Household food (in)security and nutritional status of urban poor children aged 6 to 23 months in Kenya Global health

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Study Justification:
– Millions of people in low and low middle income countries suffer from extreme hunger and malnutrition.
– Research on the effect of food insecurity on child nutrition is concentrated in high income settings and has produced mixed results.
– Existing evidence on food security and nutrition in children in low and middle income countries is either cross-sectional and/or is based primarily on rural populations.
– This study aims to examine the effect of household food security status and its interaction with household wealth status on stunting among children aged between 6 and 23 months in resource-poor urban settings in Kenya.
Highlights:
– The prevalence of stunting among children aged 6 to 23 months in the study population was 49%.
– The risk of stunting increased by 12% among children from food insecure households.
– When the joint effect of food security and wealth status was assessed, the risk of stunting increased significantly by 19% and 22% among children from moderately food insecure and severely food insecure households, respectively, in the middle poor wealth status.
– Among the poorest and least poor households, food security was not statistically associated with stunting.
Recommendations:
– Social protection policies are needed to reduce the high rates of child malnutrition in urban informal settlements.
– Interventions should focus on improving household food security and addressing the interaction between food security and wealth status.
Key Role Players:
– Government agencies responsible for social protection and nutrition programs
– Non-governmental organizations (NGOs) working on food security and nutrition
– Community-based organizations in urban informal settlements
– Health professionals and nutritionists
– Researchers and academics
Cost Items for Planning Recommendations:
– Development and implementation of social protection policies
– Food security programs and interventions
– Nutrition education and counseling services
– Monitoring and evaluation of interventions
– Research and data collection on food security and nutrition

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is based on longitudinal data collected from two informal settlements in Nairobi, Kenya. The study has a large sample size of 6858 children from 6552 households. The study measures household food security status and its interaction with household wealth status on stunting among children aged 6 to 23 months. The study uses Cox regression to analyze the data and finds that the risk of stunting increases among children from food insecure households. However, the abstract does not provide information on potential confounding factors or limitations of the study. To improve the evidence, the abstract could include a discussion of potential confounders and limitations, such as the possibility of residual confounding or selection bias. Additionally, the abstract could provide more details on the methods used to measure household food security and wealth status, as well as the statistical analysis performed. This would help readers better understand the validity and generalizability of the study findings.

Background: Millions of people in low and low middle income countries suffer from extreme hunger and malnutrition. Research on the effect of food insecurity on child nutrition is concentrated in high income settings and has produced mixed results. Moreover, the existing evidence on food security and nutrition in children in low and middle income countries is either cross-sectional and/or is based primarily on rural populations. In this paper, we examine the effect of household food security status and its interaction with household wealth status on stunting among children aged between 6 and 23 months in resource-poor urban setting in Kenya. Methods: We use longitudinal data collected between 2006 and 2012 from two informal settlements in Nairobi, Kenya. Mothers and their new-borns were recruited into the study at birth and followed prospectively. The analytical sample comprised 6858 children from 6552 households. Household food security was measured as a latent variable derived from a set of questions capturing the main domains of access, availability and affordability. A composite measure of wealth was calculated using asset ownership and amenities. Nutritional status was measured using Height-for-Age (HFA) z-scores. Children whose HFA z-scores were below -2 standard deviation were categorized as stunted. We used Cox regression to analyse the data. Results: The prevalence of stunting was 49 %. The risk of stunting increased by 12 % among children from food insecure households. When the joint effect of food security and wealth status was assessed, the risk of stunting increased significantly by 19 and 22 % among children from moderately food insecure and severely food insecure households and ranked in the middle poor wealth status. Among the poorest and least poor households, food security was not statistically associated with stunting. Conclusion: Our results shed light on the joint effect of food security and wealth status on stunting. Study findings underscore the need for social protection policies to reduce the high rates of child malnutrition in the urban informal settlements.

