Session Details
[SS22]Understanding complex dynamics of cancer progression and treatment response
Tue. Jul 8, 2025 4:50 PM - 6:30 PM JST
Tue. Jul 8, 2025 7:50 AM - 9:30 AM UTC
Tue. Jul 8, 2025 7:50 AM - 9:30 AM UTC
Room 05
Chair:Eunjung Kim(KIST, Korea)
This mini-symposium aims to discuss recent advances in mathematical models of cancer to understand tumor progression and responses better. Featuring expert presentations, we will explore various mathematical and computational modeling approaches that simulate tumor growth, treatment effects, and the interplay between cancer cells and their microenvironment. Topics will include the development of multi-scale models that account for cellular heterogeneity, integrating clinical or biological data to refine predictive capabilities, and using agent-based models to simulate individual patient responses to therapy. By bringing together researchers from diverse fields, this symposium seeks to foster collaboration and inspire innovative strategies for personalizing cancer treatment.
[SS22-05]Mathematical Modelling Meets Cancer Biology: New Insights into Overcoming Drug Resistance
*Sungyoung Shin1, Lan K Nguyen1,2 (1. The University of Adelaide (Australia), 2. Australian Research Council Centre of Excellence for the Mathematical Analysis of Cellular Systems (MACSYS) (Australia))
[SS22-06]Mathematical Modeling of Cancer-Associated Fibroblast Heterogeneity in Cancer Progression
*Junho Lee1, Eunjung Kim1 (1. Korea Institute of Science and Technology (KIST) (Korea))
[SS22-07]Presumptive features of hypertumor: the groundwork for autologous cell defection
*Jibeom Choi1 (1. Korea Institute for Advanced Study (Korea))
[SS22-08]The storage effect enhances cancer cell heterogeneity and evolvability under environmental fluctuations
*Joon-Hyun Song1, David Basanta2, Mehdi Damaghi1 (1. Stony Brook University (United States of America), 2. Moffitt Cancer Center (United States of America))