TY - JOUR
T1 - Comparing multiple competing interventions in the absence of randomized trials using clinical risk-benefit analysis
AU - Lazo-Langner, Alejandro
AU - Rodger, Marc A.
AU - Barrowman, Nicholas J.
AU - Ramsay, Tim
AU - Wells, Philip S.
AU - Coyle, Douglas A.
N1 - Funding Information:
Financial Support During the conduction of this work Dr. Alejandro Lazo-Langner was supported by a Graduate Scholarship from Consejo Nacional de Ciencia y Tecnología (CONACyT), México, an International Fellowship awarded by the University of Ottawa and by Program Grant PRG 5513 of the Heart and Stroke Foundation of Ontario. Dr. Marc A. Rodger is supported by a Career Scientist Research award from the Heart and Stroke Foundation of Ontario. Dr. Philip S. Wells is supported by the Canada Research Chairs Program.
PY - 2012
Y1 - 2012
N2 - Background: To demonstrate the use of risk-benefit analysis for comparing multiple competing interventions in the absence of randomized trials, we applied this approach to the evaluation of five anticoagulants to prevent thrombosis in patients undergoing orthopedic surgery. Methods. Using a cost-effectiveness approach from a clinical perspective (i.e. risk benefit analysis) we compared thromboprophylaxis with warfarin, low molecular weight heparin, unfractionated heparin, fondaparinux or ximelagatran in patients undergoing major orthopedic surgery, with sub-analyses according to surgery type. Proportions and variances of events defining risk (major bleeding) and benefit (thrombosis averted) were obtained through a meta-analysis and used to define beta distributions. Monte Carlo simulations were conducted and used to calculate incremental risks, benefits, and risk-benefit ratios. Finally, net clinical benefit was calculated for all replications across a range of risk-benefit acceptability thresholds, with a reference range obtained by estimating the case fatality rate - ratio of thrombosis to bleeding. Results: The analysis showed that compared to placebo ximelagatran was superior to other options but final results were influenced by type of surgery, since ximelagatran was superior in total knee replacement but not in total hip replacement. Conclusions: Using simulation and economic techniques we demonstrate a method that allows comparing multiple competing interventions in the absence of randomized trials with multiple arms by determining the option with the best risk-benefit profile. It can be helpful in clinical decision making since it incorporates risk, benefit, and personal risk acceptance.
AB - Background: To demonstrate the use of risk-benefit analysis for comparing multiple competing interventions in the absence of randomized trials, we applied this approach to the evaluation of five anticoagulants to prevent thrombosis in patients undergoing orthopedic surgery. Methods. Using a cost-effectiveness approach from a clinical perspective (i.e. risk benefit analysis) we compared thromboprophylaxis with warfarin, low molecular weight heparin, unfractionated heparin, fondaparinux or ximelagatran in patients undergoing major orthopedic surgery, with sub-analyses according to surgery type. Proportions and variances of events defining risk (major bleeding) and benefit (thrombosis averted) were obtained through a meta-analysis and used to define beta distributions. Monte Carlo simulations were conducted and used to calculate incremental risks, benefits, and risk-benefit ratios. Finally, net clinical benefit was calculated for all replications across a range of risk-benefit acceptability thresholds, with a reference range obtained by estimating the case fatality rate - ratio of thrombosis to bleeding. Results: The analysis showed that compared to placebo ximelagatran was superior to other options but final results were influenced by type of surgery, since ximelagatran was superior in total knee replacement but not in total hip replacement. Conclusions: Using simulation and economic techniques we demonstrate a method that allows comparing multiple competing interventions in the absence of randomized trials with multiple arms by determining the option with the best risk-benefit profile. It can be helpful in clinical decision making since it incorporates risk, benefit, and personal risk acceptance.
KW - Decision Making
KW - Meta-Analysis
KW - Methods
KW - Monte Carlo Method
KW - Risk
KW - Risk-Benefit Analysis
KW - indirect comparison
UR - http://www.scopus.com/inward/record.url?scp=84855491633&partnerID=8YFLogxK
U2 - 10.1186/1471-2288-12-3
DO - 10.1186/1471-2288-12-3
M3 - Article
C2 - 22233221
AN - SCOPUS:84855491633
SN - 1471-2288
VL - 12
JO - BMC Medical Research Methodology
JF - BMC Medical Research Methodology
M1 - 3
ER -