RT Journal Article
SR Electronic
T1 Improving Hospital Oxygen Systems for COVID-19 in Low-Resource Settings: Lessons From the Field
JF Global Health: Science and Practice
JO GLOB HEALTH SCI PRACT
FD Johns Hopkins University- Global Health. Bloomberg School of Public Health, Center for Communication Programs
SP 858
OP 862
DO 10.9745/GHSP-D-20-00224
VO 8
IS 4
A1 Graham, Hamish R.
A1 Bagayana, Sheillah M.
A1 Bakare, Ayobami A.
A1 Olayo, Bernard O.
A1 Peterson, Stefan S.
A1 Duke, Trevor
A1 Falade, Adegoke G.
YR 2020
UL http://www.ghspjournal.org/content/8/4/858.abstract
AB Key MessagesThe COVID-19 pandemic has highlighted and exacerbated deficiencies in hospital oxygen systems globally but is also an opportunity to “build back better.”Our collated field experience from African and Asia-Pacific contexts reveal practical strategies whereby hospitals can rapidly improve their oxygen systems. We share guidance documents (all open access) for local use and adaptation.Key ImplicationsUsing our practical guides, hospital staff can help:Improve pulse oximetry and oxygen useOptimize existing oxygen suppliesExpand existing oxygen systems with robust equipment and smart designPolicy makers and program managers can use our recommendations to ensure that investments in oxygen systems are deployed and implemented more effectively and efficiently.Oxygen therapy is an essential medicine and core component of effective hospital systems. However, many hospitals in low- and middle-income countries lack reliable oxygen access—a deficiency highlighted and exacerbated by the coronavirus disease (COVID-19) pandemic. Oxygen access can be challenged by equipment that is low quality and poorly maintained, lack of clinical and technical training and protocols, and deficiencies in local infrastructure and policy environment. We share learnings from 2 decades of oxygen systems work with hospitals in Africa and the Asia-Pacific regions, highlighting practical actions that hospitals can take to immediately expand oxygen access. These include strategies to: (1) improve pulse oximetry and oxygen use, (2) support biomedical engineers to optimize existing oxygen supplies, and (3) expand on existing oxygen systems with robust equipment and smart design. We make all our resources freely available for use and local adaptation.