Gender and household structure factors associated with maternal and child undernutrition in rural communities in Ethiopia

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Study Justification:
– Addressing maternal and child undernutrition is a priority for the National Nutrition Program of Ethiopia.
– The study aimed to estimate the level of maternal and child undernutrition in rural communities in Ethiopia and compare findings to regional/national reports.
– The study examined associations between gender, household structure, and nutrition/health variables with undernutrition.
– The study provides insights for policy makers to improve women’s education, reproductive health services, and strengthen nutrition/health programs in rural communities.
Highlights:
– Maternal undernutrition ranged from moderate to high in the study communities.
– Stunting and underweight were very high in children.
– Many mothers reported consuming less nutritious foods during pregnancy for cultural reasons.
– Gender and household structure factors showed significant associations with undernutrition.
– The study highlights the unexpected and concerning levels of undernutrition, despite the presence of a national nutrition program.
Recommendations:
– Improve women’s education to empower them and enhance their decision-making power.
– Strengthen reproductive health services to promote better family planning.
– Enhance nutrition and health programs targeting vulnerable populations in rural communities.
– Address cultural practices that restrict access to nutritious foods during pregnancy.
– Focus on improving the nutritional status of children, particularly in terms of stunting and underweight.
Key Role Players:
– National Nutrition Program of Ethiopia
– Ministry of Health
– Regional Health Bureaus of SNNPR and Oromiya
– Local health posts and health facilities
– Hawassa University (Ethiopia) and the University of Saskatchewan (Canada)
– Trained female data collectors and supervisors
– Principal Investigator
Cost Items for Planning Recommendations:
– Women’s education programs
– Reproductive health services
– Nutrition and health programs
– Training and capacity building for healthcare providers
– Awareness campaigns and community mobilization
– Monitoring and evaluation activities
– Research and data collection expenses
– Equipment and supplies for anthropometric measurements
– Administrative and logistical support

The strength of evidence for this abstract is 8 out of 10.
The evidence in the abstract is strong because it is based on a cross-sectional study with a large sample size (n=630) and includes anthropometric measurements. The study also examines associations with gender, household structure, and nutrition/health variables. However, to improve the evidence, the abstract could provide more information on the methodology used, such as the specific statistical tests used for analysis and the measures taken to ensure data quality and validity.

Addressing maternal and child undernutrition is a priority for the National Nutrition Program of Ethiopia. In a cross-sectional design, we selected mother-child pairs (n = 630) from Halaba, south Ethiopia (n = 413, two communities) and Zeway, Oromiya region (n = 217, one community). These communities were previously included in a project to improve agricultural practices. We aimed to estimate the level of maternal and child undernutrition in the two study sites and compare findings to regional/national reports. We also examined associations with gender, household-structure and nutrition/health related variables. Households were selected using simple random sampling based on list of households obtained from local health posts. Mothers were interviewed via questionnaire. Anthropometric measurements were taken from mothers-child pairs. Maternal undernutrition (% BMI<18.5) ranged from moderate (14% Zeway) to high (22% Halaba). In the children, stunting and underweight were very high (54% and 42% stunting, 36% and 21% underweight, in Halaba and Zeway, respectively). Up to 95% of Halaba and 85% of Zeway mothers reported 'same as usual' or 'less than usual' consumption patterns during their most recent pregnancy compared to periods of non-pregnancy. Mothers reported (61% in Halaba, 18% in Zeway) abstaining from consumption of certain nutritious foods for cultural reasons. Gender and socio-economic-demographic structure of the households, including imbalance of power, control of farm produce, physiological density, household size and dietary habits during pregnancy showed significant associations with maternal and child undernutrition (p<0.05). The levels of child and maternal undernutrition, particularly in children, were unexpected and of concern, given that a national nutrition program has been in place since 2008. The study provides insights for policy makers to improve women's education, reproductive health services for better family planning, and strengthen nutrition/health programs designed to target vulnerable segments of the population in these and other rural communities and districts with similar structure and demographics in Ethiopia.

