Community health workers impact on maternal and child health outcomes in rural South Africa – a non-randomized two-group comparison study

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Study Justification:
– Home visits by community health workers (CHWs) have been shown to improve maternal and child health outcomes in previous research studies.
– However, the effectiveness of CHW programs in rural areas is not well understood.
– This study aims to evaluate the impact of CHWs on maternal and child health outcomes in deeply rural communities in South Africa.
Study Highlights:
– The study was conducted in the rural Eastern Cape, one of the poorest municipalities in South Africa.
– A non-randomized, two-group comparison design was used, with one group receiving home visits by CHWs and the other group receiving standard clinical care.
– The study recruited 1310 mother-infant pairs and assessed them at 6 months post-birth.
– The results showed that home visiting had limited, but important effects on child health, maternal wellbeing, and health behaviors.
– Intervention mothers were more likely to exclusively breastfeed for 6 months, had better baby-feeding practices, and were less likely to consult traditional healers.
– Intervention-group children had lower odds of being wasted and fewer symptoms of common childhood illnesses.
Recommendations:
– CHWs in rural areas are likely to need enhanced support and supervision to improve their effectiveness.
– Policy makers should consider providing additional resources and training to CHWs working in challenging rural contexts.
– Efforts should be made to strengthen the integration of CHW programs into primary healthcare services in rural areas.
– Peer support programs for mothers facing challenges should be expanded and promoted.
Key Role Players:
– Community Health Workers (CHWs): They play a crucial role in conducting home visits and providing support to mothers and children.
– Supervisors: They provide support and supervision to CHWs in the field.
– Healthcare Providers: They collaborate with CHWs and provide medical care to mothers and children.
– Policy Makers: They are responsible for allocating resources and implementing policies to support CHW programs.
Cost Items for Planning Recommendations:
– Training and Capacity Building: Budget should be allocated for training CHWs and supervisors.
– Salaries and Incentives: CHWs should be provided with fair salaries and incentives to motivate and retain them.
– Transportation: Budget should be allocated for CHWs’ transportation to reach remote rural areas.
– Supplies and Equipment: CHWs may require supplies and equipment for home visits, such as educational materials and basic medical supplies.
– Monitoring and Evaluation: Resources should be allocated for monitoring and evaluating the effectiveness of the CHW program.
Please note that the provided cost items are general suggestions and may vary depending on the specific context and requirements of the CHW program.

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is rated 7 because the study design is non-randomized, which limits the strength of the evidence. However, the study includes a large sample size and provides detailed information on the methods and results. To improve the strength of the evidence, a randomized controlled trial could be conducted to eliminate potential biases and increase the validity of the findings.

