Access to maternal health services: Geographical inequalities, united republic of Tanzania

Bulletin of the World Health Organization, Volume 95, No. 12, Year 2017

Ukuhunyushwa

Objective To determine if improved geographical accessibility led to increased uptake of maternity care in the south of the United Republic of Tanzania. Methods In a household census in 2007 and another large household survey in 2013, we investigated 22 243 and 13 820 women who had had a recent live birth, respectively. The proportions calculated from the 2013 data were weighted to account for the sampling strategy. We examined the association between the straight-line distances to the nearest primary health facility or hospital and uptake of maternity care. Findings The percentages of live births occurring in primary facilities and hospitals rose from 12% (2571/22 243) and 29% (6477/22 243), respectively, in 2007 to weighted values of 39% and 40%, respectively, in 2013. Between the two surveys, women living far from hospitals showed a marked gain in their use of primary facilities, but the proportion giving birth in hospitals remained low (20%). Use of four or more antenatal visits appeared largely unaffected by survey year or the distance to the nearest antenatal clinic. Although the overall percentage of live births delivered by caesarean section increased from 4.1% (913/22 145) in the first survey to a weighted value of 6.5% in the second, the corresponding percentages for women living far from hospital were very low in 2007 (2.8%; 35/1254) and 2013 (3.3%). Conclusion For women living in our study districts who sought maternity care, access to primary facilities appeared to improve between 2007 and 2013, however access to hospital care and caesarean sections remained low. We used information from two geo-referenced household surveys covering the same five districts in the south of the United Republic of Tanzania: (i) a census of all 243 612 households in 2007 – primarily designed to evaluate the impact of intermittent preventive treatment with antimalarials on infant survival;24 and (ii) a sample survey in 2013 that assessed the impact of a home-based counselling strategy on neonatal care and survival.25 In both surveys, the study population comprised women who had had a live birth in the 12 months before the survey and reported on uptake of pregnancy and intrapartum care. The study area covers three districts of the Lindi region and two districts of the Mtwara region.26 Most of the residents of these districts are poor and live in mud-walled houses in rural villages. Between 2009 and 2013, two dispensaries in the study area were upgraded to become health centres and 14 new dispensaries were inaugurated. By 2013, the study population was served by 156 dispensaries, 15 health centres and six hospitals within the study area and by another two hospitals just outside the district boundaries. All except four of the 179 health facilities serving the study area in 2013 – i.e. two mission hospitals, one mission dispensary and one private health centre – were public facilities that provided maternal health services free of charge.27 In both 2007 and 2013, all eight hospitals serving the study area provided caesarean sections on a daily 24-hour basis, three of the hospitals had maternity waiting homes and all of the hospitals and seven of the health centres were equipped with ambulances. Ambulance use – e.g. for hospital referral – was, however, severely constrained by shortages of fuel, human resources and funds for repair. Although all except one of the 179 facilities offered delivery care, basic emergency obstetric care was not consistently available in the study area.27–29 The survey methods are described in detail elsewhere.24,25 In brief, we used a modular questionnaire, administered in Swahili, to assess coverage of essential interventions during pregnancy and childbirth. Use of personal digital assistants to collect data facilitated the checking of standard ranges, consistency and completeness at the time of data entry.30 Household wealth was assessed by asking each household head about household assets and housing type. We mapped the study households using a global positioning system. The positions of the relevant health facilities had been recorded in previous surveys. In 2007, we surveyed all 243 612 households in the five study districts. In 2013, however, we sampled 169 324 households, which were selected by following a two-stage sampling survey.25 Using the results of the national 2012 census, in which 247 350 households were recorded in the study area, we first sampled so-called subvillages. This sampling was proportional to the number of households in each subvillage – typically about 80–100. We included all households in the subvillages with fewer than 130 households, but used segmentation for subvillages with more than 131 households. Our main outcomes of interest were uptake of at least four visits for antenatal care, delivery in a health facility and delivery by caesarean section. Using a combination of coordinates and the nearstat command in Stata version 13 (StataCorp. LP, College Station, United States of America), we calculated straight-line distances between each surveyed household and: (i) the nearest antenatal clinic, which could have been in a primary facility or a hospital; (ii) the nearest primary facility offering delivery care; and (iii) the nearest hospital. We did this separately for 2007 and 2013. In the 2007 survey, we attempted to impute the coordinates of households for which no such coordinates were recorded, from the coordinates for neighbouring households. Household wealth quintiles were constructed separately for 2007 and 2013, using principal component analysis.31 All analyses were conducted in Stata version 13. For the 2013 data, we accounted for the different sampling structures of the 2007 and 2013 surveys by weighting subvillages by the inverse chance of being included. The percentages reported for 2013 – but not those reported for 2007 – are therefore weighted values. For both 2007 and 2013, we assessed the effect of: (i) distance to nearest antenatal clinic on uptake of at least four visits for antenatal care; (ii) distance to nearest primary facility on delivery in a primary facility; (iii) distance to nearest hospital on hospital delivery; and (iv) distance to nearest hospital on birth by caesarean section. For the analysis of the effect of distance on delivery in a primary facility, we excluded births where a hospital was the nearest facility. We first used generalized linear models to calculate crude prevalence ratios (cPR) with 95% confidence intervals (CI). We compared the prevalence of each indicator by increasing distance to a primary health facility or hospital and then compared the prevalence of each indicator between 2007 and 2013 within each distance group.32 We adjusted the crude prevalence ratios for potential confounding by the mother’s age, parity, district of residence, education, ethnic group and occupation and her household’s wealth quintile. Using multilevel logistic regression without weighting, we fitted an interaction term between distance to facility and survey year and used the likelihood ratio test to calculate a corresponding P-value. We also used ArcGIS version 9.2 (ESRI, Redlands, USA) to map the absolute increases in facility delivery and caesarean section by administrative ward – as percentages of the live births – between 2007 and 2013. Ethical clearance was obtained from the institutional review boards of Ifakara Health Institute, and the Tanzanian National Institute of Medical Research and the ethics committees of the London School of Hygiene and Tropical Medicine and the Swiss cantons of Basel-Stadt and Basel-Land. The study population was informed about the surveys by the local government authorities and again, one day prior interview, by a sensitizer who used information sheets in the local language. Written consent to participate was obtained from household heads and the women who answered questions about pregnancy and childbirth.

