Solar-powered oxygen delivery for the treatment of children with hypoxemia: protocol for a cluster-randomized stepped-wedge controlled trial in Uganda
Document Type
Article
Department
Paediatrics and Child Health (East Africa)
Abstract
Background:
Child mortality due to pneumonia is a major global health problem and is associated with hypoxemia. Access to safe and continuous oxygen therapy can reduce mortality; however, low-income countries may lack the necessary resources for oxygen delivery. We have previously demonstrated proof-of-concept that solar-powered oxygen (SPO 2) delivery can reliably provide medical oxygen remote settings with minimal access to electricity. This study aims to demonstrate the efficacy of SPO 2 in children hospitalized with acute hypoxemic respiratory illness across Uganda.
Methods:Objectives: Demonstrate efficacy of SPO 2 in children hospitalized with acute hypoxemic respiratory illness. Study design: Multi-center, stepped-wedge cluster-randomized trial. Setting: Twenty health facilities across Uganda, a low-income, high-burden country for pediatric pneumonia. Site selection: Facilities with pediatric inpatient services lacking consistent O2 supply on pediatric wards. Participants: Children aged < 5 years hospitalized with hypoxemia (saturation < 92%) warranting hospital admission based on clinical judgement.
Randomization methods: Random installation order generated a priori with allocation concealment. Study procedure: Patients receive standard of care within pediatric wards with or without SPO2 system installed.
Outcome measures: Primary: 48-h mortality. Secondary: safety, efficacy, SPO 2 system functionality, operating costs, nursing knowledge, skills, and retention for oxygen administration. Statistical analysis of primary outcome: Linear mixed effects logistic regression model with 48-h mortality (dependent variable) as a function of SPO 2 treatment (before versus after installation), while adjusting for confounding effects of calendar time (fixed effect) and site (random effect). Sample size: 2400 patients across 20 health facilities, predicted to provide 80% power to detect a 35% reduction in mortality after introduction of SPO 2, based on a computer simulation of > 5000 trials.
Discussion: Overall, our study aims to demonstrate mortality benefit of SPO 2 relative to standard (unreliable) oxygen delivery. The innovative trial design (stepped-wedge, cluster-randomized) is supported by a computer simulation. Capacity building for nursing care and oxygen therapy is a non-scientific objective of the study. If successful, SPO 2 could be scaled across a variety of resource-constrained remote or rural settings in sub-Saharan Africa and beyond.
Publication (Name of Journal)
Conradi et al. Trials
DOI
10.1186/s13063-019-3752-2
Recommended Citation
Conradi, N.,
Mian, Q.,
Namasopo, S.,
Conroy, A. L.,
Hermann, L. L.,
Olaro, C.,
Amone, J.,
Opoka, R.,
Hawkes, M. T.
(2019). Solar-powered oxygen delivery for the treatment of children with hypoxemia: protocol for a cluster-randomized stepped-wedge controlled trial in Uganda. Conradi et al. Trials, 20(679), 1-10.
Available at:
https://ecommons.aku.edu/eastafrica_fhs_mc_paediatr_child_health/362
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Comments
This work was published before the author joined Aga Khan University.