Developpement et validation de methodes visant une utilisation optimale d'antennes receptrices en imagerie par resonance magnetique.

摘要

Specific methods for an optimal use of specialized magnetic resonance radio-frequency coils are developed and validated. First, an improved combination of signals from the different channels of an array coil is shown to lead to a significant reduction of the noise bias in diffusion images, in comparison to the generally accepted sum-of-squares combination method. This reduction of the noise bias is demonstrated to greatly improve the accuracy of the estimated diffusion and diffusion tensor parameters, both for a standard non-accelerated acquisition and when parallel imaging is used.;Keywords. Medical physics, Magnetic resonance imaging, Radiofrequency coil, Diffusion imaging, Vascular intervention;In a second scope, the benefits arising from the use of an intravascular imaging antenna are investigated. Using a phantom study, it is demonstrated that intravascular magnetic resonance imaging offers the potential to improve the geometrical accuracy of morphological vascular measurements in comparison to standard surface magnetic resonance imaging and that a geometrical accuracy comparable to the one obtained using intravascular ultrasound can be reached. Several protocols based on a balanced steady-state free-precession sequence are compared in order to highlight the relations between several acquisitions parameters and the achieved geometrical accuracy. In particular, important relations between the vessel size, the vessel wall signal-to-noise ratio, the in-plane resolution and the achieved accuracy are illustrated. In a similar manner, the use of an intravascular antenna is demonstrated to be highly beneficial for an improved in-stent lumen visualization. When used with a balanced steady-state free-precession acquisition with a carefully chosen flip angle, intravascular magnetic resonance imaging can effectively eliminate the hindering aspect of the radiofrequency shielding effect caused by the presence of the vascular stent.