Determinants of maternal near miss among women in public hospital maternity wards in Northern Ethiopia: A facility based case-control study

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Study Justification:
– Maternal near miss (MNM) is a significant issue in Ethiopia, with 20,000 women dying each year from complications related to pregnancy, childbirth, and post-partum.
– MNM is a proxy indicator of maternal mortality and the quality of obstetric care.
– Few studies have examined MNM in Ethiopia, highlighting the need for further research in this area.
– This study aims to identify the determinants of MNM among women in Tigray, Ethiopia.
Study Highlights:
– The study was conducted in six public hospitals in Tigray, Ethiopia, from January 30 to March 30, 2016.
– A total of 103 cases and 205 controls were included in the study.
– Severe obstetric hemorrhage, hypertensive disorders, dystocia, sepsis, and severe anemia were identified as leading causes of MNM.
– Factors associated with higher odds of experiencing MNM included no formal education, first pregnancy before the age of 16, induced labor, history of cesarean section, chronic medical disorder, and traveling more than 60 minutes before reaching the final place of care.
Study Recommendations:
– Macro-developments such as increasing road and health facility access, as well as expanding education, can help reduce MNM.
– Efforts should be made to educate women and healthcare providers about common predictors of MNM, such as a history of cesarean section and chronic illness, as well as teenage pregnancy.
– These efforts should be carried out at the facility, community, and individual levels.
– Targeted follow-up with women who have a history of chronic disease and cesarean section could also help reduce MNM.
Key Role Players:
– Ministry of Health: Responsible for implementing policies and programs to address MNM.
– Regional Health Bureau: Provides oversight and support to healthcare facilities in the region.
– Public Hospitals: Responsible for implementing interventions to reduce MNM and providing quality obstetric care.
– Healthcare Providers: Play a crucial role in identifying and managing complications during pregnancy and childbirth.
– Community Health Workers: Involved in educating women and their families about pregnancy-related danger signs and promoting access to healthcare services.
Cost Items for Planning Recommendations:
– Education and Training: Budget for training healthcare providers on managing obstetric complications and educating women about MNM.
– Infrastructure Development: Budget for improving road access and expanding health facilities to ensure timely access to care.
– Outreach Programs: Budget for community-based programs to raise awareness about MNM and promote early detection and referral.
– Follow-up Services: Budget for targeted follow-up with women with a history of chronic disease and cesarean section to monitor their health and prevent complications.
– Monitoring and Evaluation: Budget for monitoring and evaluating the effectiveness of interventions to reduce MNM.

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is moderately strong. The study design is a facility-based, unmatched case-control study, which allows for comparison between cases and controls. The sample size was estimated using a double population proportion formula, and the study protocol was approved by the Institutional Research Review Board. Data collection was conducted confidentially and data was stored securely. However, there are a few areas for improvement. First, the abstract does not mention the specific statistical methods used for analysis, such as the type of logistic regression model employed. Second, the abstract does not provide information on the representativeness of the sample and whether the findings can be generalized to the larger population. Third, the abstract does not mention any limitations of the study, which is important for interpreting the results. To improve the evidence, the authors could provide more details on the statistical methods used, discuss the representativeness of the sample, and acknowledge any limitations of the study.

Background: In Ethiopia, 20,000 women die each year from complications related to pregnancy, childbirth and post-partum. For every woman that dies, 20 more experience injury, infection, disease, or disability. “Maternal near miss” (MNM), defined by the World Health Organization (WHO) as a woman who nearly dies, but survives a complication during pregnancy, childbirth or within 42 days of a termination, is a proxy indicator of maternal mortality and quality of obstetric care. In Ethiopia, few studies have examined MNM. This study aims to identify determinants of MNM among a small population of women in Tigray, Ethiopia. Methods: Unmatched case-control study was conducted in hospitals in Tigray Region, Northern Ethiopia, from January 30-March 30, 2016. The sample included 103 cases and 205 controls recruited from among women seeking obstetric care at six (6) public hospitals. Clients with life-threatening obstetric complications, including hemorrhage, hypertensive diseases of pregnancy, dystocia, infection, and anemia or clinical signs of severe anemia (in women without hemorrhage) were taken as cases and those with normal obstetric outcomes were controls. Cases were selected based on proportion to size allocation while systematic sampling was employed for controls. Binary and multiple variable logistic regression (“odds ratio”) analyses were calculated at 95% CI. Results: Roughly 90% of cases and controls were married and 25% experienced their first pregnancy before the age of 16 years. About two-thirds of controls and 45.6% of cases had gestational ages between 37–41 weeks. Among cases, severe obstetric hemorrhage (44.7%), hypertensive disorders (38.8%), dystocia (17.5%), sepsis (9.7%) and severe anemia (2.9%) were leading causes of MNM. Histories of chronic maternal medical problems like hypertension, diabetes were reported in 55.3% of cases and 33.2% of controls. Women with no formal education [AOR = 3.2;95%CI:1.24, 8.12], being less than 16 years of age at first pregnancy [AOR = 2.5;95%CI:1.12,5.63], induced labor[AOR = 3.0; 95%CI:1.44, 6.17], history of cesarean section[AOR = 4.6; 95% CI: 1.98, 7.61] or chronic medical disorder[AOR = 3.5;95%CI:1.78, 6.93], and women who traveled more than 60 minutes before reaching their final place of care[AOR = 2.8;95% CI: 1.19,6.35] had higher odds of experiencing MNM. Conclusions: Macro-developments like increasing road and health facility access as well as expanding education will all help reduce MNM. Work should be continued to educate women and providers about common predictors of MNM like history of C-section and chronic illness as well as teenage pregnancy. These efforts should be carried out at the facility, community, and individual levels. Targeted follow-up with women with history of chronic disease and C-section could also help reduce MNM.

