The European Journal of Public Health Advance Access originally published online on September 8, 2005
The European Journal of Public Health 2005 15(5):448-453; doi:10.1093/eurpub/cki146
Injuries |
Determining the cost effectiveness of a smoke alarm give-away program using data from a randomized controlled trial
Laura Ginnelly1, Mark Sculpher1, Chris Bojke1, Ian Roberts2, Angie Wade3 and Carolyn Diguiseppi4
1 Centre for Health Economics, University of York, York, UK
2 London School of Hygiene and Tropical Medicine, London, UK
3 Centre for Paediatric Epidemiology and Biostatistics, Institute of Child Health, University College London, London, UK
4 Department of Preventive Medicine and Biometrics, University of Colorado Health Sciences Center, Denver, CO, USA
Correspondence: Laura Ginnelly, MSc, Centre for Health Economics, University of York, York YO10 5DD, UK, tel: +44 1904 433643, fax: +44 1904 433644, e-mail: lg116{at}york.ac.uk
Background: In 2001, 486 deaths and 17 300 injuries occurred in domestic fires in the UK. Domestic fires represent a significant cost to the UK economy, with the value of property loss alone estimated at £375 million in 1999. In 2001 in the US, there were 383 500 home fires, resulting in 3110 deaths, 15 200 injuries and $5.5 billion in direct property damage. Methods: A cluster RCT was conducted to determine whether a smoke alarm give-away program, directed to an inner-city UK population, is effective and cost-effective in reducing the risk of fire-related deaths/injuries. Forty areas were randomized to the giveaway or control group. The number of injuries/deaths and the number of fires in each ward were collected prospectively. Cost-effectiveness analysis was undertaken to relate the number of deaths/injuries to resource use (damage, fire service, healthcare and giveaway costs). Analytical methods were used which reflected the characteristics of the trial data including the cluster design of the trial and a large number of zero costs and effects. Results: The mean cost for a household in a give-away ward, including the cost of the program, was £12.76, compared to £10.74 for the control ward. The total mean number of deaths and injuries was greater in the intervention wards then the control wards, 6.45 and 5.17. When an injury/death avoided is valued at £1000, a smoke alarm give-away has a probability of being cost effective of 0.15. Conclusions: A smoke alarm give-away program, as administered in the trial, is unlikely to represent a cost-effective use of resources.
Keywords: cluster-randomized trial, cost effectiveness analysis, smoke alarm give-away program