Factors associated with declining under-five mortality rates from 2000 to 2013: An ecological analysis of 46 African countries

Study Justification:
The study aimed to investigate the factors associated with the decline in under-five mortality rates in 46 African countries from 2000 to 2013. This research was conducted to address the lack of overall progress in achieving the Millennium Development Goal of reducing under-five mortality rates by two-thirds between 1990 and 2015. The study aimed to identify the health, economic, and social factors that contributed to the reduction in under-five mortality rates in order to inform future interventions and policies.
Study Highlights:
– Most factors improved over the study period, with the largest increases seen in economic or technological development and external financing factors.
– The median under-five mortality rate reduction was 3.6% per year.
– Only four out of 70 factors showed a strong and significant association with under-five mortality rate reduction: increasing coverage of seeking treatment for acute respiratory infection, increasing health expenditure relative to gross domestic product, increasing fertility rate, and decreasing maternal mortality ratio.
– Many factors showed no association or had missing data from a large number of countries, raising validity concerns.
Study Recommendations:
– The findings highlight the importance of improving sociodemographic, maternal health, governance, and financing factors to further reduce under-five mortality rates.
– It is recommended to monitor these factors to identify countries that need additional support in reducing under-five mortality.
– Surveillance of these factors can help guide interventions and services for child health.
Key Role Players:
– Researchers and experts in public health, maternal and child health, and health economics.
– Ministries of Health and other government agencies responsible for health policies and programs.
– International organizations such as the World Health Organization (WHO), United Nations Children’s Fund (UNICEF), and World Bank.
– Non-governmental organizations (NGOs) working in the field of child health and development.
– Community health workers and healthcare providers.
Cost Items for Planning Recommendations:
– Funding for health programs and interventions targeting under-five mortality reduction.
– Investments in healthcare infrastructure, including facilities, equipment, and supplies.
– Training and capacity building for healthcare providers and community health workers.
– Monitoring and evaluation systems to track progress and outcomes.
– Research and data collection to inform evidence-based interventions.
– Advocacy and awareness campaigns to promote child health and well-being.

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is rated 7 because the study conducted an ecological analysis using publicly available data from 46 African countries. The study assessed the annual rate of change of 70 different factors and their association with the annual rate of reduction of under-five mortality rates. However, the study only found 4 factors that demonstrated a strong and significant association with under-five mortality rate reduction. To improve the evidence, the study could consider conducting a more comprehensive literature search to identify additional factors that may be associated with under-five mortality rate reduction.

Objective: Inadequate overall progress has been made towards the 4th Millennium Development Goal of reducing under-five mortality rates by two-thirds between 1990 and 2015. Progress has been variable across African countries. We examined health, economic and social factors potentially associated with reductions in under-five mortality (U5M) from 2000 to 2013. Setting: Ecological analysis using publicly available data from the 46 nations within the WHO African Region. Outcome measures: We assessed the annual rate of change (ARC) of 70 different factors and their association with the annual rate of reduction (ARR) of U5M rates using robust linear regression models. Results: Most factors improved over the study period for most countries, with the largest increases seen for economic or technological development and external financing factors. The median (IQR) U5M ARR was 3.6% (2.8 to 5.1%). Only 4 of 70 factors demonstrated a strong and significant association with U5M ARRs, adjusting for potential confounders. Higher ARRs were associated with more rapidly increasing coverage of seeking treatment for acute respiratory infection (ß=0.22 (ie, a 1% increase in the ARC was associated with a 0.22% increase in ARR); 90% CI 0.09 to 0.35; p=0.01), increasing health expenditure relative to gross domestic product (ß=0.26; 95% CI 0.11 to 0.41; p=0.02), increasing fertility rate (ß=0.54; 95% CI 0.07 to 1.02; p=0.07) and decreasing maternal mortality ratio (p=-0.47; 95% CI -0.69 to -0.24; p≤0.01). The majority of factors showed no association or raised validity concerns due to missing data from a large number of countries. Conclusions: Improvements in sociodemographic, maternal health and governance and financing factors were more likely associated with U5M ARR. These underscore the essential role of contextual factors facilitating child health interventions and services. Surveillance of these factors could help monitor which countries need additional support in reducing U5M.

