Achieving comprehensive childhood immunization: An analysis of obstacles and opportunities in The Gambia

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Study Justification:
– Immunization is a vital component in reducing childhood mortality globally.
– Challenges exist in achieving wide coverage and full immunization, especially in low- and middle-income countries.
– This study aimed to assess immunization coverage and determinants in a semi-rural area in The Gambia.
Study Highlights:
– Immunization coverage for measles was 73%, BCG was 86%, three doses of DTP was 79%, and full immunization by 12 months was 52%.
– Coverage was significantly associated with area of residence and ethnicity, with urban areas and Mandinka ethnicity having the lowest rates of full immunization.
– Despite high coverage of individual vaccines, delivering vaccinations later in the schedule and achieving high coverage of full immunization remain challenges.
Study Recommendations:
– Targeted interventions by the national Expanded Programme of Immunization are needed to address the identified areas for improvement.
– Strategies should focus on improving delivery of vaccinations later in the schedule and increasing coverage of full immunization.
– Efforts should be made to address disparities in immunization coverage based on area of residence and ethnicity.
Key Role Players:
– Government of The Gambia
– National Expanded Programme of Immunization
– Health Ministry
– Health workers
– Community leaders
– Non-governmental organizations (NGOs)
– International partners
Cost Items for Planning Recommendations:
– Training and capacity building for health workers
– Outreach and mobile clinics
– Vaccine procurement and distribution
– Information and education campaigns
– Monitoring and evaluation systems
– Data collection and analysis
– Infrastructure and equipment upgrades
– Community engagement and mobilization activities

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is based on a study conducted in The Gambia, which assessed immunization coverage and determinants of immunization in a semi-rural area. The study included a large sample size of 7363 children and reported coverage rates for measles, BCG, DTP, and full immunization. The study also identified factors associated with lower immunization coverage, such as area of residence and ethnicity. However, the abstract does not provide details on the study design, methodology, or statistical analysis used. To improve the strength of the evidence, the abstract should include more information on the study design, such as whether it was a cross-sectional or longitudinal study, and provide more details on the statistical analysis performed. Additionally, it would be helpful to include information on the limitations of the study and any potential biases that may have influenced the results.

Introduction Immunization is a vital component in the drive to decrease global childhood mortality, yet challenges remain in ensuring wide coverage of immunization and full immunization, particularly in low- and middle-income countries. This study assessed immunization coverage and the determinants of immunization in a semi-rural area in The Gambia.Methods Data were drawn from the Farafenni Health and Demographic Surveillance System. Children born within the surveillance area between January 2000 and December 2010 were included. Main outcomes assessed included measles, BCG and DTP vaccination status and full immunization by 12 months of age as reported on child healthcards. Predictor variables were evaluated based on a literature review and included gender, ethnicity, area of residence, household wealth and mother’s age.Results Of the 7363 children included in the study, immunization coverage was 73% (CI 72-74) for measles, 86% (CI 86-87) for BCG, 79% (CI 78-80) for three doses of DTP and 52% (CI 51-53) for full immunization. Coverage was significantly associated with area of residence and ethnicity, with children in urban areas and of Mandinka ethnicity being least likely to be fully immunized.Conclusions Despite high levels of coverage of many individual vaccines, delivery of vaccinations later in the schedule and achieving high coverage of full immunization remain challenges, even in a country with a committed childhood immunization programme, such as The Gambia. Our data indicate areas for targeted interventions by the national Expanded Programme of Immunization. © The Author 2013.