The study was conducted in two informal settlements—Korogocho and Viwandani—located in Nairobi, Kenya. The two study sites are part of the Nairobi Urban Health and Demographic Surveillance System (NUHDSS). The NUHDSS was initiated in 2002 to collect health and demographic statistics from an urban poor population. From 2003, the NUHDSS framework has provided opportunities for nesting studies, including the current study. For detailed description of the NUHDSS see Beguy et al. [25]. Data for this study come from the Maternal and Child Health (MCH) study (2006–2010), which was a sub-study of the broader Urbanization, Poverty and Health Dynamics project, and the INDEPTH Vaccination Project (IVP) study (2011 – 2013). The latter was a continuation of the MCH study. The MCH study was nested within the NUHDSS framework. The project targeted all women of reproductive health residing in the two study communities who gave birth between the duration of study—2006 to 2013. Under the MCH project, mothers and their new-borns were recruited upon delivery. The mothers and their children were then followed prospectively until the child was 5 years or until when they exited from the study either through death or out migration. Data were collected on the mother’s social demographic characteristics, her health seeking behaviour during and after delivery, feeding practices, immunization of the child as well as the anthropometric measures for both the child and mother. Upon recruitment, three follow-up visits, in this study referred to as updates, were made each calendar year. The following variables were extracted from two data sets: 1) Child characteristics that include date of birth, date of recruitment and subsequent visits, gender of the child, immunization, anthropometric measures, and birth weight and; 2) maternal characteristics that included the mother age at birth, parity, education level and health seeking behaviour. By 2013, 7452 children had been recruited to the study. During analysis, we excluded children with missing information on stunting between the ages 6 and 23 as well as those who were lost to follow-up before they attained the age of 6 months. The final sample consisted of 6858 children contributing to 101,686 person months. The dependent variable is stunting, which is Height for Age (HFA). Stunting is used here because it is a measure of long term food deprivation (chronic malnutrition) and illness making it a good indicator of child nutrition [26]. We calculated z-scores for the HFA using the ‘WHO Child Growth Charts and WHO Reference 2007 Charts’ for children aged up to 2 years. This was suitable because analysis was restricted to children aged between 6 and 24 months. The entry age was set at 6 months, which marks the end of exclusive breastfeeding and introduction to complimentary feeding. The Z-scores show the number of standard deviations of a child on a particular anthropometric measure in relation to a mean or median value. In this regard, those with z-scores of 2 standard deviations of height for age below the WHO reference median were categorized as stunted. Those with a score of above 2 standard deviations were categorized as normal (not stunted) [27]. Child anthropometric measures were obtained during each visit and therefore, stunting was calculated at the each points of visit. The primary independent variable was household food security status. Food security exists “when all people at all times have access to sufficient, safe, nutritious food to maintain a healthy and active life” [28]. Food security status was computed from a set of questions that captured the domains of food access as described in Radimer framework [29] . The questions assessed the frequency in the 30 days preceding the survey with which households: did not have adequate food; were worried about food availability; lacked enough money to purchase food; and children and adults had to forgo food for a whole day because there was not enough food. The response were coded as either ‘0 = never true’, ‘1 = sometimes true’ and ‘2 = often true.’ The respondent to the food security component was the household head who in his or her absence, the spouse or someone who had enough information and was credible enough was interviewed. Responses were recoded into binary responses: ‘often true’ were coded as ‘1’ and the rest ‘0’ and as described by [30]. We tested for agreement between the items and found a Cronbach’s Alpha of 0.72, indicating a good item reliability [31]. A composite score was generated by summing the items and categorized as 1 = food secure (score of 0); 2 = moderate food insecure (score of 1 or 2); and 3 = severely food insecure (score of more than 2). The second independent variable was the household asset wealth index, a latent variable computed from a composite measure of household assets and amenities. Principal Component Analysis (PCA) was used to reduce the multidimensional nature of the data to a single score that was categorized into three groups: Poorest, middle poor and least poor [32]. Data were managed and analysed in STATA 13.1. Both descriptive and inferential statistics were used for analysis. Frequencies and percentages were computed to describe the key socio-demographic characteristics of the study sample. In addition, descriptive statistics were used to estimate the prevalence of stunting in the sample. As multiple measures on stunting exist for each child, the exposure, which is the age of the child, was calculated for each visit. We used Cox regression models to estimate the survival time from age six to first stunting and to assess whether the survival time significantly varied by household food security status. The Cox regression models allowed us to control for other known determinants of stunting. In our study we restricted analysis to time to the first stunting. We tested the assumption of proportional hazard in the Cox regression, which is that the hazards are constant between the food security status and wealth status categories being compared. To test this assumption, we used Kaplan-Meier Curves and the log rank test. We also tested the assumption by interacting survival time with time varying covariate. Different Cox regression models were fitted: 1) unadjusted models with the key independent variables that included food security and household; 2) adjusted Cox regression with two main covariates—food security and wealth index; 3) a fully adjusted model, including all the covariates; and 4) a fully adjusted model with all covariates and the interaction between wealth index (poorest, middle poor and least poor) and food security status. The latter model was used to determine whether the effect of food security on stunting was the same across the wealth quintiles. For the Cox regression model, age in months was the main dependent variable with a dummy variable indicating whether the child is stunted or not. Each child was observed from birth between 2006 and 2013 until either the child was stunted, was censored due to loss of follow-up, out-migration or end of the follow-up for the child who aged above 23 months. Ethical clearance for both the MCH and IVP studies were granted by the Kenya Medical Research Institute (KEMRI). In addition, ethical clearance to use the data for secondary analyses was obtained from the University of the Witwatersrand, Human Research Ethics Committee and AMREF Kenya. Informed consent was obtained from all individual participants included in the study. All procedures were conducted in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.

