Calibrating Models in Economic Evaluation

PDF / 152,748 Bytes
12 Pages / 505 x 720 pts Page_size
18 Downloads / 243 Views

ORIGINAL RESEARCH ARTICLE

ª 2011 Adis Data Information BV. All rights reserved.

Calibrating Models in Economic Evaluation A Comparison of Alternative Measures of Goodness of Fit, Parameter Search Strategies and Convergence Criteria Jonathan Karnon1 and Tazio Vanni2 1 University of Adelaide, Adelaide, South Australia, Australia 2 London School of Hygiene and Tropical Medicine, London, UK

Abstract

Background: The importance of assessing the accuracy of health economic decision models is widely recognized. Many applied decision models (implicitly) assume that the process of identifying relevant values for a model’s input parameters is sufficient to prove the model’s accuracy. The selection of infeasible combinations of input parameter values is most likely in the context of probabilistic sensitivity analysis (PSA), where parameter values are drawn from independently specified probability distributions for each model parameter. Model calibration involves the identification of input parameter values that produce model output parameters that best predict observed data. Methods: An empirical comparison of three key calibration issues is presented: the applied measure of goodness of fit (GOF); the search strategy for selecting sets of input parameter values; and the convergence criteria for determining acceptable GOF. The comparisons are presented in the context of probabilistic calibration, a widely applicable approach to calibration that can be easily integrated with PSA. The appendix provides a user’s guide to probabilistic calibration, with the reader invited to download the Microsoft Excel-based model reported in this article. Results: The calibrated models consistently provided higher mean estimates of the models’ output parameter, illustrating the potential gain in accuracy derived from calibrating decision models. Model uncertainty was also reduced. The chi-squared GOF measure differentiated between the accuracy of different parameter sets to a far greater degree than the likelihood GOF measure. The guided search strategy produced higher mean estimates of the models’ output parameter, as well as a narrower range of predicted output values, which may reflect greater precision in the identification of candidate parameter sets or more limited coverage of the parameter space. The broader convergence threshold resulted in lower mean estimates of the models’ output, and slightly wider ranges, which were closer to the outputs associated with the non-calibrated approach.

Karnon & Vanni

52

Conclusions: Probabilistic calibration provides a broadly applicable method that will improve the relevance of health economic decision models, and simultaneously reduce model uncertainty. The analyses reported in this paper inform the more efficient and accurate application of calibration methods for health economic decision models.

Background Decision models are now an expected framework for cost-effectiveness analyses of healthcare technologies, as demonstrated by guidelines for submissions to reimbursement bodies in the UK a

Data Loading...

Calibrating Models in Economic Evaluation

Recommend Documents

Economic Models

Economic Evaluation

Economic Evaluation

Calibrating Strategic Perspectives

Evaluation, Models

eHealth Economic Evaluation

Health Economic Evaluation

Economic Evaluation of Health

Variation Principles in Models of Economic Equilibrium

Stochastic Optimization and Economic Models

Benefit Evaluation in Health Economic Studies

Methods for Technological Economic Evaluation