The Government is the major provider of health care in The Gambia. Primary health care (PHC) is delivered via the PHC strategy, adopted in 1979 to ‘make healthcare more accessible and affordable to the majority of Gambians’ (Government of The Gambia 2007), with a particular focus on rural settlements with a population of more than 400. As part of the PHC strategy, these rural areas have been served by volunteer village health workers and traditional birth attendants (TBAs) since the 1980s. Maternal and Child Health (MCH) services have also been a core part of the PHC strategy as it began including outreach services. MCH services are delivered via both static and mobile health clinics with the core objectives to maintain high immunization coverage levels, decrease maternal deaths and improve child nutrition. Before 2009, a 5 Dalasi fee (about US$0.17) was charged for a child healthcard and then all subsequent care was free but now vaccinations, along with all health care for children under five, are free of charge. This study was carried out in the North Bank East Health Region of The Gambia, within the Farafenni Health and Demographic Surveillance System (FHDSS). The FHDSS was established in 1981, initially including only the rural villages surrounding Farafenni town but has since expanded and the surveillance area now comprises 42 rural villages, the town of Farafenni and the area within a 5-km radius of the town (designated the ‘peri-urban’ area). There is one static MCH clinic in the region based in Farafenni town running six MCH sessions per month. There are three mobile clinics held monthly in the surrounding villages. All villages in the region are within 3 km of a mobile clinic and women mostly walk or use donkey carts to reach there (North Bank East Health Region Public Health Officer, personal communication). The population covered by the FHDSS was ∼44 000 as of June 2007, made up of three main ethnic groups: Fula (21%), Mandinka (34%) and Wolof (38%). It is predominantly young, with an average age of 22 years and has a high level of fertility with almost half of all women being in the reproductive age bracket (15–49 years). The study area is relatively poor; most houses are constructed of mud brick and only 3% of the rural and 45% of the urban population have electricity. The study area and population under surveillance are described in more detail elsewhere (MRC 2004). Data for this study were drawn from the FHDSS. Demographic and immunization data are collected during 4-monthly rounds whereby every household is visited and details of every individual in the household updated, including new members (through birth or entry into the surveillance area). Full details of the FHDSS process and procedures are documented elsewhere (MRC 2004). For this analysis, a snapshot of the FHDSS was taken after update round 62, which occurred between 1 September 2010 and 31 December 2010. Data on the immunization status of children under 5 years of age have been collected routinely since 2005 as part of the standard FHDSS process. Data on the immunization status of children born before 2005 were entered retrospectively during a survey in 2005 which covered children aged five or under at the time. All children born after 1 January 2000 who had reached 1 year of age by the final data collection round, and for whom immunization data had been collected, were included in the analysis. In the analysis, immunization status was interpreted as ‘immunized’ for all those who had a vaccination date recorded and ‘not immunized’ for all children who had no vaccination date recorded in the FHDSS. In the majority of cases (98%), immunization data were captured from the child healthcard. If no healthcard was available (2% of children in our analysis), immunization data were based on caregiver’s recall. Socio-economic details including household head’s occupation, ownership of assets, water supply, toilet facilities, main materials of walls, roof and floor of accommodation, access to electricity and income were elicited through interviewer-administered questionnaires as part of a household survey conducted across the surveillance area between April and June 2007. For this analysis, a wealth index was created using principal components analysis (PCA), based on the ownership of the individual assets included in the household survey (radio; TV; telephone; refrigerator; iron or wooden bed; cart; bicycle; motorbike or scooter; car, truck or tractor) and publicly provided resources, such as electricity, water and toilet facilities. A similar approach in measuring wealth has been used by others (Gwatkin et al. 2000). For all analyses, the primary outcome of interest was coverage of immunization. Immunization coverage was calculated as: Coverage was calculated for the individual vaccinations listed in Figure 1 and for full immunization at 1 year (defined as receiving BCG, three doses of OPV, three doses of DTP and one dose of measles vaccine by 1 year of age). This is the definition of full immunization used in the national MICS in the Gambia and therefore was used here to enable comparison. Vaccinations selected as measures of immunization coverage. In addition, the proportions of children who received more than half of the 16 recommended vaccine doses in the national schedule, and the proportion who received all 16, were calculated to further assess programme performance. The outcome measures chosen for the analysis of possible factors influencing immunization were: Variables that might affect immunization coverage, therefore of interest in this study, were selected from a review of the relevant literature. These variables are listed in Figure 2. Predictor variables selected for regression analysis. Immunization coverage, with 95% confidence intervals, was calculated for the total population over the whole time period 2000–9 and stratified by area of residence. Multiple logistic regression analysis was carried out on the set of individuals for which observations were available for all predictor variables. Results were adjusted for year of birth to account for any variations in coverage over time. Correlation between predictor variables was also tested for. Predictor variables for inclusion in the multiple regression models were first tested individually for significance of the relationship with each outcome variable using univariable logistic regression (i.e. unadjusted analyses). Those resulting in P-value <0.25 were included in an adjusted analysis, as recommended by Hosmer and Lemeshow (2000). The variables ‘mother’s age’ and ‘sex of the child’ did not meet this significance level and were not included in the final model. The Hosmer and Lemeshow goodness-of-fit test was used to check the fit of the final model. The software package STATA 10 (StataCorp 2007) was used for all statistical analysis.

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

1. Mobile Clinics: Increase the number of mobile clinics in rural areas to provide maternal and child health services, including immunizations. This would make healthcare more accessible to those living in remote areas.

2. Community Health Workers: Train and deploy more community health workers to provide education, counseling, and support to pregnant women and new mothers. These workers can also assist with immunizations and ensure that women receive the necessary care during pregnancy and after childbirth.

3. Telemedicine: Implement telemedicine programs to connect healthcare providers with pregnant women in remote areas. This would allow for virtual consultations, monitoring, and guidance, reducing the need for women to travel long distances for prenatal care.

4. Health Education Campaigns: Launch targeted health education campaigns to raise awareness about the importance of immunizations and maternal health. This could include community workshops, radio broadcasts, and informational materials in local languages.