The baseline data reported here was collected as part of a community-based intervention study in three purposively selected rural Kebeles (referred herein as communities). Kebeles are the smallest administrative units in the government structure and may contain about 500 households each. Two of the three communities (Guba-Sherero and Holagoba-Kukie) were selected from rural Halaba, a Woreda (~District) in Southern Nations, Nationalities and People’s Region (SNNPR). The Woreda/District is located ~85 kilometers northwest of Hawassa, the capital of SNNPR. It is known for growing pepper and pulses, which are considered cash crops for the farmers. The third rural community (Edo-Qontola) was selected from Adami-Tulu-Jido-Kombolcha (ATJK) District near Zeway town, in the Regional State of Oromiya. It is located about 160 kilometers southeast of Addis Ababa, Ethiopia’s capital. Maize, teff, wheat, barley and different oil seeds are the major crops produced in the district. The area is characterized as dry land with both irrigated and rain-fed crop productions. The study communities were part of a larger Ethiopia-Canada project between Hawassa University (Ethiopia) and the University of Saskatchewan (Canada) that sought to improve agricultural productivity and human health in south Ethiopia [20]. In all the three communities, the study population were mothers and their <5yrs of age children. Hence, the inclusion criteria were households in the community with mothers and children <5yrs of age. The sample size was determined using formula for cross-sectional studies in each community [21]: no=[Z1−α22p(1−p)]/d2 and n = noN/[no + (N − 1)] where no, n stand for sample sizes before and after applying “finite population correction” factor, respectively; Z = 1.96, p = probability of expected prevalence, N = total population of interest and d = margin of error. In this study, prevalence of maternal undernutrition was taken as expected prevalence; p = 0.27 with a margin of error (d) of 5% for calculation of the sample size. The calculation yielded 200 households with mother-child pairs per each community. Adding a 5% contingency, a total of 630 mother-child pairs, (i.e. 413 from the two communities in Halaba and 217 from the third community in Zeway) were required. Sample size in Halaba was higher as two of the selected communities from this district were merged for this analysis. The selection of additional community in Halaba was needed for a subsequent intervention-control study. Selection of individual households was carried out by first obtaining a list of all eligible households (those with mothers and under five children) from the local health post and applying simple random sampling. In this study, a household was defined as one that had a mother and at least one under five years of age child and was served by the local health-post regardless of whether polygamy was practiced or not. Whenever households had more than one eligible child, the youngest was considered. The study was approved by the University of Saskatchewan Behavioral Ethics Board (BEH #12–357) as well as the Regional Health Bureaus of SNNPR and Oromiya. All mothers gave oral consent to participate in the study. Due to the low literacy rate in rural Ethiopia, obtaining written consent was not feasible. Oral consent was the most and culturally appropriate way of obtaining informed consent. The consent information was written in simple and easy-to-understand manner which was also translated into the local language. Consent forms were attached on a coded interview questionnaire for each participant. Female data collectors read and explained to each participant the purpose of the research as outlined in the consent form. Once participants gave oral consent to participate in the study, the data collectors wrote the participants’ full name on the consent form to indicate consent. This was then signed by the Principal Investigator (GE), detached from the interview questionnaire and stored in safe locker. The obtaining of oral consent was approved by the ethics committees. The study was carried out in March-June 2013. Information on the characteristics of participating households was collected by a questionnaire adapted from previous national and local surveys in the region [22–24]. We collected information on household size (number of usual members of the household), number of children 8 persons/ha) and explored associations with nutritional status of mothers and children. Ownership of livestock is another important resource for agricultural communities in Ethiopia. We used the number and type of livestock information to calculate Tropical Livestock Units (TLU) for each household and divided the households as having low, average or high TLU. One TLU is estimated as the equivalent of 250 kg livestock [28]. A wealth index (WI) was also developed for each participating household to classify households based on socioeconomic status. To achieve this, we used various assets owned by households and other housing and sanitation related characteristics. The assets include ownership of radio, TV, mobile phone, bicycle, horse/donkey cart, motorcycle, handheld torch and oxen. Housing characteristics include roofing structure (corrugated iron or thatched grass roof), flooring materials (cow dung smeared/cement or mud/earth), presence or absence