Factors affecting uptake of optimal doses of sulphadoxine-pyrimethamine for intermittent preventive treatment of malaria in pregnancy in six districts of Tanzania

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Study Justification:
This study aims to assess the extent and predictors of uptake of optimal doses of sulphadoxine-pyrimethamine (SP) for intermittent preventive treatment of malaria in pregnancy (IPTp) in six districts of Tanzania. The justification for this study is to understand the factors that affect the uptake of optimal doses of IPTp-SP in order to improve malaria control during pregnancy and reduce adverse outcomes for pregnant women.
Highlights:
– 43.6% of women received optimal (two+) doses of IPTp-SP during pregnancy, while 28.5% received partial (one) dose.
– Counseling on the dangers of malaria during pregnancy was the most influential factor for both optimal and partial uptake of IPTp-SP.
– Early initiation of antenatal care (ANC) was associated with a higher likelihood of optimal IPTp-SP uptake.
– Women with secondary or higher education were more likely to receive optimal doses of SP during pregnancy.
– Being married was associated with a lower likelihood of partial IPTp-SP uptake.
– There were variations in IPTp-SP uptake between districts.
Recommendations:
– Promote counseling to pregnant women on the dangers of malaria during pregnancy.
– Encourage early initiation of ANC to improve coverage of optimal IPTp-SP doses.
– Focus on providing education beyond primary school to enhance uptake of optimal SP doses.
– Address geographical barriers to improve coverage of IPTp-SP in Tanzania.
Key Role Players:
– Ministry of Health and Social Welfare
– District health managers
– Health educators and counselors
– Antenatal care providers
– Community health workers
Cost Items for Planning Recommendations:
– Training and capacity building for health managers and providers
– Development and dissemination of educational materials on malaria in pregnancy
– Outreach and awareness campaigns
– Monitoring and evaluation activities
– Transportation and logistics for reaching remote areas
– Data collection and analysis tools and software

The strength of evidence for this abstract is 8 out of 10.
The evidence in the abstract is strong as it presents findings from a cross-sectional survey conducted in six districts of Tanzania. The study analyzes the factors affecting the uptake of optimal doses of sulphadoxine-pyrimethamine (SP) for intermittent preventive treatment of malaria in pregnancy. The analysis includes multivariate regression and provides relative risk ratios (RRR) with corresponding confidence intervals (CI). The study concludes with actionable steps to improve uptake, such as promoting counseling on the dangers of malaria during pregnancy and early initiation of antenatal care (ANC). However, the abstract could be improved by providing more specific details about the survey methodology, such as the sampling strategy and response rate.

Background: Intermittent preventive treatment during pregnancy (IPTp) with optimal doses (two+) of sulphadoxine-pyrimethamine (SP) protects pregnant women from malaria-related adverse outcomes. This study assesses the extent and predictors of uptake of optimal doses of IPTp-SP in six districts of Tanzania. Methods. The data come from a cross-sectional survey of random households conducted in six districts in Tanzania in 2012. A total of 1,267 women, with children aged less than two years and who had sought antenatal care (ANC) at least once during pregnancy, were selected for the current analysis. Data analysis involved the use of Chi-Square (χ§ssup§2§esup§) for associations and multivariate analysis was performed using multinomial logistic regression. Results: Overall, 43.6% and 28.5% of the women received optimal (two+) and partial (one) doses of IPTp-SP respectively during pregnancy. Having had been counseled on the dangers of malaria during pregnancy was the most pervasive determinant of both optimal (RRR = 6.47, 95% CI 4.66-8.97) and partial (RRR = 4.24, 95% CI 3.00-6.00) uptake of IPTp-SP doses. Early ANC initiation was associated with a higher likelihood of uptake of optimal doses of IPTp-SP (RRR = 2.05, 95% CI 1.18-3.57). Also, women with secondary or higher education were almost twice as likely as those who had never been to school to have received optimal SP doses during pregnancy (RRR = 1.93, 95% CI 1.04-3.56). Being married was associated with a 60% decline in the partial uptake of IPTp-SP (RRR = 0.40, 95% CI 0.17-0.96). Inter-district variations in the uptake of both optimal and partial IPTp-SP doses existed (P < 0.05). Conclusion: Counseling to pregnant women on the dangers of malaria in pregnancy and formal education beyond primary school is important to enhance uptake of optimal doses of SP for malaria control in pregnancy in Tanzania. ANC initiation in the first trimester should be promoted to enhance coverage of optimal doses of IPTp-SP. Programmes should aim to curb geographical barriers due to place of residence to enhance optimal coverage of IPTp-SP in Tanzania. © 2014 Exavery et al.; licensee BioMed Central Ltd.