I-AI Digest

Study Justification:

The objective of this study was to determine if improved geographical accessibility led to increased uptake of maternity care in the south of the United Republic of Tanzania. The study aimed to assess the impact of improved access to primary health facilities and hospitals on the utilization of maternity care services.

Highlights:

– The study used data from two household surveys conducted in 2007 and 2013, covering the same five districts in the south of Tanzania.
– The percentage of live births occurring in primary facilities and hospitals increased from 12% and 29% in 2007 to 39% and 40% in 2013, respectively.
– Women living far from hospitals showed a marked increase in their use of primary facilities, but the proportion giving birth in hospitals remained low at 20%.
– The use of four or more antenatal visits appeared largely unaffected by survey year or the distance to the nearest antenatal clinic.
– The overall percentage of live births delivered by caesarean section increased from 4.1% in 2007 to 6.5% in 2013, but the percentages for women living far from hospitals remained very low.

Recommendations:

– Improve access to hospital care: Despite the increase in utilization of primary facilities, access to hospital care for maternity services remains low. Efforts should be made to improve transportation infrastructure, availability of ambulances, and address fuel and human resource shortages to facilitate access to hospitals.
– Enhance availability of basic emergency obstetric care: Basic emergency obstetric care should be consistently available in the study area to ensure safe deliveries and timely management of complications.
– Increase awareness and utilization of antenatal care: While the use of four or more antenatal visits was not significantly affected by distance or survey year, efforts should be made to increase awareness and utilization of antenatal care services to ensure comprehensive maternal health care.

Key Role Players:

– Ministry of Health: Responsible for policy formulation and implementation of strategies to improve maternal health services.
– Local Government Authorities: Responsible for coordinating and implementing health programs at the district level.
– Health Facility Staff: Including doctors, nurses, and midwives who provide maternal health services.
– Community Health Workers: Involved in community outreach and education to promote maternal health care utilization.

