Finite Pointset Approximation for Two-Way Coupled Transient Linear Bio
Thermoelasticity in Skin Tissues: A Numerical Study with Clinical
Applications
Abstract
In this research, we introduce the Finite Pointset Method (FPM) as an
innovative approach for approximating transient linear
bio-thermoelasticity in skin tissues, addressing the complex interplay
between thermal and elastic effects under three distinct shock
conditions. Our study demonstrates significant potential for clinical
applications, providing a framework for precise measurement and
optimization of therapeutic parameters. Through a comprehensive
parametric analysis, we explore temperature distribution and
displacement profiles within tissue, emphasizing the impact of coupling
parameters and perfusion rates. Notably, our findings reveal the cooling
effects induced by perfusion under both coupled and uncoupled scenarios
and highlight the variability of thermal responses based on the coupling
parameter. This research contributes to the interdisciplinary field of
biomedical engineering, offering novel insights into haemodynamics
problems using FPM and paving the way for advancements in medical
technology and therapeutic strategies.