Biophysical Modeling of Tumor-Immune Interactions for Optimizing T-Cell Immunotherapy
Offered By: Mathematical Oncology via YouTube
Course Description
Overview
Explore cutting-edge research in cancer treatment through this Mathematical Oncology seminar presented by Dr. Jason George. Delve into the complex world of biophysical and stochastic modeling of tumor-immune interactions, with a focus on optimizing T cell immunotherapies. Gain insights into how mathematical approaches can enhance our understanding of cancer biology and improve treatment strategies. Learn about the latest developments in this field from Dr. George, a leading researcher from the George Research Group. This seminar, part of the #mathonco series, offers a unique opportunity to witness the intersection of mathematics and oncology in advancing cancer research and treatment.
Syllabus
Jason George: Biophysical modeling of tumor-immune interactions for optimizing T-cell immunotherapy
Taught by
Mathematical Oncology
Related Courses
Experimental Genome ScienceUniversity of Pennsylvania via Coursera Introduction to Systems Biology
Icahn School of Medicine at Mount Sinai via Coursera Network Analysis in Systems Biology
Icahn School of Medicine at Mount Sinai via Coursera Dynamical Modeling Methods for Systems Biology
Icahn School of Medicine at Mount Sinai via Coursera Experimental Methods in Systems Biology
Icahn School of Medicine at Mount Sinai via Coursera