Author : Arthur Coste
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (12 download)
Book Synopsis Développements Méthodologiques Pour L'IRM À Haut Champ Magnétique Du Sodium, Du Phosphore Et Du Lithium by : Arthur Coste
Download or read book Développements Méthodologiques Pour L'IRM À Haut Champ Magnétique Du Sodium, Du Phosphore Et Du Lithium written by Arthur Coste and published by . This book was released on 2017 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nuclear Magnetic Resonance Imaging of exotic (X) nuclei, other than Hydrogen, allows to probe in vivo metabolism and cellular physiology in normal or pathological conditions. Moreover, X-MRI can be used in pharmacology studies. However, X-MRI suffers from the relatively low sensitivities and in vivo concentrations of these nuclei. Sodium nuclei (23Na) is the second most NMR visible nuclei in brain tissues and its distribution in both intra- and extra-cellular compartments is tightly regulated by, in particular, the Na+/K+ ATPase pump. Stocks of Adenosine Triphosphate (ATP) and Phosphocreatine (PCr), main sources of cellular energy are perpetually maintained to ensure proper cellular function. This is why, study of spatial distributions of these two phosphorylated metabolites along with Sodium could yield insights about cellular viability and metabolism. Finally, Lithium is the reference treatment to prevent the onset of maniac events for patients suffering from bipolar disorders. Nevertheless, many questions are still unanswered about its spatial distribution in brain tissues and its underlying therapeutic mechanism. During these three years of PhD, we implemented efficient Acquisition and Reconstruction protocols for 23Na, 31P and 7Li MRI using Ultra-Short Echo-Time (UTE) sequences and non-Cartesian sampling combined with dedicated quantification pipelines to obtain accurate and robust concentration measurements in the brain. In particular, our proposed method accounts for signal bias due to the heterogeneities in coil transmission (B1+) and reception (B1-). Additionally, longitudinal (T1) and transverse (T2) relaxation times were assessed and the NMR signal was corrected for their respective weighting. Our quantification pipeline was validated in vitro for 23Na MRI. Various Fourier space sampling schemes along with under-sampling strategies and reconstruction methods were evaluated and compared. Finally, a multiple-gradient-echo (MGE) acquisition was implemented to explore cellular compartmentalization as an alternative to Multiple Quantum Filtering (MQF) approaches. These developments were applied at 3T in a clinical research setting for 23Na MRI on healthy volunteers in collaboration with the Neurology department of Aachen University Clinic, opening the way for an ongoing study of Alzheimer's disease patients. Proof-of-concept studies were conducted at 7T at NeuroSpin for 31P MRI on healthy volunteers and for 7Li MRI in bipolar patients to study brain lithium distribution in collaboration with Hospital Fernand Widal in Paris.