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Estimation of Markov Chain Transition Probabilities and Rates from Fully and Partially Observed Data: Uncertainty Propagation, Evidence Synthesis, and Model Calibration

MRC Health Services Research Collaboration, Bristol, United Kingdom, nicky.welton{at}bristol.ac.uk

A. E. Ades, PhD

MRC Health Services Research Collaboration, Bristol, United Kingdom

Markov transition models are frequently used to model disease progression. The authors show how the solution to Kolmogorov’s forward equations can be exploited to map between transition rates and probabilities from probability data in multistate models. They provide a uniform, Bayesian treatment of estimation and propagation of uncertainty of transition rates and probabilities when 1) observations are available on all transitions and exact time at risk in each state (fully observed data) and 2) observations are on initial state and final state after a fixed interval of time but not on the sequence of transitions (partially observed data). The authors show how underlying transition rates can be recovered from partially observed data using Markov chain Monte Carlo methods in WinBUGS, and they suggest diagnostics to investigate inconsistencies between evidence from different starting states. An illustrative example for a 3-state model is given, which shows how the methods extend to more complex Markov models using the software WBDiff to compute solutions. Finally, the authors illustrate how to statistically combine data from multiple sources, including partially observed data at several follow-up times and also how to calibrate a Markov model to be consistent with data from one specific study.

Key Words: rate • risk • probability • transitions • Markov models • uncertainty propagation • Bayesian MCMC • evidence synthesis • calibration

Medical Decision Making, Vol. 25, No. 6, 633-645 (2005)
DOI: 10.1177/0272989X05282637


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