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. 2017 Jun;7(1):010411.
doi: 10.7189/jogh.07.010411.

Solar powered oxygen systems in remote health centers in Papua New Guinea: a large scale implementation effectiveness trial

Trevor Duke  1   2 Ilomo Hwaihwanje  3 Magdalynn Kaupa  4 Jonah Karubi  4 Doreen Panauwe  5 Martin Sa'avu  6 Francis Pulsan  2 Peter Prasad  7 Freddy Maru  8 Henry Tenambo  9 Ambrose Kwaramb  9 Eleanor Neal  1 Hamish Graham  1 Rasa Izadnegahdar  10
Affiliations

Solar powered oxygen systems in remote health centers in Papua New Guinea: a large scale implementation effectiveness trial

Trevor Duke et al. J Glob Health. 2017 Jun.

Abstract

Background: Pneumonia is the largest cause of child deaths in Papua New Guinea (PNG), and hypoxaemia is the major complication causing death in childhood pneumonia, and hypoxaemia is a major factor in deaths from many other common conditions, including bronchiolitis, asthma, sepsis, malaria, trauma, perinatal problems, and obstetric emergencies. A reliable source of oxygen therapy can reduce mortality from pneumonia by up to 35%. However, in low and middle income countries throughout the world, improved oxygen systems have not been implemented at large scale in remote, difficult to access health care settings, and oxygen is often unavailable at smaller rural hospitals or district health centers which serve as the first point of referral for childhood illnesses. These hospitals are hampered by lack of reliable power, staff training and other basic services.

Methods: We report the methodology of a large implementation effectiveness trial involving sustainable and renewable oxygen and power systems in 36 health facilities in remote rural areas of PNG. The methodology is a before-and after evaluation involving continuous quality improvement, and a health systems approach. We describe this model of implementation as the considerations and steps involved have wider implications in health systems in other countries.

Results: The implementation steps include: defining the criteria for where such an intervention is appropriate, assessment of power supplies and power requirements, the optimal design of a solar power system, specifications for oxygen concentrators and other oxygen equipment that will function in remote environments, installation logistics in remote settings, the role of oxygen analyzers in monitoring oxygen concentrator performance, the engineering capacity required to sustain a program at scale, clinical guidelines and training on oxygen equipment and the treatment of children with severe respiratory infection and other critical illnesses, program costs, and measurement of processes and outcomes to support continuous quality improvement.

Conclusions: This study will evaluate the feasibility and sustainability issues in improving oxygen systems and providing reliable power on a large scale in remote rural settings in PNG, and the impact of this on child mortality from pneumonia over 3 years post-intervention. Taking a continuous quality improvement approach can be transformational for remote health services.

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Conflict of interest statement

Competing interests: The authors completed the Unified Competing Interest form at www.icmje.org/coi_disclosure.pdf (available upon request from the corresponding author), and declare no conflict of interest.

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