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Techniques for blood volume fMRI with VASO: From low-resolution mapping towards sub-millimeter layer-dependent applications

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Abstract

Quantitative cerebral blood volume (CBV) fMRI has the potential to overcome several specific limitations of BOLD fMRI. It provides direct physiological interpretability and promises superior localization specificity in applications of sub-millimeter resolution fMRI applications at ultra-high magnetic fields (7T and higher). Non-invasive CBV fMRI using VASO (vascular space occupancy), however, is inherently limited with respect to its data acquisition efficiency, restricting its imaging coverage and achievable spatial and temporal resolution. This limitation may be reduced with recent advanced acceleration and reconstruction strategies that allow two-dimensional acceleration, such as in simultaneous multi-slice (SMS) 2D-EPI or 3D-EPI in combination with CAIPIRINHA field-of-view shifting. In this study, we sought to determine the functional sensitivity and specificity of these readout strategies with VASO over a broad range of spatial resolutions; spanning from low spatial resolution (3mm) whole-cortex to sub-millimeter (0.75mm) slab-of-cortex (for cortical layer-dependent applications). In the thermal-noise-dominated regime of sub-millimeter resolutions, 3D-EPI-VASO provides higher temporal stability and sensitivity to detect changes in CBV compared to 2D-EPI-VASO. In this regime, 3D-EPI-VASO unveils task activation located in the cortical laminae with little contamination from surface veins, in contrast to the cortical surface weighting of GE-BOLD fMRI. In the physiological-noise-dominated regime of lower resolutions, however, 2D-SMS-VASO shows superior performance compared to 3D-EPI-VASO. Due to its superior sensitivity at a layer-dependent level, 3D-EPI VASO promises to play an important role in future neuroscientific applications of layer-dependent fMRI.

    Research areas

  • Vascular space occupancy, SS-SI VASO, Cerebral blood volume, Simultaneous multi-slice, 3D-EPI, 7 T MRI, Layer-dependent fMRI, VASCULAR-SPACE-OCCUPANCY, NEGATIVE BOLD RESPONSES, GRADIENT-ECHO FMRI, TO-NOISE RATIO, WHOLE-BRAIN, SPIN-ECHO, FUNCTIONAL MRI, SINGLE-SHOT, 7 TESLA, LAMINAR DIFFERENCES

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Details

Original languageEnglish
Pages (from-to)131-143
Number of pages13
JournalNeuroimage
Volume164
Early online date18 Nov 2016
DOIs
Publication statusPublished - 1 Jan 2018