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A multistate model incorporating estimation of excess hazards and multiple time scales

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journal contribution
posted on 2021-04-14, 09:23 authored by Caroline E Weibull, Paul C Lambert, Sandra Eloranta, Therese ML Andersson, Paul W Dickman, Michael J Crowther
As cancer patient survival improves, late effects from treatment are becoming the next clinical challenge. Chemotherapy and radiotherapy, for example, potentially increase the risk of both morbidity and mortality from second malignancies and cardiovascular disease. To provide clinically relevant population-level measures of late effects, it is of importance to (1) simultaneously estimate the risks of both morbidity and mortality, (2) partition these risks into the component expected in the absence of cancer and the component due to the cancer and its treatment, and (3) incorporate the multiple time scales of attained age, calendar time, and time since diagnosis. Multistate models provide a framework for simultaneously studying morbidity and mortality, but do not solve the problem of partitioning the risks. However, this partitioning can be achieved by applying a relative survival framework, allowing us to directly quantify the excess risk. This article proposes a combination of these two frameworks, providing one approach to address (1) to (3). Using recently developed methods in multistate modeling, we incorporate estimation of excess hazards into a multistate model. Both intermediate and absorbing state risks can be partitioned and different transitions are allowed to have different and/or multiple time scales. We illustrate our approach using data on Hodgkin lymphoma patients and excess risk of diseases of the circulatory system, and provide user-friendly Stata software with accompanying example code.

History

Citation

Statistics in Medicine. 2021;1–16

Author affiliation

Department of Health Sciences, University of Leicester

Version

  • VoR (Version of Record)

Published in

Statistics in Medicine

Volume

40

Issue

9

Pagination

2139-2154

Publisher

Wiley

issn

0277-6715

eissn

1097-0258

Acceptance date

2021-01-12

Copyright date

2021

Available date

2021-04-14

Spatial coverage

England

Language

English