[PDF][PDF] Temperature distribution in living biological tissue simultaneously subjected to oscillatory surface and spatial heating: analytical and numerical analysis
E Kengne, A Lakhssassi, R Vaillancourt - International Mathematical …, 2012 - m-hikari.com
E Kengne, A Lakhssassi, R Vaillancourt
International Mathematical Forum, 2012•m-hikari.comTo predict temperature distribution in a finite biological tissue simultaneously subjected to
oscillatory surface and spatial heating, we apply a nonlinear one-dimensional temperature-
dependent blood perfusion bioheat Pennes transfer equation. Going from works of Jens
Lang et al. in IEEE Trans. on Biomedical Engineering (1999) pp. 1129–138 and Tzu-Ching
et al. in Medical Engineering & Physics 29 (2007) pp. 946–953, we investigate analytically
and numerically the effect of various blood and heating parameters on the temperature …
oscillatory surface and spatial heating, we apply a nonlinear one-dimensional temperature-
dependent blood perfusion bioheat Pennes transfer equation. Going from works of Jens
Lang et al. in IEEE Trans. on Biomedical Engineering (1999) pp. 1129–138 and Tzu-Ching
et al. in Medical Engineering & Physics 29 (2007) pp. 946–953, we investigate analytically
and numerically the effect of various blood and heating parameters on the temperature …
Abstract
To predict temperature distribution in a finite biological tissue simultaneously subjected to oscillatory surface and spatial heating, we apply a nonlinear one-dimensional temperature-dependent blood perfusion bioheat Pennes transfer equation. Going from works of Jens Lang et al. in IEEE Trans. on Biomedical Engineering (1999) pp. 1129–138 and Tzu-Ching et al. in Medical Engineering & Physics 29 (2007) pp. 946–953, we investigate analytically and numerically the effect of various blood and heating parameters on the temperature distribution in muscle, tumor, fat, dermis, and subcutaneous tissues.
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