The data for this study were collected in 2012 in six Tanzanian rural districts namely Geita, Kahama, Kondoa, Mbozi, Singida and Sumbawanga. The geographical locations of the districts, which are all malaria endemic, represent three of eight health zones as described by the Tanzania Ministry of Health and Social Welfare. The data were collected as part of a large cross-sectional household survey to serve baseline purposes for the Empower II Project implemented by the Ifakara Health Institute, in Tanzania. The project seeks to improve maternal, newborn and child health (MNCH) services for women of reproductive age and children aged less than five years in the stud area. It implements MNCH proven interventions to demonstrate how best such interventions can be scaled up across the country. Under the maternal component it helps to build capacity of district health managers to effectively deliver maternal health services in the continuum of care including malaria during pregnancy. Data collection tools were quantitative and there were field interviewers to interview each of the respondents sampled. Sampling for the survey was random and was implemented using probability proportionate to size (PPS). This method is used when sampling units (e.g. districts, villages, etc.) are of different sizes in order to ensure that the resulting sample is representative of each unit. Data entry was done in Microsoft Office Access and latter transferred in STATA statistical software for cleaning and analysis. Women who had children below the age of two years at the time of the survey and had sought ANC at least once during pregnancy were selected from the main database for the current analysis. Having sought ANC at least once was considered an important criterion because questions pertaining to MiP and IPTp were administered to women who did so. The dependent or outcome variable for this study was uptake of IPTp-SP. This was defined as the extent of SP utilization for malaria control during pregnancy and was derived from the question “During pregnancy of (NAME OF CHILD), did you use drugs (SP) to prevent malaria?” If yes, “how many times?” Responses were grouped in three categories such that: Independent variables included maternal age, marital status, maternal education, maternal occupation and district of residence. Others were whether a woman was counseled on the dangers of malaria during pregnancy, number of ANC visits made, timing of ANC initiation, and pregnancy intentions. The data were analysed both descriptively and analytically using standard methods of applied statistics in public health. Frequency distribution (one-way tabulations) of participants across background characteristics was performed first, then bivariate analysis was conducted, in which the outcome variable, IPTp-SP uptake, was cross-tabulated against each of the independent variables. The degree of association between each pair of variables was tested using Pearson’s Chi-Square (χ2) because all variables were categorical. In this process, the degree of IPTp-SP uptake was compared across categories of each of the independent variables. Where the test of association between the outcome and each of the independent variables showed a P-value of 5% or less, the null hypothesis of no association between the variables was rejected and consequently concluded that they were significantly associated, otherwise no association was deduced. The data were finally subjected to regression analysis using multinomial logistic regresion in a multivariable way. This was to ensure that variables were adjusted for one another to obtain independent predictors of the IPTp-SP uptake. The category ‘none’ of the outcome variable was made a baseline/pivot outcome thus assessing what predicts partial, and complete receipt of IPTp-SP doses. Selection of independent variables for the multivariate models relied on each one’s ability to improve the overall model. This was achieved through the use of log-likelihood ratio test. From the model outputs, relative risk ratios (RRR), their corresponding 95% confidence intervals (CI) and P-values were all presented. Significance level was set at 5%. The whole process of data analysis was conducted using STATA (version 11) statistical software. The primary study was approved by the Medical Research Coordinating Committee (MRCC) of the National Institute for Medical Research (NIMR) in Tanzania. During data collection, participation was voluntary, with potential respondents having to sign an informed consent form first. The interviewer read, and explained the content of the consent form to the potential respondent. The respondent was also free to read the consent form by herself and ask for clarifications concerning any aspect of the content. Then an interview followed only if the respondent agreed and signed the consent form to take part in the survey. The data were managed carefully and remained anonymous throughout.

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

1. Mobile Health (mHealth) Applications: Develop mobile applications that provide information and reminders about the importance of optimal doses of sulphadoxine-pyrimethamine (SP) for intermittent preventive treatment of malaria in pregnancy. These apps can also track ANC visits and send notifications to pregnant women about when to take SP doses.

2. Community Health Workers: Train and deploy community health workers to provide counseling on the dangers of malaria during pregnancy and the importance of taking optimal doses of SP. These workers can also distribute SP doses and provide follow-up support to pregnant women.

