ABSTRACT In several white matter diseases of the central nervous system (CNS), and in particular in multiple sclerosis, conventional magnetic resonance imaging (MRI) has proved to be sensitive for detecting lesions and their changes over time. However, con ventional MRI is not able to characterize and quantify the tissue damage within and outside such lesions. Magnetization transfer MRI (MT‐MRI) is a quantitative MRI technique with the potential to overcome this limitation and, as a consequence, to provide additional information about the nature and the extent of tissue damage. Metrics derived from MT‐MRI can quantify the structural changes occurring within and outside lesions visible on conventional MRI scans. The present review summarizes the major contributions given by MT‐MRI to provide an accurate in vivo picture of the heterogeneity of CNS pathology and, ultimately, to improve our ability to monitor the evolution of various neurological conditions.
Cristina Granziera, Jens Wuerfel, Frederik Barkhof, Massimiliano Calabrese, Nicola De Stefano, Christian Enzinger, Nikos Evangelou, Massimo Filippi, Jeroen J.G. Geurts, Daniel S. Reich, Maria A. Rocca, Stefan Ropele, Àlex Rovira, Pascal Sati, Ahmed Toosy, Hugo Vrenken, Claudia A. M. Gandini Wheeler‐Kingshott, Ludwig Kappos, Frederik Barkhof, Nicola De Stefano, Jaume Sastre‐Garriga, Olga Ciccarelli, Christian Enzinger, Massimo Filippi, Claudio Gasperini, Ludwig Kappos, Jackie Palace, Hugo Vrenken, Àlex Rovira, Maria A. Rocca, Tarek Yousry
Šarlota Mesaroš, Maria A. Rocca, Maria Pia Sormani, Paola Valsasina, Clyde Markowitz, Nicola De Stefano, Xavier Montalbán, Frederik Barkhof, Jean‐Philippe Ranjeva, Michael Sailer, Ludwig Kappos, Giancarlo Comi, Massimo Filippi
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