Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5419662 | Progress in Nuclear Magnetic Resonance Spectroscopy | 2011 | 17 Pages |
Abstract
⺠This article reviews the developments of in vivo 17O NMR imaging in brain research. ⺠In vivo 17O NMR imaging has improved significantly at high/ultrahigh field. ⺠In vivo 17O NMR can non-invasively image brain oxygen metabolism and perfusion. ⺠In vivo 17O NMR is useful for mapping the functional change in oxygen metabolism. ⺠In vivo 17O NMR imaging could potentially be used for human and clinic applications.
Keywords
τcT2∗CMRO2CMRGlcLDFCSICBFADPSNRAdenosine TriphosphateATPadenosine diphosphateChemical shift imagingfunctional magnetic resonance imagingfMRIPositron emission tomographycerebral blood flowlongitudinal relaxation timetransverse relaxation timerotational correlation timeBBBinorganic phosphateMagnetic field strengthlaser Doppler flowmeterOxidative metabolismBrainHigh fieldSignal-to-noise ratioPET
Related Topics
Physical Sciences and Engineering
Chemistry
Physical and Theoretical Chemistry
Authors
Xiao-Hong Zhu, Wei Chen,