Cost Items for Planning Recommendations:

– Infrastructure development: Budget for improving transportation infrastructure, including roads and bridges, to enhance access to hospitals.
– Ambulance services: Allocation of funds for the purchase and maintenance of ambulances to facilitate hospital referrals.
– Human resources: Budget for hiring and training additional health care professionals, including doctors, nurses, and midwives, to ensure adequate staffing at health facilities.
– Basic emergency obstetric care equipment and supplies: Provision of necessary equipment and supplies for basic emergency obstetric care at health facilities.
– Community outreach and education: Allocation of funds for community health workers to conduct awareness campaigns and education programs on maternal health care.

Amandla Obufakazi

The strength of evidence for this abstract is 8 out of 10.
The evidence in the abstract is strong, but there are some areas for improvement. The study used two household surveys covering the same districts in Tanzania, which provides a good basis for comparison. The surveys included a large number of women who had recently given birth, which increases the reliability of the findings. The study also considered various factors such as distance to health facilities and socioeconomic status. However, the abstract could be improved by providing more information on the sampling strategy and statistical analysis methods used. Additionally, it would be helpful to include the specific findings related to the objectives of the study, such as the association between geographical accessibility and uptake of maternity care. Including these details would make the evidence more robust and actionable.

Abstract

We used information from two geo-referenced household surveys covering the same five districts in the south of the United Republic of Tanzania: (i) a census of all 243 612 households in 2007 – primarily designed to evaluate the impact of intermittent preventive treatment with antimalarials on infant survival;24 and (ii) a sample survey in 2013 that assessed the impact of a home-based counselling strategy on neonatal care and survival.25 In both surveys, the study population comprised women who had had a live birth in the 12 months before the survey and reported on uptake of pregnancy and intrapartum care. The study area covers three districts of the Lindi region and two districts of the Mtwara region.26 Most of the residents of these districts are poor and live in mud-walled houses in rural villages. Between 2009 and 2013, two dispensaries in the study area were upgraded to become health centres and 14 new dispensaries were inaugurated. By 2013, the study population was served by 156 dispensaries, 15 health centres and six hospitals within the study area and by another two hospitals just outside the district boundaries. All except four of the 179 health facilities serving the study area in 2013 – i.e. two mission hospitals, one mission dispensary and one private health centre – were public facilities that provided maternal health services free of charge.27 In both 2007 and 2013, all eight hospitals serving the study area provided caesarean sections on a daily 24-hour basis, three of the hospitals had maternity waiting homes and all of the hospitals and seven of the health centres were equipped with ambulances. Ambulance use – e.g. for hospital referral – was, however, severely constrained by shortages of fuel, human resources and funds for repair. Although all except one of the 179 facilities offered delivery care, basic emergency obstetric care was not consistently available in the study area.27–29 The survey methods are described in detail elsewhere.24,25 In brief, we used a modular questionnaire, administered in Swahili, to assess coverage of essential interventions during pregnancy and childbirth. Use of personal digital assistants to collect data facilitated the checking of standard ranges, consistency and completeness at the time of data entry.30 Household wealth was assessed by asking each household head about household assets and housing type. We mapped the study households using a global positioning system. The positions of the relevant health facilities had been recorded in previous surveys. In 2007, we surveyed all 243 612 households in the five study districts. In 2013, however, we sampled 169 324 households, which were selected by following a two-stage sampling survey.25 Using the results of the national 2012 census, in which 247 350 households were recorded in the study area, we first sampled so-called subvillages. This sampling was proportional to the number of households in each subvillage – typically about 80–100. We included all households in the subvillages with fewer than 130 households, but used segmentation for subvillages with more than 131 households. Our main outcomes of interest were uptake of at least four visits for antenatal care, delivery in a health facility and delivery by caesarean section. Using a combination of coordinates and the nearstat command in Stata version 13 (StataCorp. LP, College Station, United States of America), we calculated straight-line distances between each surveyed household and: (i) the nearest antenatal clinic, which could have been in a primary facility or a hospital; (ii) the nearest primary facility offering delivery care; and (iii) the nearest hospital. We did this separately for 2007 and 2013. In the 2007 survey, we attempted to impute the coordinates of households for which no such coordinates were recorded, from the coordinates for neighbouring households. Household wealth quintiles were constructed separately for 2007 and 2013, using principal component analysis.31 All analyses were conducted in Stata version 13. For the 2013 data, we accounted for the different sampling structures of the 2007 and 2013 surveys by weighting subvillages by the inverse chance of being included. The percentages reported for 2013 – but not those reported for 2007 – are therefore weighted values. For both 2007 and 2013, we assessed the effect of: (i) distance to nearest antenatal clinic on uptake of at least four visits for antenatal care; (ii) distance to nearest primary facility on delivery in a primary facility; (iii) distance to nearest hospital on hospital delivery; and (iv) distance to nearest hospital on birth by caesarean section. For the analysis of the effect of distance on delivery in a primary facility, we excluded births where a hospital was the nearest facility. We first used generalized linear models to calculate crude prevalence ratios (cPR) with 95% confidence intervals (CI). We compared the prevalence of each indicator by increasing distance to a primary health facility or hospital and then compared the prevalence of each indicator between 2007 and 2013 within each distance group.32 We adjusted the crude prevalence ratios for potential confounding by the mother’s age, parity, district of residence, education, ethnic group and occupation and her household’s wealth quintile. Using multilevel logistic regression without weighting, we fitted an interaction term between distance to facility and survey year and used the likelihood ratio test to calculate a corresponding P-value. We also used ArcGIS version 9.2 (ESRI, Redlands, USA) to map the absolute increases in facility delivery and caesarean section by administrative ward – as percentages of the live births – between 2007 and 2013. Ethical clearance was obtained from the institutional review boards of Ifakara Health Institute, and the Tanzanian National Institute of Medical Research and the ethics committees of the London School of Hygiene and Tropical Medicine and the Swiss cantons of Basel-Stadt and Basel-Land. The study population was informed about the surveys by the local government authorities and again, one day prior interview, by a sensitizer who used information sheets in the local language. Written consent to participate was obtained from household heads and the women who answered questions about pregnancy and childbirth.

