Title :
Collateral Thermal Effect of MRI-LINAC Gradient Coils on Metallic Hip Prostheses
Author :
Zilberti, Luca ; Bottauscio, Oriano ; Chiampi, Mario ; Hand, Jeff ; Sanchez Lopez, Hector ; Crozier, Stuart
Author_Institution :
Ist. Naz. di Ricerca Metrol., Turin, Italy
Abstract :
This paper aims at evaluating the thermal effects produced by the gradient coils on patients carrying metallic hip prostheses when undergoing check-up in combined magnetic resonance imaging with a linear accelerator systems. The computations are performed by two noncommercial codes specifically developed by the authors for voxel based human models. The electromagnetic field problem is solved by a hybrid finite element-boundary element technique implemented in a massively parallelized GPU system. The temperature elevation due to the electromagnetic exposure is then evaluated through a finite element code. The computations are performed for a large number of situations, considering both radial and axial arrangements of the patient.
Keywords :
biomedical MRI; biomedical materials; biothermics; boundary-elements methods; coils; dosimetry; finite element analysis; graphics processing units; linear accelerators; metals; prosthetics; two-dimensional electron gas; MRI-LINAC gradient coils; axial arrangements; collateral thermal effect; combined magnetic resonance imaging; electromagnetic exposure; electromagnetic field problem; finite element code; hybrid finite element-boundary element technique; linear accelerator systems; massively parallelized GPU system; metallic hip prostheses; noncommercial codes; radial arrangements; temperature elevation; voxel based human models; Biological system modeling; Coils; Electromagnetics; Hip; Implants; Magnetic resonance imaging; Mathematical model; Dosimetry; Pennes??? bioheat equation; finite element???boundary element method; magnetic resonance imaging (MRI); medical implants;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2323119
