Microenvironmental influence on microtumour infiltration patterns: 3D-mathematical modelling supported byin vitrostudies

Abstract: Mathematical modelling approaches have become increasingly abundant in cancer research. Tumour infiltration extent and its spatial organization depend both on the tumour type and stage and on the bio-physicochemical characteristics of the microenvironment. This sets a complex scenario that often requires a multidisciplinary and individually adjusted approach. The ultimate goal of this work is to present an experimental/numerical combined method for the development of a three-dimensional mathematical model with… Show more

“…As previously mentioned in the "Methods" section, software architecture decisions were based on the simulation code LibreGrowth 23 . This software was used for describing the micro-environmental influence on micro-tumor infiltration patterns through in-silico/in-vitro experimentation [32][33][34] . A possible future work could be the combined use of both modules for modeling the tumor proliferation and invasion into the peripheral host tissue and its treatment with EP-based tumor treatments.…”

OpenEP: an open-source simulator for electroporation-based tumor treatments

“…As previously mentioned in the "Methods" section, software architecture decisions were based on the simulation code LibreGrowth 23 . This software was used for describing the micro-environmental influence on micro-tumor infiltration patterns through in-silico/in-vitro experimentation [32][33][34] . A possible future work could be the combined use of both modules for modeling the tumor proliferation and invasion into the peripheral host tissue and its treatment with EP-based tumor treatments.…”

OpenEP: an open-source simulator for electroporation-based tumor treatments

LibreGrowth: A tumor growth code based on reaction–diffusion equations using shared memory

An on-lattice agent-based Monte Carlo model simulating the growth kinetics of multicellular tumor spheroids