Transient temperature rise in a mouse due to low-frequency regional hyperthermia


Autoria(s): Trakic, Adnan; Liu, Feng; Crozier, Stuart
Contribuinte(s)

S. Webb

Data(s)

01/01/2006

Resumo

A refined nonlinear heat transfer model of a mouse has been developed to simulate the transient temperature rise in a neoplastic tumour and neighbouring tissue during regional hyperthermia using a 150 kHz inductive coil. In this study, we incorporate various bio-energetic enhancements to the heat transfer equation and numerical validations based on experimental findings for the mouse, in terms of nonlinear metabolic heat production, homeothermy, blood perfusion parameters, thermoregulation, psychological and physiological effects. The discretized bio-heat transfer equation has been validated with the commercial software FEMLAB on a canonical multi-sphere object before applying the scheme to the inhomogeneous mouse voxel phantom. The time-dependent numerical results of regional hyperthermia of mouse thigh have been compared with the available experimental temperature results with only a few small disparities. During the first 20 min of local unfocused heating, the temperature in the tumour and the surrounding tissue increased by around 7.5 degrees C. The objective of this preliminary study was to develop a validated electrothermal numerical scheme for inductive hyperthermia of a small mammal with the intention of expanding the model into a complete numerical solution involving ferromagnetic nanoparticles for targeted heating of tumours at low frequencies. In addition, the numerical scheme herein could assist in optimizing and tailoring of focused electromagnetic fields for hyperthermia.

Identificador

http://espace.library.uq.edu.au/view/UQ:81190

Idioma(s)

eng

Publicador

IOP Publishing Ltd

Palavras-Chave #Engineering, Biomedical #Radiology, Nuclear Medicine & Medical Imaging #Tissue Heat-transfer #Body-temperature #Blood-flow #Radiation #Model #Thermoregulation #System #Coils #Mice #Mri #C1 #090399 Biomedical Engineering not elsewhere classified
Tipo

Journal Article