Service delivery reform for maternal and newborn health in Kakamega County, Kenya: study protocol for a prospective impact evaluation and implementation science study

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Study Justification:
– Maternal and neonatal mortality rates in low and middle income countries are still high, and progress towards the Sustainable Development Goals is slow.
– Existing strategies have not been effective in reducing maternal and neonatal mortality.
– The proposed alternative strategy, Service Delivery Redesign for Maternal and Neonatal Health (SDR), aims to strengthen higher level health facilities to provide rapid and definitive care for delivery and postnatal complications.
– SDR has not been piloted or evaluated yet.
Highlights:
– The study will evaluate the effectiveness and implementation of SDR in Kakamega County, Kenya.
– It will use a prospective, non-randomized stepped-wedge design.
– The impact evaluation will focus on maternal and newborn health outcomes, while the implementation evaluation will focus on program reach, adoption, and fidelity.
– The study will assess the impact of SDR on maternal and newborn health, patient satisfaction, quality of care, out-of-pocket expenditures, and utilization of care.
– It will also measure the implementation fidelity and reach, identify obstacles and facilitating factors, and measure unintended consequences of the SDR policy on health system functioning.
Recommendations:
– Implement and scale up the Service Delivery Redesign for Maternal and Neonatal Health in Kakamega County, Kenya.
– Strengthen higher level health facilities to provide rapid and definitive care for delivery and postnatal complications.
– Promote delivery in designated delivery hub hospitals rather than primary care facilities.
– Improve infrastructure, equipment, and staffing in delivery hub hospitals.
– Provide emergency transport for pregnant women to overcome the distance barrier.
– Conduct media campaigns and public outreach meetings to communicate the policy change regarding place of delivery.
Key Role Players:
– County Department of Health
– Non-governmental organization (NGO) Jacaranda Health
– NGO Rescue.co (for emergency transport)
– Bill and Melinda Gates Foundation
Cost Items for Planning Recommendations:
– Strengthening of delivery hub hospitals (improvements to infrastructure and equipment, additional staffing)
– Emergency transport for pregnant women
– Media campaigns and public outreach meetings
– Training and capacity building for health workers
– Monitoring and evaluation activities
– Research team and data collection expenses

The strength of evidence for this abstract is 8 out of 10.
The evidence in the abstract is strong because it describes a well-designed study protocol for evaluating the effectiveness and implementation of a service delivery reform for maternal and newborn health in Kakamega County, Kenya. The study uses a prospective, non-randomized stepped-wedge design and includes multiple data collection methods such as surveys, observations, and facility audits. The study aims to measure maternal and newborn health outcomes, patient satisfaction, quality of care, out-of-pocket expenditures, and utilization of care. The abstract provides detailed information about the study design, sample size calculations, and analysis methods. To improve the evidence, the abstract could include more information about the potential limitations of the study and how they will be addressed.

Background: Maternal and neonatal mortality remain elevated in low and middle income countries, and progress is slower than needed to achieve the Sustainable Development Goals. Existing strategies appear to be insufficient. One proposed alternative strategy, Service Delivery Redesign for Maternal and Neonatal Health (SDR), centers on strengthening higher level health facilities to provide rapid, definitive care in case of delivery and post-natal complications, and then promoting delivery in these hospitals, rather than in primary care facilities. However to date, SDR has not been piloted or evaluated. Methods: We will use a prospective, non-randomized stepped-wedge design to evaluate the effectiveness and implementation of Service Delivery Redesign for Maternal and Neonatal Health in Kakamega County, Kenya. Discussion: This protocol describes a hybrid effectiveness/implementation evaluation study with an adaptive design. The impact evaluation (“effectiveness”) study focuses on maternal and newborn health outcomes, and will be accompanied by an implementation evaluation focused on program reach, adoption, and fidelity.

