Design options for sample-based mortality surveillance

doi:10.1093/ije/dyi101

IJE Advance Access originally published online on May 23, 2005
International Journal of Epidemiology 2005 34(5):1080-1087; doi:10.1093/ije/dyi101

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Published by Oxford University Press on behalf of the International Epidemiological Association © The Author 2005; all rights reserved.

Article

Design options for sample-based mortality surveillance

Stephen Begg, Chalapati Rao and Alan D Lopez^*

School of Population Health, University of Queensland, Australia

^* Corresponding author. School of Population Health, Faculty of Health Sciences, University of Queensland, Brisbane, QLD 4006, Australia. E-mail: a.lopez{at}sph.uq.edu.au

Background Reliable information on causes of death is a fundamentalcomponent of health development strategies, yet globally onlyabout one-third of countries have access to such information.For countries currently without adequate mortality reportingsystems there are useful models other than resource-intensivepopulation-wide medical certification. Sample-based mortalitysurveillance is one such approach. This paper provides methodsfor addressing appropriate sample size considerations in relationto mortality surveillance, with particular reference to situationsin which prior information on mortality is lacking.

Methods The feasibility of model-based approaches for predictingthe expected mortality structure and cause composition is demonstratedfor populations in which only limited empirical data is available.An algorithm approach is then provided to derive the minimumperson-years of observation needed to generate robust estimatesfor the rarest cause of interest in three hypothetical populations,each representing different levels of health development.

Results Modelled life expectancies at birth and cause of deathstructures were within expected ranges based on published estimatesfor countries at comparable levels of health development. Totalperson-years of observation required in each population couldbe more than halved by limiting the set of age, sex, and causegroups regarded as 'of interest'.

Discussion The methods proposed are consistent with the philosophyof establishing priorities across broad clusters of causes forwhich the public health response implications are similar. Theexamples provided illustrate the options available when consideringthe design of mortality surveillance for population health monitoringpurposes.

Keywords Keywords Sample size, mortality surveillance, causes of death, vital registration

Accepted 14 April 2005

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