Background: Home visits by paraprofessional community health workers (CHWs) has been shown to improve maternal and child health outcomes in research studies in many countries. Yet, when these are scaled or replicated, efficacy disappears. An effective CHW home visiting program in peri-urban Cape Town found maternal and child health benefits over the 5 years point but this study examines if these benefits occur in deeply rural communities. Methods: A non-randomized, two-group comparison study evaluated the impact of CHW in the rural Eastern Cape from August 2014 to May 2017, with 1310 mother-infant pairs recruited in pregnancy and 89% were reassessed at 6 months post-birth. Results: Home visiting had limited, but important effects on child health, maternal wellbeing and health behaviors. Mothers reported fewer depressive symptoms, attended more antenatal visits and had better baby-feeding practices. Intervention mothers were significantly more likely to exclusively breastfeed for 6 months (OR: 1.8; 95% CI: 1.1, 2.9), had lower odds of mixing formula with baby porridge (regarded as detrimental) (OR: 0.4; 95% CI: 0.2, 0.8) and were less likely to consult traditional healers. Mothers living with HIV were more adherent with co-trimoxazole prophylaxis (p  2000 South African Rand [ZAR]), receipt of the child support grant, access to electricity and safe water, and the number of adults and children that live in the household. Mothers were asked if they ever used alcohol before pregnancy, and if they continued to use alcohol after discovering they were pregnant. Maternal antenatal cards detailed the medical care the mother received before pregnancy and the number of antenatal visits she attended. We collected previous pregnancy history including poor outcomes and the number of live births. Depressive symptoms were measured using the Edinburgh Postnatal Depression Scale (EPDS). The EPDS is a 10-item scale with four Likert-type responses for each item, with mothers self-reports indicating possible depressed mood with scores > 13 and probable clinical depression ≥18 that has been extensively used in South Africa [24, 28–30] and has been found to “reliably and validly measure perinatal depression symptom severity or screen for probable postnatal depression in African countries” (29, p1). HIV testing during pregnancy was confirmed either by self-report or by the mother’s antenatal card at baseline. Mother’s HIV status, receipt of ARVs before and during pregnancy, and disclosure of HIV status were also recorded. At baseline, data collectors record if the child lives with the father, and the father’s HIV status and substance use. current breastfeeding at the birth interview was recorded and how soon the infant was put to the breast. At the 6-months assessment, mothers self-reported whether they were exclusively breastfeeding for three and 6 months. If a mother was not exclusively breastfeeding, data collectors asked whether and when the mother started using formula, and whether she was mixing formula with baby porridge. Birthplace of the child was either at the hospital, clinic, or on the way to the hospital/clinic versus at home. Low birth-weight was defined as any infant that weighed less than 2500 g at the time of birth. Finally, Apgar scores were recorded at birth at 5 min, ranging from 1 to 10 using information from the government Road to Health Card (RtHC), which is a health record kept by the mother. Trained and certified interviewers weighed children (kilograms) and measured their length (centimeters) using a measuring mat at birth and 6-months. Birth weight (g/kg) was also recorded from the RtHC. Infant anthropometric data was then converted to z-scores based on the World Health Organization’s (W.H.O) age-adjusted norms [31]. A z-score below − 2 standard deviation (SD) was considered a serious growth deficit: <− 2 for height-for-age z-scores (HAZ) was considered stunted, < − 2 for weight-for-age z scores (WAZ) was considered underweight, and  5 SD or < − 5 SD may have represented measurement errors and were replaced by 5 or − 5 in order to reduce the effect of outliers in our analyses (i.e. HAZ [n = 21, 0.6%], WAZ [n = 20, 0.6%], and WHZ [n = 123, 3.5%]). Data collectors asked the mothers what immunizations the child had received up to and including 6-months (plus Vitamin A) and confirmed these answers with the child’s RtHC. Mothers were asked at the 6-months assessment if the child had experienced any child illness in the past 2 weeks including diarrhea, vomiting, cough, shortness of breath, fever, and/or runny nose. Mothers were asked if the mother has taken the child to the hospital, clinic, traditional healer, private doctor, or private pharmacy in the past 3 months. WHO gross motor developmental milestones were measured at 6-months. The presence or absence of the following motor skills were assessed: (1) sitting without support; (2) standing with support; (3) hands-and-knees crawling; (4) walking with assistance; and (5) standing alone [32]. Depending on the child’s age (age unit: months), a child was determined to be either on target or behind target based on the assessment of the trained interviewer. Among the mothers living with HIV (MLH), the PMTCT cascade focused on six tasks: (1) receipt of antiretroviral (ARVs) before the birth of the baby; (2) nevirapine (NVP) administered to the infant after delivery; (3) continuation of Anti-retroviral Therapy (ART) for mother post-delivery; (4) infant received HIV PCR testing; (5) maintenance of a single feeding method (i.e. exclusive breastfeeding for 3 months); and (6) the infant received co-trimoxazole by the 6-months assessment. The key baseline demographics and maternal characteristics were compared between intervention and comparison groups, using the Student’s t-test or Mann-Whitney U test for continuous variables, and the chi-square (χ2) test or Fisher’s exact test for categorical variables. We also examined participants who were lost to follow-up (11%; n = 147), by comparing their baseline characteristics to mothers who were retained at 6-months assessment (n = 1142/1310) stratified by intervention and comparison groups. Our primary analysis compared the distribution of maternal and child outcomes by intervention and comparison groups at 6-months using t-test and χ2 test for continuous and categorical outcomes, respectively. Among MLH, we compared additional tasks in the PMTCT cascade between intervention and comparison groups using χ2 test. Longitudinal mixed-effects models were used to assess the intervention effect for maternal and child outcomes that were measured over time. In particular, we applied linear mixed-effects regression models with restricted maximum likelihood estimation for continuous outcomes, and mixed-effect logistic regression models for binary outcomes. The mixed-effects models for maternal and child outcomes assessed over time, included fixed-effects for maternal HIV status, access to electricity and safe water, having total grant income above 2000 South African Rand (ZAR), intervention, time, and interaction between intervention and time. The time variable used in the longitudinal models for maternal outcomes corresponds to time-points (baseline and 6-months) where mothers were assessed in the study, and for child outcomes refer to the actual age of children (age unit: months). For child outcomes assessed only at 6-months, we omitted the child random-effects. Multivariate negative binomial regression models were fitted for count outcomes, where the likelihood ratio test was adapted to assess whether the negative binomial model was more appropriate than the Poisson model. For child outcomes that were assessed over time from baseline to 6-months, the effect modification was assessed by fitting interaction terms between maternal HIV status, time, and intervention in the longitudinal models. Similarly, for those child outcomes that were only measured at 6-months, this was assessed by including an interaction term between maternal HIV status and intervention in models. Further examination was carried out to assess whether maternal HIV status modifies the effect of intervention on outcomes. All mixed-effects models accounted for repeated measures for participants by including random intercepts. Random slope for time was also assessed, and if needed, included in the models in addition to fixed-effects and random intercepts. All analyses were conducted using Stata SE software Version 15.