Kakamega County is located in Kenya’s Western Region, approximately 50 km from the Lake Victoria port of Kisumu. With a population of approximately 1.9 million, the county’s maternal mortality rate was 316 per 100,000 live births and the neonatal mortality rate was 19 per 1,000 live births in 2014, when the most recent data is available [12]. There were approximately 70,000 births in the county in 2018; 35% of which occurred at home, 28% in primary care facilities (dispensaries (Level 2) and health centers (Level 3)) and 37% in hospitals (Level 4 and 5 facilities) [13]. There are 205 government health facilities in the county, 10 of which are Level 4 hospitals. Maternal and newborn care is free in most public health facilities throughout Kenya via the “Linda Mama” program; additionally, Kakamega County introduced a conditional cash transfer program (“OparanyaCare”) for antenatal, delivery, postnatal care and immunizations to poor and vulnerable women. SDR for maternal and newborn health is a multi-component health system reform. In Kakamega, SDR is being implemented by the County Department of Health, with support from the non-governmental organization (NGO) Jacaranda Health. Financing is from the County government and is supplemented by the Bill and Melinda Gates Foundation. An initial feasibility assessment study examined the existing capacity, facility accessibility, political will and potential benefits of SDR in Kakamega County [13]. Based on this assessment, the County identified several components for a health system reform. First, it selected ten hospitals to serve as delivery hubs across the county. These were all public facilities; typically sub-county hospitals (level 4 hospitals in the Kenyan system). Before the intervention, the delivery hubs all conducted 1,000 or more deliveries per year, but not all had comprehensive emergency capabilities. The first component of SDR is a preparation phase, in which delivery hubs are strengthened (Fig. 1) and prepared for the higher patient volumes that will result from the SDR policy change of encouraging delivery at delivery hubs. This includes deployment of additional staffing, as well as improvements to infrastructure and equipment. For example, designated delivery hub hospitals in Kakamega are scheduled to be staffed with additional nurses, doctors, and specialists: In addition to their pre-existing complement of medical officers, the current plan is for each delivery hub in Kakamega to have a surgeon, a pediatrician, an obstetrician-gynecologist, and a specialist medical officer posted to the facility to bolster delivery care. Service Delivery Redesign Theory of Change On the infrastructure side, each delivery hub will have operating theaters built or improved, maternity wards expanded, and newborn units built or expanded. Facility capacity to deliver blood transfusions will also be augmented. Delivery hubs are further from most women’s homes than local clinics; traveling greater distances to deliver can be difficult, especially at night. In Kakamega’s SDR reform, this issue will be addressed with the participation of the NGO Rescue.co, who contracts with private transport providers to provide emergency transport for pregnant women. When delivery hubs are upgraded to a level that will enable higher patient volumes and improved quality of care, and complementary interventions such as emergency transport and facility financing reforms are in place, the government of Kakamega plans to communicate to all health workers, and all health system users, that policy regarding place of delivery has changed, and women are now expected to deliver at designated delivery hub hospitals. To this end, the last component of the intervention is this public communication element, which will be undertaken through media campaigns and public outreach meetings, as well as direct communication from health workers to antenatal care (ANC) clients. The main research question of the impact evaluation (effectiveness) component of this study is the impact of SDR in Kakamega County on maternal and newborn health, measured using a composite indicator of maternal and newborn health. The secondary research question examines the impact of SDR on patient satisfaction and perceived quality of care, maternal complications, out-of-pocket (OOP) expenditures, and utilization of care. The main research objective for the implementation component of the evaluation will be to measure the implementation fidelity and reach, identify key obstacles to successful implementation as well as facilitating factors, and measure possible unintended consequences of SDR policy on health system functioning. This protocol describes two study designs for the impact evaluation component of the SDR evaluation: the first is a multi-phase stepped wedge design, for the planned situation in which SDR is progressively scaled up across all of Kakamega County’s sub-counties in three phases. However, due to the multi-year, complex nature of the SDR intervention, we also pre-specify a smaller scale, nested “phase 1” study design which will be carried out for two reasons. First, a study based on phase 1 will be conducted to track a set of implementation indicators in order to assess policy implementation. As a pragmatic, real world health system evaluation, findings about implementation and take-up from this first phase can be used strengthen phase 2 and phase 3 implementation. Second, in the event that only the first phase of the reform is fully implemented, the full set of outcomes will be analyzed after phase 1 using a difference-in-difference design. In the sections below we first discuss the full SDR reform impact evaluation (“effectiveness evaluation”), and then discuss the phase 1 sub-study. Then, we discuss the implementation science component of the study. This study will use a prospective, observational stepped wedge design. Kakamega County is planning to implement