http://www.nitrc.org/forum/forum.php?forum_id=2756 <table border="0" width="100%"><tr><td align="left"/></tr></table> <p><b>Large enhancement of perfusion contribution on fMRI signal.</b></p> <p>J Cereb Blood Flow Metab. 2012 Mar 7;</p> <p>Authors: Wang X, Zhu XH, Zhang Y, Chen W</p> <p>Abstract<br/> The perfusion contribution to the total functional magnetic resonance imaging (fMRI) signal was investigated using a rat model with mild hypercapnia at 9.4 T, and human subjects with visual stimulation at 4 T. It was found that the total fMRI signal change could be approximated as a linear superposition of 'true' blood oxygenation level-dependent (BOLD; T(2)/T(2)(*)) effect and the blood flow-related (T(1)) effect. The latter effect was significantly enhanced by using short repetition time and large radiofrequency pulse flip angle and became comparable to the 'true' BOLD signal in response to a mild hypercapnia in the rat brain, resulting in an improved contrast-to-noise ratio (CNR). Bipolar diffusion gradients suppressed the intravascular signals but had no significant effect on the flow-related signal. Similar results of enhanced fMRI signal were observed in the human study. The overall results suggest that the observed flow-related signal enhancement is likely originated from perfusion, and this enhancement can improve CNR and the spatial specificity for mapping brain activity and physiology changes. The nature of mixed BOLD and perfusion-related contributions in the total fMRI signal also has implication on BOLD quantification, in particular, the BOLD calibration model commonly used to estimate the change of cerebral metabolic rate of oxygen.Journal of Cerebral Blood Flow &amp; Metabolism advance online publication, 7 March 2012; doi:10.1038/jcbfm.2012.26.<br/> </p><p>PMID: 22395206 [PubMed - as supplied by publisher]</p> en-us Copyright 2000-2026 NITRC OSI Mon, 27 Apr 2026 8:02:34 GMT http://blogs.law.harvard.edu/tech/rss NITRC RSS generator