We investigate the dependence of high frequency signal changes on decreases in global blood flow using hyperventilation induced hypocapnia, which substantially alter the amplitude and time course of the hemodynamic response function (HRF) with only minor changes in neural activation levels. We also investigate the sensitivity of multi-band-EPI and a prototype ultra-high-speed multi-band-EVI (MB-EVI) sequence for detecting high frequency correlations. In the first subject, an increase in high frequency correlations during hypocapnia was detected in MB-EPI and MB-EVI. These studies suggest that high frequency signals changes may be mediated by vascular physiology, but movement related artifacts cannot be excluded.
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