a phased rollout of SDR by sub-county, in three phases. Kakamega has 12 sub-counties: the reform will be implemented first (starting in 2022) in a group of 3 sub-counties. After a period of implementation in these “phase 1” sub-counties, a second set of 4 sub-counties will implement the reform. After another period of implementation in these phase 2 sub-counties, a final set of 5 sub-counties will implement the reform (Fig. 2). This phased approach parallels the structure of a stepped wedge trial in that delivery and post-delivery outcomes for mothers and newborns can be compared within each group of sub-counties that implement SDR in the same implementation phase before and after the roll-out, as well as across counties in the same phase of rollout. Analytically, the analysis is also similar to that of a stepped wedge cluster randomized trial; the difference is that the order in which the clusters are exposed to treatment was decided not via randomization, but was decided by Kakamega County policymakers. Phases of Service Delivery Redesign implementation by sub-county in Kakamega County (Source: authors) While noting the planned three phase design, we also have included an adaptive element to the evaluation study, due to the complex nature of the intervention: SDR is a multi-element, health systems intervention, requiring significant investment in infrastructure, human resources, and equipment. Furthermore, much of the investment is being executed using the county’s public budget (in addition to contributions from the Gates Foundation). Given the public component of SDR spending and implementation through public sector institutions, the research team cannot fully anticipate the timing of the various elements of the stepped wedge design. Therefore in this trial we specify a secondary, interim design which leverages the first phase of SDR, described further below. Embedded within the planned stepped wedge design is a difference-in-difference interim study design with the intervention occurring in phase 1 sub-counties (equivalent to the first “step” or wedge in the planned stepped wedge sequence). This multi-stage design will enable the research team to evaluate interim results of the reform after phase 1. The design will also enable a full evaluation to be conducted even in the event that only one phase of the policy is implemented. In the event that the reform is only implemented in phase 1 subcounties, the research team will conduct an interim study after phase 1 implementation is completed, while also conducting a difference-in-difference study comparing outcomes in phase 1 subcounties to phases 2 and 3 subcounties over the full two year evaluation period. The research team has begun to enroll study participants from a sample of 72 facilities which provide ANC across all 12 sub-counties of Kakamega (enrollment started in February 2022) (Fig. 3). The selected facilities were stratified by sub-county and randomly selected proportional to volume of antenatal care visits, excluding facilities located within Kakamega Town (defined as three most densely populated wards in the vicinity of Kakamega Town). Sampled facilities were divided evenly between those in the three Phase 1 intervention sub-counties (36 facilities) and the other nine sub-counties (36 facilities). All private facilities were excluded, as the main SDR intervention components are not planned to take place in these facilities. Finally, facilities with the extremely low ANC volumes ( 1 h, high fever with chills and foul-smelling discharge, blood transfusion, hysterectomy, intensive care unit admission, mechanical ventilation, or hospital stay of > 7 days. Gaps in access and outcomes by education, proximity to delivery hubs, and household socio-economic status will be compared for the satisfaction, utilization, and cost outcomes described above in implementation sub-counties versus control sub-counties. For the implementation science component of the study we will measure coverage, adoption, and fidelity of SDR implementation using survey, administrative, and program data on activities and outputs. We will track indicators on program reach (e.g. percentage of primary care clinics where women are routinely advised to deliver at delivery hubs; percentage of women who report being advise to deliver in delivery hubs); adoption (e.g. percentage of women delivering at delivery hubs; percentage of delivering at health centers; labor and delivery quality of care; ANC and PNC utilization and quality; C-section rate); and intervention fidelity (maternity ward and newborn unit expansions in delivery hub hospitals; specialist physician and nurse staffing levels; maternity and newborn staff knowledge levels; availability of critical inputs such as blood for transfusions). Given the size and scope of the policy reform, it is likely that SDR will affect the health system in indirect ways, beyond the hypothesized effects on maternal and newborn health services. Complex system-level reforms can have both positive and negative broader systemic effects. Therefore we will measure potential system-level effects of SDR as secondary implementation outcomes (Table ​(Table11). Implementation evaluation indicators MNCH: Maternal, Newborn and child health, HIV: Human Immunodeficiency virus, TB: Tuberculosis For the impact evaluation evaluation component, we performed simulation-based power calculations for the composite outcome in the stepped wedge evaluation design to determine the number of facilities to sample. We excluded private facilities, facilities in Kakamega town, and facilities with less than or equal to 6 first antenatal care visits per month. There were 94 facilities in control sub-counties and 59 in treated sub-counties. We assumed that the baseline composite outcome was 0.0406. Given that direct observation of the primary composite health outcome was not available at baseline, we estimated it using three