Litcius/Paper detail

The Effect of Fractional Time Derivative of Bioheat Model in Skin Tissue Induced to Laser Irradiation

Aatef Hobiny, Faris Alzahrani, Ibrahim A. Abbas, Marín Marín

2020Symmetry137 citationsDOIOpen Access PDF

Abstract

This work uses the “fractional order bio-heat model” (Fob) model of heat conduction to offer a new interpretation to study the thermal damages in a skin tissue caused by laser irradiation. The influences of fractional order and the thermal relaxation time parameters on the temperature of skin tissue and the resulting thermal damage are studied. In the Laplace domain, the analytical solutions of temperature are obtained. Using the equation of Arrhenius, the resulting thermal injury to the tissues is assessed by the denatured protein ranges. The numerical results of the thermal damages and temperature are presented graphically. A parametric analysis is dedicated to the identifications of suitable procedures for the selection of significant design variables to achieve an effective thermal in the therapy of hyperthermia.

Topics & Concepts

Laplace transformMaterials scienceIrradiationThermal conductionArrhenius equationThermalWork (physics)Fractional calculusRelaxation (psychology)LaserHeat generationThermodynamicsBiomedical engineeringMechanicsMathematicsComposite materialPhysicsKineticsApplied mathematicsMathematical analysisOpticsMedicineClassical mechanicsInternal medicineNuclear physicsThermoelastic and Magnetoelastic PhenomenaInfrared Thermography in MedicineThermoregulation and physiological responses