1. Wireless versus routine physiologic monitoring after cesarean delivery to reduce maternal morbidity and mortality in a resource-limited setting: protocol of type 2 hybrid effectiveness-implementation study
- Author
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Christina Psaros, Adeline A. Boatin, Lisa M. Bebell, Joshua P. Metlay, Sudi Mohamed, Nicholas Musinguzi, Jessica E. Haberer, Joseph Ngonzi, Godfrey R Mugyenyi, Blair J. Wylie, Henry Mark Lugobe, and Kenia Martinez
- Subjects
Maternal mortality ,Adult ,medicine.medical_specialty ,Post-operative monitoring ,Population ,Reproductive medicine ,Psychological intervention ,lcsh:Gynecology and obstetrics ,Wireless physiologic monitoring ,Tertiary Care Centers ,Study Protocol ,03 medical and health sciences ,0302 clinical medicine ,Pregnancy ,Intervention (counseling) ,Case fatality rate ,Humans ,Medicine ,Childbirth ,Maternal Health Services ,030212 general & internal medicine ,education ,lcsh:RG1-991 ,Monitoring, Physiologic ,education.field_of_study ,030219 obstetrics & reproductive medicine ,Cesarean Section ,business.industry ,Postpartum Hemorrhage ,Unconsciousness ,Hybrid effectiveness-implementation trial ,Cesarean delivery ,Obstetrics and Gynecology ,Blood pressure ,Emergency medicine ,Female ,medicine.symptom ,business ,Program Evaluation - Abstract
Background Women in sub-Saharan Africa have the highest rates of morbidity and mortality during childbirth globally. Despite increases in facility-based childbirth, gaps in quality of care at facilities have limited reductions in maternal deaths. Infrequent physiologic monitoring of women around childbirth is a major gap in care that leads to delays in life-saving interventions for women experiencing complications. Methods We will conduct a type-2 hybrid effectiveness-implementation study over 12 months to evaluate using a wireless physiologic monitoring system to detect and alert clinicians of abnormal vital signs in women for 24 h after undergoing emergency cesarean delivery at a tertiary care facility in Uganda. We will provide physiologic data (heart rate, respiratory rate, temperature and blood pressure) to clinicians via a smartphone-based application with alert notifications if monitored women develop predefined abnormalities in monitored physiologic signs. We will alternate two-week intervention and control time periods where women and clinicians use the wireless monitoring system during intervention periods and current standard of care (i.e., manual vital sign measurement when clinically indicated) during control periods. Our primary outcome for effectiveness is a composite of severe maternal outcomes per World Health Organization criteria (e.g. death, cardiac arrest, jaundice, shock, prolonged unconsciousness, paralysis, hysterectomy). Secondary outcomes include maternal mortality rate, and case fatality rates for postpartum hemorrhage, hypertensive disorders, and sepsis. We will use the RE-AIM implementation framework to measure implementation metrics of the wireless physiologic system including Reach (proportion of eligible women monitored, length of time women monitored), Efficacy (proportion of women with monitoring according to Uganda Ministry of Health guidelines, number of appropriate alerts sent), Adoption (proportion of clinicians utilizing physiologic data per shift, clinical actions in response to alerts), Implementation (fidelity to monitoring protocol), Maintenance (sustainability of implementation over time). We will also perform in-depth qualitative interviews with up to 30 women and 30 clinicians participating in the study. Discussion This is the first hybrid-effectiveness study of wireless physiologic monitoring in an obstetric population. This study offers insights into use of wireless monitoring systems in low resource-settings, as well as normal and abnormal physiologic parameters among women delivering by cesarean. Trial registration ClinicalTrials.gov, NCT04060667. Registered on 08/01/2019.
- Published
- 2021
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