The study was conducted in six (6) hospitals in Tigray, Ethiopia, from January 30 to March 30, 2016. Hospitals were randomly selected from 16 public hospitals in the region[14]. The study was a facility-based, unmatched case control design. Sample size was estimated using a double population proportion formula based on a study from Morocco that showed hypertensive disease contributing the most to MNM [15]. Based on the Morocco study, we hypothesized the proportion of chronic hypertension to be double in cases (63.9%) and controls (47%) at a 95% confidence level and 80% power of the test, with a 1:2 ratio for cases and controls. Final sample size was 308, of which 103 were cases and 205 controls. We considered MNM as a condition meeting any of the five disease-specific criteria proposed by Filippi [16]. In sampled hospitals, using medical notes, any woman diagnosed with at least one of the following complications was considered as a case: severe obstetric hemorrhage leading to shock; hypertensive diseases of pregnancy, including eclampsia and severe preeclampsia; dystocia, including uterine rupture and impending rupture; infections, including hyper- or hypothermia or a clear source of infection and clinical signs of shock, and; anemia, including low hemoglobin (<6 g/dl) or clinical signs of severe anemia in women without hemorrhage. Women not meeting the above criteria were considered as controls. Cases were sequentially recruited whereas controls were selected through systematic sampling. Data was collected using a structured questionnaire, administered in-person by nurse midwives. Socio-demographic characteristics, obstetric history, and knowledge of pregnancy-related danger signs were collected. Questionnaire was based on tools validated by the World Health Organization (WHO) and in different literature and adapted to include context-specific factors [11–13, 15, 17]. Questionnaire was prepared in English, translated to Tigrigna, and back-translated to English separately by two individuals to ensure consistency. Data was collected by 12 nurse midwives with experience in obstetric care. Data collection was supervised and data checked for consistency and completeness. Incomplete and unclear questionnaires were returned to interviewers to be completed. Data was entered, cleaned and analyzed using SPSS 20. Data was cleaned by running frequencies, cross-tabulation and sorting cases. Bar graphs and frequencies were used to represent results of categorical variables. Bivariate and multivariate logistic regression analyses were used to determine the association of independent variables with the dependent variable. Variables with p<0.25 in bivariate analysis were entered into a multivariate logistic regression model. Odds ratios with 95% confidence were computed to identify the presence and strength of associations, and statistical significance was declared if p<0.05 was found. The final model was checked using the Hosmer–Lemeshow goodness of fit test. Co-founders, interaction and multi-collinearity were checked to minimize bias. Study protocol was approved by the Institutional Research Review Board of Mekelle University’s College of Health Sciences and Community Services Ethical Review Committee. Permission was obtained from Tigray Regional Health Bureau and participating hospitals. Informed verbal consent was obtained from participants prior to enrollment in the study. Participation in the study was voluntary and participants were informed of the right to withdraw from the study. Data collection was conducted confidentially and data de-identified, de-linked and stored in a secure location.

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

1. Telemedicine: Implementing telemedicine services can help improve access to maternal health by allowing pregnant women in remote areas to consult with healthcare professionals through video calls or phone calls. This can provide timely advice, guidance, and support, reducing the need for women to travel long distances to access healthcare facilities.

2. Mobile clinics: Setting up mobile clinics that travel to rural and underserved areas can bring maternal health services closer to the community. These clinics can provide prenatal care, antenatal check-ups, and basic obstetric services, ensuring that pregnant women have access to essential healthcare without having to travel long distances.