of windows, crowding (persons per sleeping room ≤5 or ≥6) as well as presence or absence of an improved sanitation facility. The use of asset-based approach to determine households’ socioeconomic status is also common in DHS surveys at national level [1, 29]. It is usually used for poor countries where large proportion of the population does not have regular income. Various methods can be used to weigh each item (in our case all binary variables) and calculate the actual index [30]. Each household received a score of 1 or 0 depending on whether it owned a particular asset. We then weighted each binary variable by the inverse of the proportion of households that owned the particular asset or had the particular characteristics [30]. This method assumes that if assets are owned by just the few, it is an indication that those “few” are wealthier than those that do not own the asset, hence they are given greater weight. After calculating WI for each household, households were grouped into low, medium and high WI categories. Trained female data collectors (mainly nurses) who fluently spoke the local languages administered the interview questionnaire at participants’ residence. Data collection was supervised by the principal investigator (GE) and B.Sc. nutrition graduates who also spoke the local language fluently. Anthropometric measurements of mothers and their children were carried out at the nearest health facility (health post and health centre), local school campus or outside the local Kebele office. On separate dates, participants living near to any one of these locations were invited to attend the anthropometric measurement sessions. Those who could not attend were visited at their residence. One person (GE) conducted all anthropometric measurements for both mothers and children to avoid inter-measurer errors. Child anthropometry included weight (measured to the nearest 10g) using electronic scale (Seca 770, Seca Corporation, Hanover, MD, USA); height (for children ≥24 months of age)/recumbent length (for children <24 months) (measured to the nearest 0.1cm) using adult/infant length/stature measuring board (Perspective Enterprises, Portage, MI, USA); head circumference (measured to the nearest 0.1cm) using a flexible non-stretch tape; mid-upper arm circumference (MUAC) (measured to the nearest 0.1cm) using colored insertion tape for children; and triceps skinfold thickness (measured to the nearest 0.2mm) using skinfold caliper (Holtain Ltd, Crymych, United Kingdom). Mothers’ anthropometry included weight (to the nearest 0.1kg), height (to the nearest 0.1cm) and MUAC (to the nearest 0.1cm). All measurements were taken in duplicate and averages were considered when the duplicates were similar. If the values were not similar, a third measure was taken to obtain the average of the two similar values. Standardized procedures were employed when taking body measurements [3, 23]. Birthdates for children were determined from immunization cards while age of mothers was asked verbally. Questionnaires were inspected daily and errors or inconsistencies were corrected at the field level. Information from questionnaire was entered in SPSS computer package (IBM SPSS Statistics version 20, IBM Corp., Armonk, NY, USA) and cleaned by running simple frequency distributions. Univariate and bivariate analysis was performed for the descriptive statistics. Bivariate and multiple variable regression analysis were performed to explore associations of gender and socioeconomic-demographic variables with maternal and child undernutrition [i.e. Body Mass Index (BMI) < 18.5 kg/m2 and Length- or Height-for-age Z score (LAZ or HAZ) < -2 Standard Deviation (SD), respectively] using Chi square tests and Multiple Classification Analysis (MCA). Only variables that were significant in the bivariate analysis were included in the MCA. Maternal BMI and child LAZ/HAZ as continuous variables served as main outcome variables and results were presented with the associated Eta (η) and Beta (β) values, indicating the bivariate and multiple variable coefficients of variation, respectively. WHO Anthro (ver. 3.2.2) 2011 was used to analyse all anthropometric data for children. Mean length- or height-for-age z-score (LAZ/HAZ), weight-for-length/height z-score (WLZ/WHZ), weight-for-age z-score (WAZ), MUAC-for-age z-score, head circumference-for-age z-score, triceps skinfold thickness-for-age z-score (only for children ≥ 3 months) and BMI-for-age z-score were calculated. Differences were tested using t-test for independent samples. Prevalence of stunting (LAZ/HAZ <-2SD), wasting (WLZ/WHZ <-2SD) and underweight (WAZ<-2SD) were also calculated. Body measurements from mothers were directly entered in SPSS spreadsheet and average MUAC, weight, height, as well as maternal short stature (as %<145cm in height) were calculated [3]. BMI of non-pregnant mothers and severity of maternal undernutrition were estimated per WHO classification of BMI (i.e. 25 kg/m2 = overweight/obese). Since MUAC is relatively stable during pregnancy [31], all mothers in the study (including pregnant ones) were grouped as undernourished or normal using MUAC <23 cm as a cut-off point. For comparison purposes and where possible, results were presented along with findings from national/regional studies. Statistical significance was set at a p-value of <0.05.