The study was approved by the Institutional Review Boards at Vanderbilt University. Mortality data were obtained for the period 2000–2013, while data on all factors of interest were obtained for the period 1998–2011. These are described in detail below. We obtained country-specific U5M rates from annual estimates provided by http://www.childmortality.org, the data used in the United Nations Children’s Fund (UNICEF) Report on Levels and Trends in Child Mortality. For each of the 46 WHO African Region countries, the estimated U5M rates for 2000 and 2013 (the latest estimates available at the time of the analysis (accessed June 2015)) were obtained and the ARR from 2000 to 2013 was calculated. Use of the ARR as an outcome facilitates interpretation of results in the context of MDG4 progress metrics. The U5M ARR reflects a constant rate of change in the U5M rate between two time periods and is calculated using the following equation (equation 1): where yt is the mortality rate for a given year (eg, 2000) and n is the number of years between the two rates (eg, 13 years when calculating ARR from 2000 and 2013 rates). Consistent with how it is calculated and reported by UNICEF1 and others,12 the ARR is expressed as a per cent and will have a positive value when a country is reducing its mortality rate. As an example, an ARR of 4.4% or greater is needed for a country to meet MDG4 of reducing U5M by two-thirds between 1990 and 2015. In the years leading up to 2015, expressing the reduction in U5M as an ARR made it possible to monitor progress across countries and over different time periods. Since we wanted to assess a broad range of factors potentially associated with U5M ARR, factors to be used in the analysis included those monitored by Countdown to 2015 as well as others identified through a comprehensive literature search of the PubMed database. We searched for studies on under-five, infant or neonatal mortality within any of the 46 countries in the WHO African Region that were published between 2002 and 2012. Abstracts were reviewed to identify factors that were (1) associated with under-five, infant or neonatal mortality, (2) not already reported by Countdown to 2015 and (3) had aggregate country-level data available for the analysis. Thirty-four factors met these criteria. These were combined with 20 Countdown 2015 intervention indicators (or closely related) and 16 non-intervention indicators reported in the Countdown 2015 country profiles (or were closely related). The final list used in the analysis included 70 factors from the following categories: sociodemographics (18 factors), access to healthcare (16), governance and financing (11), maternal health (6), child survival interventions (7), clinical and health conditions (7), and other country infrastructure (5) (see online supplemental table S1). Data for 58 (83%) of the 70 indicators were obtained from the World Bank Data Catalogue.13 The World Bank Data Catalogue is a repository of national, regional and global indicator data that have been compiled from officially recognised international sources. In many instances, a single indicator may be derived from multiple data sources using modelling or aggregation techniques. Data for the remaining 12 factors not available through the World Bank Data Catalogue were obtained directly from each country’s Demographic and Health Surveys14 (10 factors) or Countdown 2015 country profiles (2 factors).8 10 In total, 26 (37%) of 70 factors were obtained entirely or in part from country Demographic and Health Surveys or other household survey data, including the majority of the maternal health, access to healthcare and child survival intervention factors. Other sources included data collected and maintained by WHO, various UN divisions, UNAIDS, the Organisation for Economic Co-operation and Development, and the World Bank (see online supplemental tables S2 and S3 for further details). For each of the 46 WHO African Region countries, data on the 70 factors were obtained that corresponded as close as possible to the years 2000 and 2011. To be considered sufficient for inclusion in the analyses, data for each factor had to meet the following three criteria: (1) reported for one of the years between 1998 and 2003, termed 2000 data, (2) reported for one of the years between 2006 and 2011, termed 2011 data and (3) the pair of data points for each factor had to be at least 5 years apart in order to minimise incorrect extrapolation when calculating changes in the indicator. If any of these criteria were not met, the change over time for that particular factor was not calculated and was deemed missing. The