Izinto zokwakha

N/A

Emisha

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

1. Mobile clinics: Implementing mobile clinics that can travel to remote areas and provide maternal health services, including antenatal care and delivery care.

2. Telemedicine: Utilizing telemedicine technology to connect healthcare providers with pregnant women in remote areas, allowing them to receive medical advice and consultations without having to travel long distances.

3. Community health workers: Training and deploying community health workers who can provide basic maternal health services, education, and support in rural areas where healthcare facilities are limited.

4. Maternity waiting homes: Establishing maternity waiting homes near hospitals to accommodate pregnant women who live far away, providing them with a safe place to stay before giving birth and ensuring timely access to healthcare facilities.

5. Transportation support: Improving transportation infrastructure and providing transportation support, such as ambulances or subsidized transportation, to help pregnant women reach healthcare facilities quickly and safely.

6. Health education and awareness campaigns: Conducting targeted health education and awareness campaigns to increase knowledge about the importance of maternal health and encourage women to seek care during pregnancy and childbirth.

7. Strengthening healthcare facilities: Investing in the improvement and expansion of healthcare facilities, particularly in rural areas, to ensure they have the necessary equipment, supplies, and skilled healthcare providers to provide quality maternal health services.

8. Public-private partnerships: Collaborating with private healthcare providers and organizations to expand access to maternal health services, especially in underserved areas.

9. Financial incentives: Introducing financial incentives, such as cash transfers or subsidies, to encourage pregnant women to seek antenatal care and deliver in healthcare facilities.

10. Data-driven decision making: Using data and technology to identify areas with low access to maternal health services and strategically allocate resources to address the gaps.

These innovations can help address the geographical inequalities and improve access to maternal health services in the United Republic of Tanzania.

