PLoS ONE (Jan 2021)

A comparison of three strategies to reduce the burden of osteoarthritis: A population-based microsimulation study.

  • Jacek A Kopec,
  • Eric C Sayre,
  • Anya Okhmatovskaia,
  • Jolanda Cibere,
  • Linda C Li,
  • Nick Bansback,
  • Hubert Wong,
  • Shahzad Ghanbarian,
  • John M Esdaile

DOI
https://doi.org/10.1371/journal.pone.0261017
Journal volume & issue
Vol. 16, no. 12
p. e0261017

Abstract

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ObjectivesThe purpose of this study was to compare three strategies for reducing population health burden of osteoarthritis (OA): improved pharmacological treatment of OA-related pain, improved access to joint replacement surgery, and prevention of OA by reducing obesity and overweight.MethodsWe applied a validated computer microsimulation model of OA in Canada. The model simulated a Canadian-representative open population aged 20 years and older. Variables in the model included demographics, body mass index, OA diagnosis, OA treatment, mortality, and health-related quality of life. Model parameters were derived from analyses of national surveys, population-based administrative data, a hospital-based cohort study, and the literature. We compared 8 what-if intervention scenarios in terms of disability-adjusted life years (DALYs) relative to base-case, over a wide range of time horizons.ResultsReductions in DALYs depended on the type of intervention, magnitude of the intervention, and the time horizon. Medical interventions (a targeted increase in the use of painkillers) tended to produce effects quickly and were, therefore, most effective over a short time horizon (a decade). Surgical interventions (increased access to joint replacement) were most effective over a medium time horizon (two decades or longer). Preventive interventions required a substantial change in BMI to generate a significant impact, but produced more reduction in DALYs than treatment strategies over a very long time horizon (several decades).ConclusionsIn this population-based modeling study we assessed the potential impact of three different burden reduction strategies in OA. Data generated by our model may help inform the implementation of strategies to reduce the burden of OA in Canada and elsewhere.