feeding status) had a positive impact on infants’ and young children’s growth in terms of height-for-age Z-score, independent of other maternal and household factors( Reference Amugsi, Mittelmark and Lartey 22 ).

Hollar et al. have shown the value of investing in early childcare nutrition education and engaging professionals within this context, as well as the opportunity these settings present in providing care to children within the first 1000 d, consequently supporting childhood overweight and obesity prevention and early intervention agendas( Reference Hollar, Cook and Natale 16 ). In our recent experiences of overweight and obesity management for children of all ages, we identified that children are being referred to specialist services too late – they are already morbidly obese and experiencing detrimental impacts due to their size( Reference Walker, Malley and Littlewood 23 ). While changes can be made, early intervention is more clinically effective and considered more economically viable( Reference Dalla Valle, Laatikainen and Lehikoinen 24 , Reference Wilfley, Staiano and Altman 25 ). Improving the nutrition practices and policies of early childcare settings across the world (including enhanced coordination and mandating aspects of this agenda) could impact the lives of many children and families, initiating early influences in childhood undernutrition, overweight and obesity prevalence. This would be a substantial outcome, considering that while the burden of undernutrition is diminishing, no country has yet been successful in reducing its childhood overweight and obesity prevalence( 13 , 14 ). A change of focus and coordinated effort are required from the research community to advance the body of evidence regarding the successful implementation, dissemination, uptake and sustainability of linked, scalable strategies to enhance nutrition behaviours, practices, policies and contexts from a systems perspective. Nutrition researchers need to partner with end users, whether that be clinicians, educators or families, to co-design and develop these strategies, with the view of supporting the undeniable importance of the first 1000 d and ultimately influencing the prevalence of childhood undernutrition, overweight and obesity.

Acknowledgements

Financial support: This work received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. Conflict of interest: None to declare. Authorship: J.L.W. and R.L. contributed equally to the conceptualisation of the commentary. J.L.W. drafted the initial manuscript and both J.L.W. and R.L. revised the manuscript, approved the final version to be published and agree to be accountable for all aspects of the work. Ethics of human subject participation: Not applicable.

References

1. 1,000 Days (2017) Why 1,000 Days? http://www.thousanddays.org/the-issue/why-1000-days/ (accessed November 2017).Google Scholar
2. English, R, Peer, N, Honikman, S et al. (2017) ‘First 1000 days’ health interventions in low- and middle-income countries: alignment of South African policies with high-quality evidence. Glob Health Action 10, 1340396.Google Scholar
3. Perreault, M, Mikail, S & Atkinson, SA (2016) New Health Canada nutrition recommendations for infants birth to 24 months address the importance of early nutrition. Nutr Today 51, 186190.Google Scholar
4. The Lancet (2013) Executive Summary of The Lancet Maternal and Child Nutrition Series. http://www.thelancet.com/series/maternal-and-child-nutrition (accessed June 2013).Google Scholar
5. Christian, P, Mullany, LC, Hurley, KM et al. (2015) Nutrition and maternal, neonatal, and child health. Semin Perinatol 39, 361372.Google Scholar
6. Garmendia, ML, Corvalan, C & Uauy, R (2014) Assessing the public health impact of developmental origins of health and disease (DOHaD) nutrition interventions. Ann Nutr Metab 64, 226230.Google Scholar
7. Martorell, R (2016) Improved nutrition in the first 1000 days and adult human capital and health. Am J Hum Biol 29, e22952.Google Scholar
8. Horta, BL, Victoria, CG, de Mola, CL et al. (2017) Associations of linear growth and relative weight gain in early life with human capital at 30 years of age. J Pediatr 182, 8591.e3.Google Scholar
9. World Health Organization (2017) Malnutrition fact sheet. http://www.who.int/mediacentre/factsheets/malnutrition/en/ (accessed November 2017).Google Scholar
10. World Health Organization (2017) Obesity and overweight fact sheet. http://www.who.int/mediacentre/factsheets/fs311/en/ (accessed November 2017).Google Scholar
11. Al-Khudairy, L, Loveman, E, Colquitt, JL et al. (2017) Diet, physical activity and behavioural interventions for the treatment of overweight or obese adolescents aged 12 to 17 years. Cochrane Database Syst Rev 6, CD012691.Google Scholar
12. Mead, E, Brown, T, Rees, K et al. (2017) Diet, physical activity and behavioural interventions for the treatment of overweight or obese children from the age of 6 to 11 years. Cochrane Database Syst Rev 6, CD012651.Google Scholar
13. World Health Organization (2016) Consideration of the Evidence on Childhood Obesity for the Commission on Ending Childhood Obesity: Report of the Ad Hoc Working Group on Science and Evidence for Ending Childhood Obesity, p. 219. Geneva: WHO.Google Scholar
14. World Health Organization (2016) Report of the Commission on Ending Childhood Obesity, p. 68. Geneva: WHO.Google Scholar
15. Brownson, RC, Colditz, GA & Proctor, EK (editors) (2012) Dissemination and Implementation Research in Health. Translating Science to Practice. New York: Oxford University Press.CrossRefGoogle Scholar
16. Hollar, TL, Cook, N, Natale, R et al. (2018) Training early childcare providers in evidence-based nutrition strategies can help improve nutrition policies and practices of early childcare centres serving racially and ethnically diverse children from low-income families. Public Health Nutr 21, 12121221.Google Scholar
17. Australian Bureau of Statistics (2008) Childhood Education and Care. Catalogue no. 4402.0. Canberra: Commonwealth of Australia.Google Scholar
18. Institute of Medicine (2011) Early Childhood Obesity Prevention Policies, p. 203. Washington, DC: The National Academies Press.Google Scholar
19. Australian Children’s Education and Care Quality Authority (2017) Guide to the National Quality Standard, p 201. Sydney: ACECQA.Google Scholar
20. American Academy of Pediatrics, American Public Health Association & National Resource Center for Health and Safety in Child Care and Early Education (2011) Caring for Our Children: National Health and Safety Performance Standards; Guidelines for Early Care and Education Programs, 3rd ed. Elk Grove Village, IL and Washington, DC: AAP and APHA.Google Scholar
21. UNICEF (2017) UNICEF Data: Monitoring the Situation of Children and Women. Malnutrition. Current Status and Progress. http://www.data.unicef.org/topic/nutrition/malnutrition/# (accessed December 2017).Google Scholar
22. Amugsi, DA, Mittelmark, MB, Lartey, A et al. (2014) Influence of childcare practices on nutritional status of Ghanaian children: a regression analysis of the Ghana Demographic and Heath Surveys. BMJ Open 4, e005340.Google Scholar
23. Walker, JL, Malley, R, Littlewood, R et al. (2017) The need for early referral: characteristics of children and adolescents who are overweight and obese attending a multidisciplinary weight management service. Children 4, 93.CrossRefGoogle ScholarPubMed
24. Dalla Valle, M, Laatikainen, T, Lehikoinen, M et al. (2017) Paediatric obesity treatment had better outcomes when children were younger, well motivated and did not have acanthosis nigricans. Acta Paediatr 106, 18421850.Google Scholar
25. Wilfley, DE, Staiano, AE, Altman, M et al. (2017) Improving access and systems of care for evidence-based childhood obesity treatment: conference key findings and next steps. Pediatr Obes 25, 1629.Google Scholar