3. Community health workers: Training and deploying community health workers who are knowledgeable about maternal health can help bridge the gap between healthcare facilities and the community. These workers can provide education, counseling, and basic healthcare services to pregnant women in their own communities, improving access to timely and appropriate care.

4. Transportation support: Lack of transportation can be a significant barrier to accessing maternal health services. Providing transportation support, such as ambulances or subsidized transportation vouchers, can help pregnant women reach healthcare facilities quickly and safely, especially in emergency situations.

5. Health education programs: Implementing comprehensive health education programs that focus on maternal health can help raise awareness about the importance of prenatal care, danger signs during pregnancy, and the availability of healthcare services. These programs can be conducted in schools, community centers, and through mass media channels to reach a wider audience.

6. Strengthening referral systems: Improving the coordination and communication between different levels of healthcare facilities can ensure that pregnant women are referred to appropriate facilities in a timely manner. This can help prevent delays in receiving necessary care and reduce maternal complications.

It is important to note that the specific context and needs of the community should be considered when implementing these innovations. Collaboration between government agencies, healthcare providers, and community organizations is crucial for the successful implementation of these strategies.
AI Innovations Description
Based on the study conducted in Tigray, Ethiopia, the following recommendations can be developed into an innovation to improve access to maternal health:

1. Increase road and health facility access: Improving transportation infrastructure and ensuring that health facilities are easily accessible can help reduce delays in reaching healthcare services during pregnancy and childbirth.

2. Expand education: Promoting education, especially for women, can empower individuals to make informed decisions about their health and seek appropriate care during pregnancy. This can be achieved through community-based education programs and awareness campaigns.

3. Targeted follow-up with high-risk women: Women with a history of chronic medical disorders or previous cesarean sections should receive targeted follow-up care to monitor their health and address any potential complications. This can help reduce the risk of maternal near miss and improve overall maternal health outcomes.

4. Enhance provider and community education: Educating healthcare providers and communities about common predictors of maternal near miss, such as history of cesarean section and chronic illness, can help improve early detection and management of complications. This can be achieved through training programs, workshops, and community outreach initiatives.

5. Multi-level interventions: Efforts to reduce maternal near miss should be implemented at the facility, community, and individual levels. This includes improving the quality of obstetric care in healthcare facilities, engaging communities in promoting maternal health, and empowering individuals to take proactive measures for their own health.

By implementing these recommendations, it is possible to develop innovative strategies that can improve access to maternal health and reduce maternal near miss in Ethiopia.
AI Innovations Methodology
Based on the provided description, here are some potential recommendations to improve access to maternal health:

1. Strengthening education: Implement programs to educate women and healthcare providers about common predictors of maternal near miss (MNM), such as history of cesarean section, chronic illness, and teenage pregnancy. This education should be carried out at the facility, community, and individual levels.

2. Improving road and health facility access: Focus on increasing road infrastructure and transportation options to reduce travel time for pregnant women seeking obstetric care. This can be achieved through collaborations with government agencies and organizations working in transportation and infrastructure development.

3. Targeted follow-up: Develop a system for targeted follow-up with women who have a history of chronic diseases and previous cesarean sections. This can help identify potential complications early and provide appropriate care to reduce the risk of MNM.

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

1. Define the indicators: Identify specific indicators that can measure the impact of the recommendations, such as the percentage of women receiving education on MNM predictors, the average travel time to reach obstetric care facilities, and the percentage of women receiving targeted follow-up.

2. Collect baseline data: Gather data on the current status of the indicators before implementing the recommendations. This can be done through surveys, interviews, and data analysis of existing records.

3. Implement the recommendations: Put the recommendations into action, including education programs, infrastructure improvements, and targeted follow-up systems.

4. Monitor and evaluate: Continuously monitor the progress and impact of the recommendations. Collect data on the indicators at regular intervals to assess any changes or improvements.

5. Analyze the data: Use statistical analysis techniques to analyze the collected data and determine the impact of the recommendations on improving access to maternal health. This can involve comparing the baseline data with the data collected after implementing the recommendations.

6. Draw conclusions and make adjustments: Based on the analysis, draw conclusions about the effectiveness of the recommendations. Identify any areas that need further improvement or adjustments to optimize the impact on improving access to maternal health.

7. Communicate the findings: Share the findings with relevant stakeholders, such as healthcare providers, policymakers, and community members. This can help generate support and inform decision-making for further interventions or scaling up successful strategies.

By following this methodology, it is possible to simulate the impact of the recommendations on improving access to maternal health and make informed decisions for future interventions.

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