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

1. Mobile Health (mHealth) Solutions: Implementing mobile health technologies, such as text messaging or smartphone applications, to provide pregnant women with important health information, reminders for appointments, and access to telemedicine consultations.

2. Telemedicine: Expanding the use of telemedicine services to allow pregnant women in rural areas to consult with healthcare providers remotely, reducing the need for travel and improving access to specialized care.

3. Transportation Solutions: Developing transportation systems or programs specifically designed to facilitate access to healthcare facilities for pregnant women in rural areas, addressing the challenges posed by poor road infrastructure and geographical barriers.

4. Community-Based Maternal Health Programs: Establishing community-based programs that train and empower local women to become community health workers (CHWs) who can provide maternal health education, support, and referrals within their own communities.

5. Maternal Health Clinics: Establishing dedicated maternal health clinics in rural areas, staffed by healthcare professionals with expertise in maternal and child health, to provide comprehensive care and support for pregnant women.

6. Public-Private Partnerships: Collaborating with private sector organizations, such as telecommunications companies or transportation providers, to leverage their resources and expertise in improving access to maternal health services in rural areas.

7. Health Education and Awareness Campaigns: Conducting targeted health education and awareness campaigns to increase knowledge and understanding of maternal health issues among women and communities in rural areas, promoting early and regular prenatal care.

8. Strengthening Referral Systems: Improving the coordination and effectiveness of referral systems between primary healthcare facilities and higher-level healthcare facilities, ensuring that pregnant women in rural areas can access appropriate care when needed.

9. Maternal Health Financing: Exploring innovative financing mechanisms, such as microinsurance or community-based health financing schemes, to make maternal health services more affordable and accessible for women in rural areas.

10. Research and Data Collection: Conducting further research and data collection to better understand the specific challenges and barriers to accessing maternal health services in rural areas, and using this information to inform the development and implementation of targeted interventions.
AI Innovations Description
The recommendation based on the study is to enhance support and supervision for community health workers (CHWs) in rural areas to improve access to maternal health. The study found that CHW home visiting programs had limited but important effects on child health, maternal wellbeing, and health behaviors in rural communities. The CHWs provided support and guidance to mothers, encouraging them to attend antenatal visits, practice optimal infant feeding, and access necessary healthcare services. They also provided peer support to mothers facing challenges. However, the impact of CHWs in rural areas was less pronounced compared to peri-urban areas. Therefore, it is recommended to provide enhanced support and supervision to CHWs in rural areas to address the challenges they face and ensure the effectiveness of their interventions. This could include regular training, in-the-field support and supervision visits, and strong accountability measures. By strengthening the support system for CHWs, access to maternal health can be improved in rural communities.
AI Innovations Methodology
The study mentioned in the description focuses on the impact of community health workers (CHWs) on maternal and child health outcomes in rural South Africa. The methodology used in the study is a non-randomized two-group comparison study. Here is a brief description of the methodology:

1. Study Setting: The study was conducted in the rural Eastern Cape of South Africa, specifically in the catchment area of four clinics referring to Zithulele District Hospital. This area is characterized by poor road infrastructure and challenging access to healthcare services.

2. Study Design: The study employed a non-randomized two-group comparison design. The intervention group consisted of mothers living in areas with home visiting by CHWs, while the comparison group consisted of mothers living in areas with standard clinical care and no CHWs.

3. Recruitment: A total of 1310 mother-infant pairs were recruited during pregnancy from the four clinics in the study area. The recruitment period started in August 2014 and ended in May 2017. Mothers were assigned to either the intervention or comparison group based on the location of the clinic they attended.

4. Data Collection: Baseline assessments were conducted soon after the birth of the baby, and follow-up assessments were performed at 6 months post-birth. Data on various maternal and child health outcomes were collected, including maternal wellbeing, health behaviors, infant feeding practices, child growth, immunizations, and child illnesses.

5. Data Analysis: The primary analysis compared the distribution of maternal and child outcomes between the intervention and comparison groups at 6 months using t-tests and chi-square tests for continuous and categorical outcomes, respectively. Longitudinal mixed-effects models were also used to assess the intervention effect over time, adjusting for various factors such as maternal HIV status, access to electricity and safe water, and grant income.

In summary, the study used a non-randomized two-group comparison design to evaluate the impact of CHWs on maternal and child health outcomes in rural South Africa. Data on various outcomes were collected at baseline and 6 months post-birth, and statistical analyses were conducted to assess the intervention effect.

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