AI Innovations Description

Based on the information provided, the recommendation to improve access to maternal health in the United Republic of Tanzania is to focus on increasing access to hospital care and caesarean sections for women living in remote areas. While access to primary facilities has improved between 2007 and 2013, access to hospitals and caesarean sections remains low.

To address this issue, the following steps can be taken:

1. Improve transportation infrastructure: Enhance road networks and transportation systems to ensure that women living in remote areas have easier access to hospitals. This could involve building new roads, improving existing ones, and providing reliable transportation options such as ambulances.

2. Increase availability of ambulances: Address the shortages of fuel, human resources, and funds for repair that currently limit the use of ambulances for hospital referrals. Ensure that ambulances are well-maintained, adequately staffed, and properly equipped to handle emergency situations.

3. Strengthen emergency obstetric care: Ensure that basic emergency obstetric care is consistently available in the study area. This may involve training healthcare providers in emergency obstetric procedures, equipping health facilities with necessary supplies and equipment, and establishing referral systems for complicated cases.

4. Raise awareness and education: Conduct awareness campaigns to educate women and their families about the importance of hospital care and caesarean sections for safe childbirth. Address any misconceptions or cultural barriers that may discourage women from seeking hospital care.

5. Monitor and evaluate progress: Continuously monitor and evaluate the impact of these interventions on access to maternal health services. Collect data on the uptake of hospital care, caesarean sections, and other maternal health indicators to assess the effectiveness of the implemented strategies.

By implementing these recommendations, it is expected that access to hospital care and caesarean sections for maternal health in the United Republic of Tanzania will improve, leading to better outcomes for women and their babies.

AI Innovations Methodology

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

1. Strengthening transportation infrastructure: Improve road networks and transportation systems to ensure that pregnant women can easily access healthcare facilities, especially hospitals, in a timely manner.

2. Mobile health clinics: Implement mobile health clinics that can travel to remote areas to provide essential maternal health services, including antenatal care and delivery assistance.

3. Community health workers: Train and deploy community health workers who can provide basic maternal health services, education, and referrals in underserved areas.

4. Telemedicine: Utilize telemedicine technologies to connect pregnant women in remote areas with healthcare professionals who can provide virtual consultations and guidance.

5. Financial incentives: Implement financial incentives, such as cash transfers or subsidies, to encourage pregnant women to seek maternal health services and cover transportation costs.

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

1. Define indicators: Identify key indicators to measure access to maternal health, such as the percentage of pregnant women receiving antenatal care, the percentage of deliveries in healthcare facilities, and the percentage of cesarean sections.

2. Data collection: Collect data on the current status of these indicators in the target area. This can be done through surveys, interviews, or existing data sources.

3. Define simulation scenarios: Develop different scenarios based on the recommendations mentioned above. For example, simulate the impact of improved transportation infrastructure by estimating the reduction in travel time to healthcare facilities.

4. Model development: Use statistical or mathematical models to simulate the impact of each scenario on the defined indicators. This may involve analyzing the relationship between distance to healthcare facilities and utilization rates, and incorporating other factors such as population density and socioeconomic status.

5. Data analysis: Analyze the simulated results to determine the potential impact of each recommendation on improving access to maternal health. Compare the indicators between the baseline scenario and the simulated scenarios to assess the effectiveness of each recommendation.

6. Sensitivity analysis: Conduct sensitivity analysis to assess the robustness of the simulation results by varying key parameters or assumptions.

7. Policy recommendations: Based on the simulation results, provide evidence-based recommendations on which interventions are most likely to have a significant impact on improving access to maternal health.

Umbhali

Dima Health

Statistics:

Citations: 30

Identifiers:

DOI: 10.2471/BLT.17.194126

ISSN: 00429686

Research Areas:

Community Interventions, Health System and Policy, Maternal Access, Maternal and Child Health, Quality of Care, Sexual and Reproductive Health, Social Determinants

Study Countries:

Tanzania

Study Design:

Cross Sectional Study

Study Approach:

Quantitative

Participants Gender:

Female

Yabelana ngalokhu: