Comparing Circulating Tumor Cell Counts with Dynamic Tumor Size Changes as Predictor of Overall Survival: A Quantitative Modeling Framework

Publication date

2020-09-15

Authors

Netterberg, Ida
Karlsson, Mats O
Terstappen, Leon W M M
Koopman, MiriamORCID 0000-0003-1550-1978ISNI 0000000077221902
Punt, Cornelis J A
Friberg, Lena E

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

taverne

Abstract

PURPOSE: Quantitative relationships between treatment-induced changes in tumor size and circulating tumor cell (CTC) counts, and their links to overall survival (OS), are lacking. We present a population modeling framework identifying and quantifying such relationships, based on longitudinal data collected in patients with metastatic colorectal cancer (mCRC) to evaluate the value of tumor size and CTC counts as predictors of OS. EXPERIMENTAL DESIGN: A pharmacometric approach (i.e., population pharmacodynamic modeling) was used to characterize the changes in tumor size and CTC count and evaluate them as predictors of OS in 451 patients with mCRC treated with chemotherapy and targeted therapy in a prospectively randomized phase III study (CAIRO2). RESULTS: A tumor size model of tumor quiescence and drug resistance was used to characterize the tumor size time-course, and was, in addition to the total normalized dose (i.e., of all administered drugs) in a given cycle, related to the CTC counts through a negative binomial model (CTC model). Tumor size changes did not contribute additional predictive value when the mean CTC count was a predictor of OS. Treatment reduced the typical mean count from 1.43 to 0.477 (HR = 3.94). The modeling framework was applied to explore whether dose modifications (increased and reduced) would result in a CTC count below 1/7.5 mL after 1 to 2 weeks of treatment. CONCLUSIONS: Time-varying CTC counts can be useful for early predicting OS in patients with mCRC, and may therefore have potential for model-based treatment individualization. Although tumor size was connected to CTC, its link to OS was weaker.

Keywords

Taverne, Oncology, Cancer Research, Journal Article

Citation

Netterberg, I, Karlsson, M O, Terstappen, L W M M, Koopman, M, Punt, C J A & Friberg, L E 2020, 'Comparing Circulating Tumor Cell Counts with Dynamic Tumor Size Changes as Predictor of Overall Survival : A Quantitative Modeling Framework', Clinical cancer research : an official journal of the American Association for Cancer Research, vol. 26, no. 18, pp. 4892-4900. https://doi.org/10.1158/1078-0432.CCR-19-2570