This project aimed to improve the treatment of colorectal carcinoma (CRC). The key to improvement of cancer therapy resides in optimal combination of drugs. Optimally combining drugs is non-trivial due to the large number of possibilities, especially when more than two drugs are combined at various doses. In the current research program it was proposed to use a mathematics-based phenotypic approach to guide the way in finding optimal combination therapies in the least possible experimental effort.
During this reporting period we have: (1) developed mathematical methods to optimize multidrug combinations in both non-cancerous and cancerous cells, (2) modelled the drug-drug interactions, (3) characterised the activity and toxicity of optimized high-order drug combinations in 2D models, (3) explored their activity in 3D complex models role of shape-change of flagella due to its flexibility on the generation of hydrodynamic forces and flows, (4) developed new short-term 3D human co-culture spheroids to capture the drug-drug interactions in complex microenvironment, (5) have shown that this in vitro optimized drug combination are active in vivo, (6) characterised the pharmacokinetics of the opimized drug combinations, (7) provided an accurate theoretical prediction for the value of the bacterial motor torque, (8) developed novel theoretical models for the bundling and unbundling of bacterial flagella, (9) captured theoretically the role of the MAPK signaling pathway on activity of the optimized drug combinations, (10) started new experimental collaborations
We have already achieved numerous remarkable deliverables:
- 10 scientific peer-reviewed publications
- 1 patent (priority stage)
- 2 personal awards (2019 SVG award, and 2020 3R UNIGE award)
- 17 presentation at national and international conferences
- 20 press releases and radio interviews