strategies and selected the most conservative estimate (40.6 events per 1000 births) based on a prospective cohort study of maternal death, stillbirth and neonatal deaths with a site in Western Region of Kenya encompassing 31,118 births [17]. We then generated outcome data across Kakamega’s health facilities by: where k indicates sub-county, Y is composite outcome occurrence for delivery i in for a women living in sub-county k and trt takes value 1 or 0 depending on if the cluster is receiving the intervention during that phase. We also include a random intercept γ0k for each sub-county drawn from a normal distribution with standard deviation 0.20, which was based on an assessment of expected variation in composite outcome rates between sub-counties. To determine the appropriate number of facilities to sample, we calculated the power varying the number of facilities sampled from the treated and control sub-counties. We generated 1,000 simulated datasets followed the planned sampling design by first stratifying by sub-county and then sampling facilities with probability proportional to the number of antenatal care visits in 2021. Over the full study (following the stepped wedge design in which all sub-counties ultimately receive the SDR reform), we determined that we would have 89% power to detect a 12.5% reduction in composite outcome (a drop from 0.0406 at baseline to 0.0355) for 72 facilities, roughly corresponding to 60,000 births. To optimize power in the difference-in-difference Phase 1 study, we determined that equal allocation of 36 facilities in Phase 1 sub-counties and 36 facilities in Phase 2 and 3 sub-counties (18 facilities in Phase 2 and 18 facilities in Phase 3 sub-counties) would result in 86% power to detect a 30% reduction in composite outcome (with 72% power to detect a 25% reduction). For our secondary outcome of satisfaction, we determined that 2,000 women from the longitudinal study sample would result in > 80% power to detect a 0.15-standard deviation increase for both evaluation designs. The primary analysis will assess the impact of SDR on the composite outcome comprised of maternal mortality, neonatal mortality, and stillbirth. We will perform both an intention to treat and per protocol analysis. Intention to treat analysis: We will fit the model in Eq. (1), as well as analogous linear models. A participant’s treatment status will be determined based on her sub-county of residence. If she lives outside of Kakamega County, it will be determined by the location of the facility where she is enrolled. Since the order in which subcounties were selected for SDR was not random, but rather was a decisions taken by Kakamega County policymakers, it is possible that respondents will differ on observable characteristics which may be correlated with the study’s outcomes of interest. We will account for sources of confounding by controlling for mother’s education, age, parity, transport time to nearest delivery hub, season of pregnancy, and perceived pregnancy risk in our regression model. Self-reported pregnancy risk is captured by the following question “How concerned are you about complications during this pregnancy?” with a response scale of 1 (no concern) to 5 (very concerned) and will be coded as a binary variable indicating high risk (choice of >  = 4). Distance will be measured by approximate travel time from a woman’s village to the delivery hub. Additional confounders from external data sources such as rainfall or temperature data may be incorporated in the model, depending on availability. Per protocol analysis: We will compute the proportion of women living outside of intervention areas that are delivering at another sub-county’s updated delivery hub. If this happens often (> 5% of deliveries in non-intervention facilities), we will also estimate the effect of delivery in an updated delivery hub on the composite outcome (instead of the effect of living in a treated sub-county). In addition to the confounders listed for the intention-to-treat analysis, we will adjust for whether the woman comes from an intervention area. Account for missing outcomes data: We expect there to be loss-to-follow-up after delivery resulting in missing values for the composite outcomes. The survey team will attempt multiple phone-based and in-person tracking options before coding an outcome as missing. We will use multiple imputation to impute missing outcome values. Secondary outcomes include satisfaction with care, respectful care index, out-of-pocket expenditures, location of delivery, travel time, maternal complications, and equity. These outcomes will be analyzed as above, with the exception the respectful care index and travel time outcomes, which will be restricted to the random sample of women in the longitudinal cohort. We will also analyze equity for selected outcomes (e.g. quality of care, OOP cost). In this analysis we will include an interaction term between delivering at an updated delivery hub and the equity markers to assess baseline disparities in outcomes and test if these disparities changed during the intervention. Phase 1 interim analysis: After six months of data has been collected following the implementation of improvements in Phase 1, we will conduct a study on interim outcomes to understand implementation of the reform and how it has affected women’s decision-making about delivery care. We will examine the effect of policy exposure on the same outcomes as in the full evaluation. The main analytical difference is that this analysis will be conducted using a difference-in-difference design rather than a stepped-wedge design as we will only observe the intervention among women living in Phase 1 sub-counties. Otherwise, the analytical approach will be the same for the Phase 1 study as for the full SDR evaluation. Data collection will be monitored in an ongoing basis using the interim analysis described in Additional file 1: Appendix 1.

