Abstract
Reducing childhood mortality in resource-poor regions depends on effective interventions to decrease neonatal mortality from severe infection, which contributes up to a half of all neonatal deaths. There are key differences in resource-poor, compared to resource-rich, countries in terms of diagnosis, supportive care and treatment. In resource-poor settings, diagnosis is based on identifying clinical syndromes from international guidelines; microbiological investigations are restricted to a few research facilities. Low levels of staffing and equipment limit the provision of basic supportive care, and most facilities cannot provide respiratory support. Empiric antibiotic treatment guidelines are based on few aetiological and antimicrobial susceptibility data. Research on improving health care systems to provide effective supportive care, and implementation of simple pragmatic interventions, such as low-cost respiratory support, are essential, together with improved surveillance to monitor emerging drug resistance and treatment failures. Reductions in mortality will also be achieved through prevention of infection; including emerging vaccination and anti-sepsis strategies.
Highlights
Whilst substantial progress has been made in reducing childhood mortality in the under 5s in resource-poor regions, progress in reducing deaths in the neonatal period (b 28 days), has been limited
We aim to provide an overview of some of the key differences in management of severe infection in resource-poor compared to resource-rich settings, and consider research directions to improve management and to prevent infection
We restrict this paper to severe bacterial infection since there are limited data on congenital infections such as cytomegalovirus and rubella in resource-poor settings, but these are important areas for future research
Summary
Whilst substantial progress has been made in reducing childhood mortality in the under 5s in resource-poor regions, progress in reducing deaths in the neonatal period (b 28 days), has been limited. Under-5 mortality has declined by 28%, from 90 deaths per 1000 live births in 1990, to 65 in 2008 [1]. There is an epidemiological transition in childhood mortality, with neonates representing an increasing proportion (41%) of the global burden of childhood deaths [3]. We restrict this paper to severe bacterial infection since there are limited data on congenital infections such as cytomegalovirus and rubella in resource-poor settings, but these are important areas for future research.
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