M
Marcello Cadioli
Researcher at Philips
Publications - 36
Citations - 2005
Marcello Cadioli is an academic researcher from Philips. The author has contributed to research in topics: Magnetic resonance imaging & Diffusion MRI. The author has an hindex of 18, co-authored 35 publications receiving 1796 citations. Previous affiliations of Marcello Cadioli include Vita-Salute San Raffaele University & University of Trieste.
Papers
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Journal ArticleDOI
Motor and language DTI Fiber Tracking combined with intraoperative subcortical mapping for surgical removal of gliomas.
Lorenzo Bello,A. Gambini,Antonella Castellano,Giorgio Carrabba,Francesco Acerbi,Enrica Fava,Carlo Giussani,Marcello Cadioli,Valeria Blasi,Alessandra Casarotti,Alessandra Casarotti,Costanza Papagno,Arun Kumar Gupta,Sergio M. Gaini,Giuseppe Scotti,Andrea Falini +15 more
TL;DR: The combination of DTI-FT and ISM decreased the duration of surgery, patient fatigue, and intraoperative seizures, and enhances surgical performance and safety maintaining a high rate of functional preservation.
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Presurgical Functional MR Imaging of Language and Motor Functions: Validation with Intraoperative Electrocortical Mapping
Alberto Bizzi,Valeria Blasi,Andrea Falini,Paolo Ferroli,Marcello Cadioli,U. Danesi,Domenico Aquino,Carlo Efisio Marras,Dario Caldiroli,Giovanni Broggi +9 more
TL;DR: Functional MR imaging is a sensitive and specific method for mapping language and motor functions in patients with a focal mass adjacent to eloquent cortex, by using intraoperative electrocortical mapping (ECM) as the reference standard.
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In Vivo Quantification of Helical Blood Flow in Human Aorta by Time-Resolved Three-Dimensional Cine Phase Contrast Magnetic Resonance Imaging
Umberto Morbiducci,Raffaele Ponzini,Giovanna Rizzo,Marcello Cadioli,Antonio Esposito,Francesco De Cobelli,Alessandro Del Maschio,Franco Maria Montevecchi,Alberto Redaelli +8 more
TL;DR: This study shows that the quantification of helical blood flow in vivo is feasible, and it might allow detection of anomalies in the expected physiological development of helicals flow in aorta and accordingly, could be used in a diagnostic/prognostic index for clinical practice.
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Mechanistic insight into the physiological relevance of helical blood flow in the human aorta: an in vivo study
Umberto Morbiducci,Raffaele Ponzini,Giovanna Rizzo,Marcello Cadioli,Antonio Esposito,Franco Maria Montevecchi,Alberto Redaelli +6 more
TL;DR: The hemodynamics within the aorta of five healthy humans were investigated and group analysis suggested that aortic helical blood flow dynamics is an emerging behavior that is common to normal individuals, and the results suggest that helical flow might be caused by natural optimization of fluid transport processes in the cardiovascular system.
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Magnetic-resonance-based tracking and quantification of intravenously injected neural stem cell accumulation in the brains of mice with experimental multiple sclerosis.
Letterio S. Politi,Marco Bacigaluppi,Elena Brambilla,Marcello Cadioli,Andrea Falini,Giancarlo Comi,Giuseppe Scotti,Gianvito Martino,Stefano Pluchino +8 more
TL;DR: In vivo experiments to track neural stem/precursor cells (NPCs) in vivo using magnetic resonance (MR) imaging provide evidence that clinical‐grade human MR can be used for noninvasive monitoring and quantification of NPC accumulation in the central nervous system upon systemic cell injection.