The innovation being implemented in Kakamega County, Kenya is called Service Delivery Redesign for Maternal and Neonatal Health (SDR). It is a multi-component health system reform aimed at improving access to maternal and newborn health services. The key components of SDR include:

1. Strengthening higher-level health facilities: The intervention focuses on strengthening higher-level health facilities, such as sub-county hospitals, to provide rapid and definitive care in case of delivery and postnatal complications.

2. Promoting delivery in designated delivery hub hospitals: The SDR policy change encourages women to deliver at designated delivery hub hospitals, which have been upgraded with better infrastructure, equipment, and staffing.

3. Emergency transport services: To address the issue of traveling greater distances to deliver at delivery hub hospitals, the intervention includes the participation of the NGO Rescue.co, which contracts with private transport providers to provide emergency transport for pregnant women.

4. Public communication and awareness campaigns: The government of Kakamega plans to communicate the policy change regarding place of delivery to all health workers and health system users through media campaigns, public outreach meetings, and direct communication from health workers to antenatal care clients.

The impact evaluation of SDR will focus on maternal and newborn health outcomes, including a composite measure of maternal and neonatal mortality. Secondary outcomes include patient satisfaction, perceived quality of care, maternal complications, out-of-pocket expenditures, and utilization of care.

The implementation evaluation will measure the coverage, adoption, and fidelity of SDR implementation, including indicators such as program reach, adoption of the policy change, and intervention fidelity in terms of facility capacity, staffing levels, and availability of critical inputs.

The study design includes a prospective, non-randomized stepped-wedge design, where SDR will be progressively scaled up across all sub-counties of Kakamega County in three phases. An adaptive element has also been included in the evaluation study to account for the complex nature of the intervention.

Overall, the goal of SDR is to improve access to maternal and newborn health services by strengthening higher-level health facilities, promoting delivery in designated delivery hub hospitals, providing emergency transport services, and raising awareness about the policy change. The evaluation study will assess the effectiveness and implementation of SDR in Kakamega County.
AI Innovations Description
The recommendation to improve access to maternal health in Kakamega County, Kenya is the implementation of Service Delivery Redesign for Maternal and Neonatal Health (SDR). SDR focuses on strengthening higher level health facilities to provide rapid, definitive care in case of delivery and post-natal complications, and then promoting delivery in these hospitals, rather than in primary care facilities. This strategy aims to reduce maternal and neonatal mortality rates by ensuring that women have access to quality care during childbirth and the postnatal period.

