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Quantitative cancer-immunity cycle modeling for predicting disease progression in advanced metastatic colorectal cancer

Chenghang Li, Yongchang Wei, Jinzhi Lei

2025npj Systems Biology and Applications13 citationsDOIOpen Access PDF

Abstract

Patients with advanced metastatic colorectal cancer (mCRC) typically exhibit significant interindividual differences in treatment responses and face poor survival outcomes. To systematically analyze the heterogeneous tumor progression and recurrence observed in advanced mCRC patients, we developed a quantitative cancer-immunity cycle (QCIC) model. The QCIC model employs differential equations to capture the biological mechanisms underlying the cancer-immunity cycle and predicts tumor evolution dynamics under various treatment strategies through stochastic computational methods. We introduce the treatment response index (TRI) to quantify disease progression in virtual clinical trials and the death probability function (DPF) to estimate overall survival. Additionally, we investigate the impact of predictive biomarkers on survival prognosis in advanced mCRC patients, identifying tumor-infiltrating CD8+ cytotoxic T lymphocytes (CTLs) as key predictors of disease progression and the tumor-infiltrating CD4+ Th1/Treg ratio as a significant determinant of survival outcomes. This study presents an approach that bridges the gap between diverse clinical data sources and the generation of virtual patient cohorts, providing valuable insights into interindividual treatment variability and survival forecasting in mCRC patients.

Topics & Concepts

Colorectal cancerMedicineCancerOncologyDiseaseImmunityInternal medicineImmunologyImmune systemCancer Immunotherapy and BiomarkersMathematical Biology Tumor GrowthColorectal Cancer Treatments and Studies
Quantitative cancer-immunity cycle modeling for predicting disease progression in advanced metastatic colorectal cancer | Litcius