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Estimation of Survival Probabilities for Use in Cost-effectiveness Analyses: A Comparison of a Multi-state Modeling Survival Analysis Approach with Partitioned Survival and Markov Decision-Analytic Modeling

Author

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  • Claire Williams
  • James D. Lewsey
  • Daniel F. Mackay
  • Andrew H. Briggs

Abstract

Modeling of clinical-effectiveness in a cost-effectiveness analysis typically involves some form of partitioned survival or Markov decision-analytic modeling. The health states progression-free, progression and death and the transitions between them are frequently of interest. With partitioned survival, progression is not modeled directly as a state; instead, time in that state is derived from the difference in area between the overall survival and the progression-free survival curves. With Markov decision-analytic modeling, a priori assumptions are often made with regard to the transitions rather than using the individual patient data directly to model them. This article compares a multi-state modeling survival regression approach to these two common methods. As a case study, we use a trial comparing rituximab in combination with fludarabine and cyclophosphamide v. fludarabine and cyclophosphamide alone for the first-line treatment of chronic lymphocytic leukemia. We calculated mean Life Years and QALYs that involved extrapolation of survival outcomes in the trial. We adapted an existing multi-state modeling approach to incorporate parametric distributions for transition hazards, to allow extrapolation. The comparison showed that, due to the different assumptions used in the different approaches, a discrepancy in results was evident. The partitioned survival and Markov decision-analytic modeling deemed the treatment cost-effective with ICERs of just over £16,000 and £13,000, respectively. However, the results with the multi-state modeling were less conclusive, with an ICER of just over £29,000. This work has illustrated that it is imperative to check whether assumptions are realistic, as different model choices can influence clinical and cost-effectiveness results.

Suggested Citation

  • Claire Williams & James D. Lewsey & Daniel F. Mackay & Andrew H. Briggs, 2017. "Estimation of Survival Probabilities for Use in Cost-effectiveness Analyses: A Comparison of a Multi-state Modeling Survival Analysis Approach with Partitioned Survival and Markov Decision-Analytic Mo," Medical Decision Making, , vol. 37(4), pages 427-439, May.
  • Handle: RePEc:sae:medema:v:37:y:2017:i:4:p:427-439
    DOI: 10.1177/0272989X16670617
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    References listed on IDEAS

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    1. Jackson, Christopher, 2011. "Multi-State Models for Panel Data: The msm Package for R," Journal of Statistical Software, Foundation for Open Access Statistics, vol. 38(i08).
    2. Xin Sun & Thomas Faunce, 2008. "Decision-analytical modelling in health-care economic evaluations," The European Journal of Health Economics, Springer;Deutsche Gesellschaft für Gesundheitsökonomie (DGGÖ), vol. 9(4), pages 313-323, November.
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    Cited by:

    1. Holly L. Cranmer & Gemma E. Shields & Ash Bullement, 2023. "An Investigation into the Relationship Between Choice of Model Structure and How to Adjust for Subsequent Therapies Using a Case Study in Oncology," Applied Health Economics and Health Policy, Springer, vol. 21(3), pages 385-394, May.
    2. Andre Verhoek & Parneet Cheema & Barbara Melosky & Benoit Samson & Frances A. Shepherd & Filippo Marinis & Thomas John & Yi-Long Wu & Bart Heeg & Nadia Dalfsen & Benjamin Bracke & Miguel Miranda & Sim, 2023. "Evaluation of Cost-Effectiveness of Adjuvant Osimertinib in Patients with Resected EGFR Mutation-Positive Non-small Cell Lung Cancer," PharmacoEconomics - Open, Springer, vol. 7(3), pages 455-467, May.
    3. Sébastien Gendarme & Jean-Claude Pairon & Pascal Andujar & François Laurent & Patrick Brochard & Fleur Delva & Bénédicte Clin & Antoine Gislard & Christophe Paris & Isabelle Thaon & Helene Goussault &, 2022. "Cost-Effectiveness of an Organized Lung Cancer Screening Program for Asbestos-Exposed Subjects," Post-Print hal-03783819, HAL.

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