Abstract
Longitudinal biomarkers such as patient-reported outcomes (PROs) and quality of life (QOL) are routinely collected in cancer clinical trials or other studies. Joint modeling of PRO/QOL and survival data can provide a comparative assessment of patient-reported changes in specific symptoms or global measures that correspond to changes in survival. Motivated by a head and neck cancer clinical trial, we develop a class of trajectory-based models for longitudinal and survival data with disease progression. Specifically, we propose a class of mixed effects regression models for longitudinal measures, a cure rate model for the disease progression time (T P ), and a Cox proportional hazards model with time-varying covariates for the overall survival time (T D ) to account for T P and treatment switching. Under the semi-competing risks framework, the disease progression is the nonterminal event, the occurrence of which is subject to a terminal event of death. The properties of the proposed models are examined in detail. Within the Bayesian paradigm, we derive the decompositions of the deviance information criterion (DIC) and the logarithm of the pseudo marginal likelihood (LPML) to assess the fit of the longitudinal component of the model and the fit of each survival component, separately. We further develop ΔDIC as well as ΔLPML to determine the importance and contribution of the longitudinal data to the model fit of the T P and T D data.
Highlights
A patient-reported outcome (PRO) is any report of the status of a patient’s health condition that comes directly from the patient, without interpretation of the patient’s response by a clinician or anyone else (U.S Food and Drug Administration Guidance for Industry, 2009)
Joint modelling of PRO and survival data can provide a comparative assessment of patient-reported changes in specific symptoms or global measures that correspond to changes in survival
We propose a mixed effects regression model for longitudinal measures, a cure rate model for the disease progression time (TP) and a Cox proportional hazards model with time-varying covariates for the overall survival time (TD) to account for TP and treatment switching
Summary
A patient-reported outcome (PRO) is any report of the status of a patient’s health condition that comes directly from the patient, without interpretation of the patient’s response by a clinician or anyone else (U.S Food and Drug Administration Guidance for Industry, 2009). Joint modelling of PRO and survival data can provide a comparative assessment of patient-reported changes in specific symptoms or global measures that correspond to changes in survival. We propose a mixed effects regression model for longitudinal measures, a cure rate model for the disease progression time (TP) and a Cox proportional hazards model with time-varying covariates for the overall survival time (TD) to account for TP and treatment switching. Zhang et al (2017) developed a novel decomposition of DIC and LPML to assess the fit of the longitudinal and survival components of the joint model, separately. DICSurv measures the additional information gained by adding disease progression time and longitudinal components into modelling of overall survival data. Median survival time in days and its 95% confidence interval are 434 and (386, 470), median switch time, and its 95% confidence interval are 166 and (147, 190), and median progression time and its 95% confidence interval are 84 and (81, 86)
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