The Effect of Spatially Inhomogeneous Electromagnetic Field and Local Inductive Hyperthermia on Nonlinear Dynamics of the Growth for Transplanted Animal Tumors

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1 pages 2010

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4.1 The influence of spatially inhomogeneous electromagnetic field and inductive hyperthermia on nonlinear aspects of malignant growth Our study demonstrated that spatially inhomogeneous electromagnetic fields with asymmetry parameters aE = 0.03 a.u. and aH = 0.16 a.u. and local IH in the range physiological hyperthermia cause influence on nonlinear dynamic of the growth of transplanted animal tumor (Orel et al., 2007b). The cancer processes are an example of nonequilibrium, non-linear process. It is predictable locally in the very short-term, but not in the medium- and long-term, as typical of systems exhibiting deterministic chaos (Rubin, 1984). The effects of spatially inhomogeneous EF and local IH in the range physiological hyperthermia warrant increased to create chaos for animal with cancer process. It effects of inducing extremely large and very rapid surges of stochastic endogenous signals in tumor.

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