Based on the information provided, here are some potential innovations that could improve access to maternal health:

1. Mobile Health (mHealth) Applications: Develop mobile applications that provide information and resources related to maternal health, including nutrition, prenatal care, and breastfeeding. These apps can be easily accessible to women in resource-poor areas, providing them with valuable information and support.

2. Community Health Workers: Train and deploy community health workers who can provide education and support to pregnant women and new mothers in informal settlements. These workers can conduct home visits, provide health education, and connect women to appropriate healthcare services.

3. Telemedicine: Implement telemedicine programs that allow pregnant women and new mothers to consult with healthcare professionals remotely. This can help overcome barriers to accessing healthcare services in remote or underserved areas.

4. Maternal Health Vouchers: Introduce voucher programs that provide financial assistance for maternal healthcare services, including prenatal care, delivery, and postnatal care. These vouchers can be distributed to women in informal settlements, ensuring they have access to essential healthcare services.

5. Maternal Health Clinics: Establish dedicated maternal health clinics in informal settlements, staffed by skilled healthcare professionals. These clinics can provide comprehensive prenatal care, delivery services, and postnatal care, ensuring that women receive the necessary care throughout their pregnancy and after childbirth.

6. Public-Private Partnerships: Foster collaborations between public and private sectors to improve access to maternal health services. This can involve leveraging private sector resources and expertise to enhance the availability and quality of healthcare services in informal settlements.

7. Health Education Campaigns: Conduct targeted health education campaigns to raise awareness about the importance of maternal health and nutrition. These campaigns can include community workshops, radio programs, and informational materials to educate women and their families about the benefits of seeking timely and appropriate healthcare during pregnancy and after childbirth.

8. Maternal Health Insurance: Develop affordable and accessible health insurance options specifically tailored to the needs of pregnant women and new mothers. This can help alleviate financial barriers to accessing maternal healthcare services.

9. Maternal Health Support Groups: Establish support groups for pregnant women and new mothers in informal settlements. These groups can provide emotional support, share experiences, and offer practical advice on maternal health and childcare.

