AI Article Synopsis
- Standard endpoints like objective response rates don't effectively predict overall survival (OS) for immune checkpoint inhibitor treatments.
- A study developed a population tumor kinetics (TK) model combined with a parametric survival model to analyze data from metastatic urothelial cancer patients treated with durvalumab.
- The joint modeling approach provided better tumor growth rate estimates and more accurate OS predictions compared to the sequential approach, highlighting its potential as a superior method for parametric survival analyses.
Article Abstract
Standard endpoints such as objective response rate are usually poorly correlated with overall survival (OS) for treatment with immune checkpoint inhibitors. Longitudinal tumor size may serve as a more useful predictor of OS, and establishing a quantitative relationship between tumor kinetics (TK) and OS is a crucial step for successfully predicting OS based on limited tumor size measurements. This study aims to develop a population TK model in combination with a parametric survival model by sequential and joint modeling approaches to characterize durvalumab phase I/II data from patients with metastatic urothelial cancer, and to evaluate and compare the performance of the two modeling approaches in terms of parameter estimates, TK and survival predictions, and covariate identification. The tumor growth rate constant was estimated to be greater for patients with OS ≤ 16 weeks as compared to that for patients with OS > 16 weeks with the joint modeling approach (k= 0.130 vs. 0.0551 week, p-value < 0.0001), but similar for both groups (k = 0.0624 vs.0.0563 week, p-value = 0.37) with the sequential modeling approach. The predicted TK profiles by joint modeling appeared better aligned with clinical observations. Joint modeling also predicted OS more accurately than the sequential approach according to concordance index and Brier score. The sequential and joint modeling approaches were also compared using additional simulated datasets, and survival was predicted better by joint modeling in the case of a strong association between TK and OS. In conclusion, joint modeling enabled the establishment of a robust association between TK and OS and may represent a better choice for parametric survival analyses over the sequential approach.
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| http://dx.doi.org/10.1007/s10928-023-09848-w | DOI Listing |
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