annual rate of change (ARC) for each indicator is conceptually similar to the ARR for U5M and was calculated using the same ARR equation shown above in equation 1 but with one difference: the rate of change is multiplied by positive 100 instead of negative 100 so that the ARC has a negative value when the indicator decreases over time (ie, Coverage2011 <Coverage2000) and a positive value when the indicator increases over time (equation 2): This is in contrast to the U5M ARR which has a positive value when mortality is decreasing over time (ie, U5M2013 <U5M2000). The dependent variable of interest was the U5M ARR for 2000–2013. Each indicator ARC was an independent variable of interest. Both indicator ARCs and U5M ARR were analysed as continuous variables and no transformations were performed. The distribution of ARRs was inspected visually and was confirmed to be approximately normal by the Shapiro-Wilk test for normality (p=0.33). Associations were explored using linear regression. Given the sample size (n=46 countries), results from traditional linear regression methods may be overly influenced by outliers. These outliers, however, likely represent true data rather than data errors and exclusion would unnecessarily decrease the sample size. Hence, robust linear regression was used to minimise the influence of outlying observations, without excluding them15–17 using iteratively reweighted least squares (M-estimation with Huber weighting). Multivariable robust linear regression models were fit for each factor of interest, resulting in 70 different regression models (one for each factor). A standard set of factors was identified a priori to be included in each model as covariates to adjust for potential confounding of the specific factor association being analysed. Given the sample size of 46 countries, at most, a decision was also made a priori to include no more than five covariates in the multivariable analyses to avoid overfitting. We selected the following factor ARCs for inclusion as covariates in each model based on previous ecological studies, consideration of what macro-level or system-level factors would influence the majority of the factors, and having nearly complete data: (1) access to improved water source, (2) health expenditure (relative to gross domestic product (GDP)), (3) adult HIV prevalence, (4) urban population prevalence and (5) receipt of antenatal care (when applicable). All regression models included these core factor ARCs as covariates unless expected to be highly correlated with the primary indicator of interest (eg, improved water sources was excluded from the model for the association between improved sanitation facilities; health expenditure relative to GDP was excluded from the model for the association between health expenditure relative to government expenditure). Changes in the receipt of antenatal care was only included when the indicator being analysed would occur following the pregnancy period (eg, maternal mortality ratio, births delivered at a health facility, measles immunisation, wasting prevalence) and was not included for sociodemographic factors, macro-level factors such as health expenditure and system-level factors such as physician density. The estimated robust linear regression β coefficient for each indicator ARC and U5M ARR association can be interpreted as the change in ARR associated with every 1% increase in the indicator ARC. For example, a β coefficient of 0.20 indicates that for every 1% increase in the indicator ARC there is a corresponding 0.2% increase in the ARR. Stated differently, a 5% increase in the indicator ARC (eg, 6% ARC compared to 1% ARC) corresponds to a 1% increase in the ARR (eg, 4% ARR vs 3% ARR). To help avoid type II errors, which can occur with small samples, we reported all associations when the p values were <0.10, acknowledging that some of these associations may be due to chance alone, especially with higher p values. We report an indicator to be strongly associated with ARR when the adjusted β coefficient is ≥0.20 or ≤−0.20. A preliminary analysis showed significantly different ARRs between countries reporting a specific indicator and countries not reporting a specific indicator when the indicator was reported by <50% of the countries. Since these differences suggest selection bias, we only present results for those factors for which at least 23 countries (≥50%) have sufficient data (ie, non-missing indicator data for both time periods). Results for all factors are available in online supplemental tables S4 and S5. All analyses were conducted using R-software V.2.15.2 (http://www.r-project.org).