5. Financial Incentives: Provide financial incentives, such as transportation vouchers or cash transfers, to encourage pregnant women to seek prenatal care and immunizations. This would help overcome financial barriers that may prevent women from accessing healthcare services.

6. Partnerships with Traditional Birth Attendants: Collaborate with traditional birth attendants to improve their knowledge and skills in maternal health and immunizations. This would ensure that women who prefer to give birth at home still receive essential care and immunizations for themselves and their babies.

7. Strengthen Supply Chain Management: Improve the availability and accessibility of vaccines and other essential maternal health supplies in rural areas. This could involve establishing reliable transportation systems and implementing effective inventory management systems.

These innovations have the potential to address the challenges identified in the study and improve access to maternal health services, including immunizations, in The Gambia.
AI Innovations Description
Based on the information provided, the following recommendation can be developed into an innovation to improve access to maternal health:

1. Strengthening the Primary Health Care (PHC) Strategy: The government should focus on strengthening the PHC strategy by improving the accessibility and affordability of maternal and child health services. This can be done by increasing the number of static and mobile health clinics in rural areas, particularly in areas with low immunization coverage. The government should also ensure that these clinics are well-equipped and staffed with trained healthcare professionals.

2. Community Engagement and Education: Implement community engagement and education programs to raise awareness about the importance of maternal health and immunization. This can be done through community meetings, workshops, and the involvement of local leaders and influencers. The programs should focus on dispelling myths and misconceptions about immunization and promoting the benefits of timely vaccinations for both mothers and children.

3. Mobile Health Technology: Utilize mobile health technology to improve access to maternal health services. This can include the development of mobile applications or SMS-based systems that provide information on immunization schedules, reminders for vaccination appointments, and access to teleconsultations with healthcare professionals. This innovation can help overcome geographical barriers and reach remote areas with limited healthcare facilities.

4. Financial Support: Provide financial support to families, especially those from low-income backgrounds, to ensure that cost is not a barrier to accessing maternal health services. This can be done through the expansion of existing government programs that provide financial assistance for healthcare, such as cash transfer programs or health insurance schemes.

5. Strengthening Data Collection and Monitoring: Improve data collection and monitoring systems to track immunization coverage and identify areas with low coverage. This can help in targeting interventions and resources to areas that need them the most. The use of electronic health records and data analytics can facilitate real-time monitoring and evaluation of immunization programs.

By implementing these recommendations, the government can develop innovative solutions to improve access to maternal health and increase immunization coverage, ultimately reducing maternal and child mortality rates.
AI Innovations Methodology
Based on the provided information, here are some potential recommendations to improve access to maternal health:

1. Strengthening the Primary Health Care (PHC) Strategy: The government can invest in improving the PHC strategy by increasing the number of volunteer village health workers and traditional birth attendants (TBAs) in rural areas. This would help in providing essential maternal and child health services to remote communities.

2. Enhancing Outreach Services: The government can focus on expanding outreach services for maternal and child health. This can include increasing the frequency of mobile health clinics in rural areas and ensuring that they are easily accessible to the population. Additionally, efforts can be made to improve transportation options for pregnant women to reach these clinics.

3. Addressing Financial Barriers: Although vaccinations are now provided free of charge, there may still be other financial barriers that prevent women from accessing maternal health services. The government can explore options to further reduce financial burdens, such as providing subsidies for transportation or offering incentives for attending antenatal and postnatal care visits.

4. Community Engagement and Education: Promoting community engagement and education can play a crucial role in improving access to maternal health. The government can collaborate with local community leaders, NGOs, and healthcare providers to conduct awareness campaigns, workshops, and training sessions on the importance of maternal health and the available services.

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

1. Data Collection: Gather data on the current state of maternal health access, including information on immunization coverage, utilization of maternal health services, and barriers faced by women in accessing care.

2. Define Indicators: Identify specific indicators that can measure the impact of the recommendations, such as changes in immunization coverage rates, utilization of antenatal and postnatal care services, and reduction in maternal mortality rates.

3. Baseline Assessment: Establish a baseline for the selected indicators by analyzing the available data. This will provide a starting point for comparison after implementing the recommendations.

4. Intervention Implementation: Implement the recommended interventions, such as strengthening the PHC strategy, enhancing outreach services, addressing financial barriers, and promoting community engagement and education.

5. Monitoring and Evaluation: Continuously monitor the progress and impact of the interventions by collecting data on the selected indicators. This can be done through surveys, interviews, and health facility records.

6. Data Analysis: Analyze the collected data to assess the impact of the interventions on improving access to maternal health. Compare the post-intervention data with the baseline data to determine the effectiveness of the recommendations.

7. Reporting and Recommendations: Prepare a comprehensive report summarizing the findings and recommendations based on the simulation results. This report can be used to guide future decision-making and resource allocation for improving access to maternal health.

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