10. Maternal Health Monitoring Systems: Implement systems for monitoring and tracking maternal health indicators in informal settlements. This can help identify areas of improvement and guide targeted interventions to address the specific needs of pregnant women and new mothers in these communities.
AI Innovations Description
Based on the information provided, the recommendation to improve access to maternal health and address the high rates of child malnutrition in urban informal settlements in Kenya is to implement social protection policies. These policies should focus on reducing household food insecurity and improving the nutritional status of children aged 6 to 23 months.

Specifically, the following steps can be taken:

1. Enhance access to sufficient, safe, and nutritious food: Implement programs that ensure households have regular access to an adequate quantity and quality of food. This can be achieved through initiatives such as food subsidies, cash transfers, or food assistance programs targeted at vulnerable households.

2. Improve affordability of food: Address the financial constraints that prevent households from purchasing nutritious food. This can be done by providing financial support or vouchers specifically for the purchase of nutritious food items.

3. Promote nutrition education and behavior change: Develop and implement educational programs that focus on improving maternal and child nutrition practices. These programs should provide information on the importance of a balanced diet, appropriate feeding practices, and the utilization of locally available nutritious foods.

4. Strengthen healthcare services: Ensure that healthcare facilities in urban informal settlements are equipped to provide comprehensive maternal and child health services. This includes access to antenatal care, skilled birth attendance, postnatal care, and immunization services.

5. Collaborate with community-based organizations: Engage local community-based organizations to raise awareness about maternal and child health issues and promote behavior change within the community. These organizations can play a crucial role in delivering health education messages, providing support to mothers, and facilitating access to healthcare services.

By implementing these recommendations, it is expected that access to maternal health will be improved, leading to a reduction in child malnutrition rates in urban informal settlements in Kenya.
AI Innovations Methodology
Based on the information provided, here are some potential recommendations to improve access to maternal health:

1. Increase availability and affordability of nutritious food: Implement programs that focus on improving access to nutritious food for pregnant women and new mothers, particularly in resource-poor urban settings. This could include initiatives such as subsidized food programs, community gardens, and nutrition education.

2. Strengthen social protection policies: Develop and implement social protection policies that specifically target vulnerable populations, such as the urban poor. These policies could include cash transfer programs, maternity leave benefits, and healthcare subsidies to ensure that pregnant women and new mothers have access to necessary healthcare services.

3. Improve healthcare infrastructure and services: Invest in improving healthcare infrastructure and services in resource-poor urban settings. This could involve building or upgrading healthcare facilities, increasing the number of skilled healthcare providers, and ensuring the availability of essential maternal health services, such as antenatal care, skilled birth attendance, and postnatal care.

4. Enhance community engagement and awareness: Promote community engagement and awareness on maternal health issues. This could involve community-based education programs, peer support groups, and the involvement of community leaders and influencers to spread awareness about the importance of maternal health and the available services.

To simulate the impact of these recommendations on improving access to maternal health, a methodology could be developed as follows:

1. Define the indicators: Identify key indicators that measure access to maternal health, such as the percentage of pregnant women receiving antenatal care, the percentage of births attended by skilled healthcare providers, and the percentage of postnatal check-ups.

2. Collect baseline data: Gather baseline data on the selected indicators in the target population. This could involve conducting surveys, interviews, or analyzing existing data sources.

3. Implement interventions: Implement the recommended interventions in the target population. This could be done through pilot projects or phased implementation.

4. Monitor and evaluate: Continuously monitor and evaluate the impact of the interventions on the selected indicators. This could involve collecting data at regular intervals, conducting surveys or interviews, and analyzing the data to assess changes in access to maternal health.

5. Analyze the data: Use statistical analysis techniques to analyze the collected data and determine the impact of the interventions on improving access to maternal health. This could involve comparing the baseline data with the post-intervention data and conducting statistical tests to assess the significance of the changes observed.

6. Adjust and refine: Based on the findings of the analysis, make adjustments and refinements to the interventions as necessary. This could involve scaling up successful interventions, modifying strategies that are not yielding the desired results, and addressing any identified barriers or challenges.

By following this methodology, it would be possible to simulate the impact of the recommended interventions on improving access to maternal health and make informed decisions on how to effectively address the issue.

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