“…In oncology, mathematical modelling are used in simulation: in the kinetics of tumour growth [55][56][57][58], in spatial and temporal growth of tumour avascular phase [59,60], in interaction and competition between tumour and immune system [60,61] among others. Richards, Weibull, Bertalanffy and Gompertz logistic models are applied to describe the kinetics of tumour growth, where the latter is the most employed [55,56]. In the field of electrotherapy, mathematical modelling are focussed in the explanation of different processes that are induced in the tumour after the application of LIDC, such as: pH modifications [21]; physicochemical reactions around electrodes [62]; potential dissipation in the tumour after applying LIDC [63].…”