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

1. Mobile Health (mHealth) Applications: Develop and implement mobile applications that provide pregnant women with access to information and resources related to maternal health. These apps could include features such as pregnancy tracking, nutrition advice, appointment reminders, and access to telemedicine consultations.

2. Community Health Workers: Train and deploy community health workers to provide education, support, and basic healthcare services to pregnant women in rural communities. These workers can help bridge the gap between healthcare facilities and remote areas, ensuring that women receive the necessary care during pregnancy.

3. Telemedicine: Establish telemedicine services that allow pregnant women in rural areas to consult with healthcare professionals remotely. This can help overcome geographical barriers and provide timely medical advice and support to women who may not have easy access to healthcare facilities.

4. Maternal Health Vouchers: Implement a voucher system that provides pregnant women with financial assistance to cover the costs of prenatal care, delivery, and postnatal care. This can help reduce financial barriers and ensure that women receive the necessary healthcare services during pregnancy.

5. Maternal Health Clinics: Establish dedicated maternal health clinics in rural communities, staffed by trained healthcare professionals. These clinics can provide comprehensive prenatal care, delivery services, and postnatal care, making it easier for women to access the care they need closer to home.

6. Health Education Programs: Develop and implement health education programs that specifically target women and their families in rural communities. These programs can focus on topics such as nutrition during pregnancy, breastfeeding, and the importance of prenatal care, empowering women with knowledge to make informed decisions about their health.

7. Transportation Support: Provide transportation support to pregnant women in rural areas to help them access healthcare facilities for prenatal visits, delivery, and postnatal care. This can include arranging for transportation services or providing financial assistance for transportation costs.

8. Maternal Health Hotline: Establish a toll-free hotline that pregnant women can call to receive information, advice, and support related to maternal health. Trained healthcare professionals can staff the hotline and provide guidance to women, addressing their concerns and connecting them with appropriate resources.

9. Maternal Health Awareness Campaigns: Conduct targeted awareness campaigns in rural communities to educate women and their families about the importance of maternal health. These campaigns can use various mediums such as radio, television, and community gatherings to disseminate information and promote positive health-seeking behaviors.

10. Partnerships with Non-Governmental Organizations (NGOs): Collaborate with NGOs that specialize in maternal health to leverage their expertise and resources. These partnerships can help expand access to maternal health services, improve the quality of care, and reach underserved populations in rural areas.
AI Innovations Description
Based on the description provided, the following recommendation can be developed into an innovation to improve access to maternal health:

1. Strengthen women’s education: Implement programs that focus on improving women’s education, particularly in rural communities. This can include initiatives to increase enrollment and retention rates for girls in schools, providing scholarships or financial incentives for girls to continue their education, and promoting adult literacy programs for women.

2. Enhance reproductive health services: Improve access to reproductive health services, including family planning, antenatal care, and postnatal care. This can be achieved by increasing the number of health facilities in rural areas, training healthcare providers on maternal health services, and raising awareness about the importance of reproductive health through community outreach programs.

3. Promote nutrition and health programs: Develop and implement nutrition and health programs that specifically target vulnerable populations, such as pregnant women and young children. These programs should focus on providing education on balanced diets, promoting the consumption of nutritious foods, and addressing cultural barriers that may prevent women from accessing and consuming nutritious foods during pregnancy.

4. Empower women in household decision-making: Address gender disparities and empower women in household decision-making processes. This can be done by promoting gender equality and women’s rights, providing training and support for women to engage in income-generating activities, and promoting women’s participation in community decision-making forums.

5. Strengthen community-based interventions: Implement community-based interventions that involve local stakeholders, such as community leaders, healthcare providers, and women’s groups. These interventions should focus on raising awareness about maternal health issues, promoting behavior change, and mobilizing community resources to improve access to maternal health services.

By implementing these recommendations, it is possible to develop innovative solutions that can improve access to maternal health in rural communities in Ethiopia.
AI Innovations Methodology
Based on the provided information, here are some potential recommendations to improve access to maternal health:

1. Increase women’s education: Promote and support initiatives that improve access to education for women, as higher education levels are associated with better maternal health outcomes.

2. Strengthen reproductive health services: Enhance the availability and quality of reproductive health services, including family planning, antenatal care, and postnatal care, to ensure that women receive the necessary care throughout their pregnancy and after childbirth.

3. Address cultural barriers: Develop culturally sensitive interventions to address cultural practices that may hinder access to nutritious foods during pregnancy. This could involve community engagement and education to challenge harmful beliefs and practices.

4. Improve nutrition/health programs: Enhance existing nutrition and health programs to specifically target vulnerable populations, such as rural communities with similar demographics. This could involve providing targeted interventions, such as nutritional supplements and education on balanced diets, to improve maternal and child nutrition.

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

1. Define indicators: Identify key indicators that reflect access to maternal health, such as the percentage of women receiving antenatal care, the percentage of women delivering in a healthcare facility, and the percentage of women receiving postnatal care.

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

3. Implement interventions: Implement the recommended interventions in the target population. This could involve implementing educational programs, improving healthcare infrastructure, and providing resources to support women’s education and reproductive health services.

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 to assess changes in access to maternal health services.

5. Analyze data: Analyze the collected data to determine the impact of the interventions on improving access to maternal health. This could involve comparing the baseline data with the post-intervention data to identify any significant changes.

6. Adjust and refine interventions: Based on the analysis of the data, make adjustments and refinements to the interventions as needed. This could involve scaling up successful interventions and addressing any challenges or barriers that may have been identified.

7. Repeat the process: Continuously repeat the process of monitoring, evaluating, and adjusting the interventions to ensure ongoing improvement in access to maternal health.

By following this methodology, it would be possible to simulate the impact of the recommended interventions on improving access to maternal health and make evidence-based decisions on how to best allocate resources and implement effective strategies.

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