3. Education Campaigns: Implement targeted education campaigns to raise awareness among pregnant women about the benefits of optimal doses of SP for malaria prevention during pregnancy. These campaigns can use various channels such as radio, television, and community meetings to reach a wide audience.

4. Early ANC Initiation Promotion: Develop strategies to promote early initiation of ANC visits among pregnant women. This can include community outreach programs, incentives for early ANC attendance, and improved access to ANC services in remote areas.

5. Addressing Geographical Barriers: Implement interventions to address geographical barriers that may hinder access to optimal doses of SP. This can involve improving transportation infrastructure, establishing mobile clinics in remote areas, and providing incentives for pregnant women to travel to ANC clinics.

6. Strengthening Health Systems: Invest in strengthening the overall health system, including ANC services, to ensure that pregnant women have access to quality care and adequate supplies of SP. This can involve training healthcare providers, improving supply chain management, and upgrading healthcare facilities.

It is important to note that these recommendations are based on the specific context of the study in Tanzania. The implementation of these innovations should be tailored to the local context and consider the specific needs and challenges of the target population.
AI Innovations Description
Based on the information provided, the recommendation to improve access to maternal health would be to focus on the following strategies:

1. Increase counseling on the dangers of malaria during pregnancy: The study found that women who had been counseled on the dangers of malaria during pregnancy were more likely to receive optimal doses of IPTp-SP. Therefore, it is important to prioritize counseling services during antenatal care visits to educate pregnant women about the risks of malaria and the importance of preventive measures.

2. Promote early initiation of antenatal care (ANC): The study also found that early ANC initiation was associated with a higher likelihood of receiving optimal doses of IPTp-SP. Encouraging pregnant women to seek ANC services early in their pregnancy can help ensure that they receive the necessary interventions, including IPTp-SP, in a timely manner.

3. Improve access to education: Women with secondary or higher education were more likely to receive optimal doses of IPTp-SP compared to those who had never been to school. Therefore, efforts should be made to improve access to education for women, as education can empower them to make informed decisions about their health and seek appropriate maternal health services.

4. Address geographical barriers: The study found inter-district variations in the uptake of IPTp-SP doses. To enhance optimal coverage of IPTp-SP, it is important to address geographical barriers that may hinder access to maternal health services. This could involve improving transportation infrastructure, increasing the availability of health facilities in remote areas, and implementing mobile health services to reach underserved populations.

By implementing these recommendations, it is possible to improve access to maternal health and increase the uptake of optimal doses of IPTp-SP, ultimately reducing the burden of malaria-related adverse outcomes during pregnancy in Tanzania.
AI Innovations Methodology
To improve access to maternal health, here are some potential recommendations:

1. Strengthening ANC services: Enhance the quality and availability of antenatal care (ANC) services, including increasing the number of ANC visits and ensuring early initiation of ANC.

2. Education and counseling: Provide comprehensive education and counseling to pregnant women about the dangers of malaria during pregnancy and the importance of taking optimal doses of sulphadoxine-pyrimethamine (SP) for malaria prevention.

3. Community engagement: Engage with local communities to raise awareness about maternal health and the benefits of IPTp-SP. This can be done through community health workers, community meetings, and other outreach programs.

4. Health system strengthening: Improve the capacity and resources of health facilities to deliver maternal health services, including the availability of SP and other essential medicines.

5. Addressing geographical barriers: Develop strategies to overcome geographical barriers, such as improving transportation infrastructure and providing mobile health services in remote areas.

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 the impact of the recommendations, such as the percentage of pregnant women receiving optimal doses of IPTp-SP, ANC attendance rates, and maternal health outcomes.

2. Data collection: Collect baseline data on the current status of access to maternal health services, including IPTp-SP uptake, ANC attendance, and maternal health outcomes. This can be done through surveys, interviews, and analysis of existing data sources.

3. Modeling and simulation: Use statistical modeling techniques to simulate the potential impact of the recommendations on access to maternal health. This can involve creating a mathematical model that incorporates various factors, such as the population size, geographical distribution, and effectiveness of the recommendations.

4. Sensitivity analysis: Conduct sensitivity analysis to assess the robustness of the results and explore different scenarios. This can involve varying the input parameters and assumptions to understand the potential range of outcomes.

5. Evaluation and monitoring: Continuously monitor and evaluate the implementation of the recommendations and compare the simulated results with the actual outcomes. This will help identify any discrepancies and inform adjustments to the recommendations if needed.

By following this methodology, policymakers and stakeholders can assess the potential impact of different interventions and make informed decisions to improve access to maternal health.

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