The SDR intervention in Kakamega County involves several components:

1. Strengthening delivery hubs: Ten hospitals have been selected to serve as delivery hubs across the county. These hospitals are being strengthened with additional staffing, improvements to infrastructure and equipment, and the deployment of specialists such as surgeons, pediatricians, and obstetrician-gynecologists. Operating theaters, maternity wards, and newborn units are being built or expanded, and facilities for blood transfusions are being augmented.

2. Emergency transport: To address the challenge of traveling greater distances to deliver at delivery hubs, the NGO Rescue.co is partnering with private transport providers to offer emergency transport for pregnant women.

3. Public communication: The government of Kakamega plans to communicate the policy change regarding place of delivery to all health workers and health system users. This will be done through media campaigns, public outreach meetings, and direct communication from health workers to antenatal care clients.

The impact evaluation of SDR will focus on maternal and newborn health outcomes, including maternal and neonatal mortality rates. The implementation evaluation will assess program reach, adoption, and fidelity. The study will use a prospective, non-randomized stepped-wedge design, with the phased rollout of SDR across sub-counties in three phases. The evaluation will also include a phase 1 sub-study to track implementation indicators and assess policy implementation.

The primary outcome of the evaluation is a composite measure of maternal and neonatal mortality. Secondary outcomes include patient satisfaction, perceived quality of care, maternal complications, out-of-pocket expenditures, and utilization of care. The evaluation will also examine equity in access and outcomes.

The study will collect data through surveys, facility audits, provider assessments, direct observations of deliveries, and follow-up interviews with enrolled pregnant women. Power calculations have been performed to determine the sample size needed to detect changes in the primary and secondary outcomes.

Overall, the implementation of SDR in Kakamega County has the potential to improve access to maternal health services and reduce maternal and neonatal mortality rates. The evaluation will provide valuable insights into the effectiveness and implementation of this innovative approach.
AI Innovations Methodology
Based on the provided information, here are some potential recommendations for innovations to improve access to maternal health:

1. Strengthening higher-level health facilities: Focus on improving the capacity and capabilities of higher-level health facilities, such as hospitals, to provide rapid and definitive care for delivery and postnatal complications. This includes deploying additional staff, improving infrastructure and equipment, and expanding maternity wards and newborn units.

2. Promoting delivery in higher-level health facilities: Implement a policy change to encourage women to deliver at designated delivery hub hospitals. This can be achieved through public communication campaigns, media campaigns, and direct communication from health workers to antenatal care clients.

3. Emergency transport services: Address the challenge of traveling greater distances to deliver at delivery hub hospitals by partnering with private transport providers to offer emergency transport services for pregnant women.

4. Conditional cash transfer programs: Introduce conditional cash transfer programs to provide financial support for antenatal, delivery, postnatal care, and immunizations to poor and vulnerable women. This can help reduce financial barriers and improve access to maternal health services.

To simulate the impact of these recommendations on improving access to maternal health, a methodology could be developed using a prospective, non-randomized stepped-wedge design. This design would involve implementing the recommendations in different phases across sub-counties in Kakamega County, Kenya. Data would be collected before and after the implementation of each phase to evaluate the effectiveness and implementation of the recommendations.

The impact evaluation would focus on maternal and newborn health outcomes, such as maternal and neonatal mortality rates, as well as patient satisfaction, perceived quality of care, maternal complications, out-of-pocket expenditures, and utilization of care. Data would be collected through surveys, facility audits, provider assessments, direct observations of deliveries, and tracking of health system indicators.

Power calculations would be performed to determine the number of facilities to sample and the statistical power to detect changes in the composite outcome. Statistical analyses, including intention-to-treat and per protocol analyses, would be conducted to assess the impact of the recommendations on the outcomes of interest. Missing outcome data would be addressed through multiple imputation.

Additionally, an interim analysis would be conducted after the implementation of improvements in Phase 1 to understand the implementation of the reform and its effects on women’s decision-making about delivery care. This analysis would use a difference-in-difference design to compare outcomes in Phase 1 sub-counties with outcomes in Phase 2 and 3 sub-counties.

Overall, this methodology would provide a comprehensive evaluation of the impact of the recommendations on improving access to maternal health in Kakamega County, Kenya.

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