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The study titled “Factors associated with declining under-five mortality rates from 2000 to 2013: An ecological analysis of 46 African countries” explores various factors that may have contributed to the reduction of under-five mortality rates in African countries. The study used publicly available data from the 46 nations within the WHO African Region and assessed the annual rate of change (ARC) of 70 different factors and their association with the annual rate of reduction (ARR) of under-five mortality rates.

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

1. Increasing coverage of seeking treatment for acute respiratory infection: This factor showed a strong and significant association with the annual rate of reduction in under-five mortality rates. Innovations that improve access to healthcare services for acute respiratory infections, such as telemedicine or mobile health clinics, could help ensure timely and appropriate treatment for mothers.

2. Increasing health expenditure relative to gross domestic product (GDP): This factor was also associated with higher annual rates of reduction in under-five mortality rates. Innovations that focus on increasing healthcare funding and investment in maternal health services, such as public-private partnerships or innovative financing mechanisms, could help improve access to maternal healthcare.

3. Decreasing maternal mortality ratio: The study found that a decrease in maternal mortality ratio was associated with higher annual rates of reduction in under-five mortality rates. Innovations that target reducing maternal mortality, such as improving access to skilled birth attendants, implementing emergency obstetric care services, or promoting maternal health education and awareness, could contribute to improved maternal health outcomes.

It is important to note that these potential innovations are based on the findings of the study and should be further explored and evaluated for their effectiveness and feasibility in improving access to maternal health.
AI Innovations Description
The study mentioned in the description aims to identify factors associated with declining under-five mortality rates in African countries from 2000 to 2013. The study analyzed various health, economic, and social factors and their association with the annual rate of reduction (ARR) of under-five mortality rates.

The findings of the study suggest that improvements in sociodemographic, maternal health, governance, and financing factors were more likely associated with the reduction in under-five mortality rates. Factors such as increasing coverage of seeking treatment for acute respiratory infection, increasing health expenditure relative to gross domestic product, increasing fertility rate, and decreasing maternal mortality ratio were found to be strongly and significantly associated with the reduction in under-five mortality rates.

Based on these findings, a recommendation to improve access to maternal health and further reduce under-five mortality rates could be to focus on the following:

1. Increase coverage of seeking treatment for acute respiratory infection: Enhance access to healthcare services for children with respiratory infections, ensuring that they receive timely and appropriate treatment.

2. Increase health expenditure relative to gross domestic product: Allocate more resources towards healthcare, particularly maternal health services, to improve access and quality of care.

3. Improve maternal health services: Strengthen maternal health programs, including antenatal care, skilled birth attendance, and postnatal care, to reduce maternal mortality and improve overall maternal health outcomes.

4. Address fertility rates: Implement strategies to educate and empower women on family planning and reproductive health, enabling them to make informed decisions about the number and spacing of their pregnancies.

By implementing these recommendations, countries can work towards improving access to maternal health services, which in turn can contribute to reducing under-five mortality rates. It is important to monitor and evaluate the progress of these interventions to identify areas that require additional support and resources.
AI Innovations Methodology
Based on the information provided, here are some potential recommendations for improving access to maternal health:

1. Increase coverage of seeking treatment for acute respiratory infection: This factor showed a strong and significant association with reducing under-five mortality rates. Improving access to healthcare services for respiratory infections can help prevent complications and reduce child mortality.

2. Increase health expenditure relative to gross domestic product (GDP): This factor was also strongly associated with reducing under-five mortality rates. Allocating more resources to healthcare, particularly maternal health, can improve access to essential services and interventions.

3. Decrease maternal mortality ratio: This factor demonstrated a significant association with reducing under-five mortality rates. Implementing strategies to reduce maternal mortality, such as improving access to skilled birth attendants and emergency obstetric care, can have a positive impact on child survival.

To simulate the impact of these recommendations on improving access to maternal health, a methodology could involve the following steps:

1. Collect baseline data: Gather data on the current status of maternal health indicators, such as maternal mortality ratio, coverage of seeking treatment for acute respiratory infection, and health expenditure relative to GDP.

2. Define target goals: Set specific targets for each indicator based on desired improvements in access to maternal health. For example, aim to increase coverage of seeking treatment for acute respiratory infection by 20% within a certain time frame.

3. Implement interventions: Design and implement interventions to address the recommendations. This could involve strategies such as improving healthcare infrastructure, training healthcare providers, increasing health funding, and promoting awareness and education on maternal health.

4. Monitor and evaluate: Continuously monitor the progress of the interventions and collect data on the selected indicators. Assess the impact of the interventions on improving access to maternal health by comparing the data before and after implementation.

5. Analyze the data: Use statistical analysis techniques to analyze the collected data and determine the impact of the interventions on the selected indicators. This could involve conducting regression analyses to assess the association between the interventions and the improvements in access to maternal health.

6. Adjust and refine interventions: Based on the analysis of the data, make adjustments and refinements to the interventions as needed. This iterative process allows for continuous improvement and optimization of the strategies to achieve the desired outcomes.

By following this methodology, it is possible to simulate the impact of the recommendations on improving access to maternal health and make informed decisions on the most effective interventions to implement.

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