Present Status of Magnetic Resonance Imaging and Spectroscopy in Animal Stroke Models
Author(s) -
Ralph Weber,
Pedro RamosCabrer,
Mathias Hoehn
Publication year - 2005
Publication title -
journal of cerebral blood flow and metabolism
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.167
H-Index - 193
eISSN - 1559-7016
pISSN - 0271-678X
DOI - 10.1038/sj.jcbfm.9600241
Subject(s) - magnetic resonance imaging , modality (human–computer interaction) , functional magnetic resonance imaging , stroke (engine) , magnetic resonance spectroscopic imaging , in vivo magnetic resonance spectroscopy , neuroimaging , animal model , functional imaging , hemodynamics , medicine , neuroscience , biomedical engineering , nuclear magnetic resonance , radiology , computer science , cardiology , biology , physics , artificial intelligence , thermodynamics
Magnetic resonance imaging (MRI) is based on a wide variety of physical parameters, which, in principle, can all influence the image contrast conditions. As these diverse variables are validated by independent physiological, metabolic, hemodynamic, and histological techniques, a physiological MRI evolves. This imaging modality has been successfully applied to experimental stroke studies, covering a broad range of raised questions. In the present review, we present an overview of possible physiological criteria to be studied by in vivo MRI and magnetic resonance spectroscopy, and critically analyze the present limits and future potential of the imaging technique for experimental stroke investigations. The documented applications cover the spectrum from morphological-structural details of the lesion to hemodynamic and metabolic alterations, inflammatory reaction, evaluation of thrombolytic treatment, studies on recovery of functional brain activation by functional MRI, and, finally, the most recent applications of exploring stem cells for regenerative therapy.
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