BOLD fMRI in the White Matter as a Marker of Aging and Small Vessel Disease

作者:Makedonov Ilia*; Black Sandra E; MacIntosh Bradley J
来源:PLos One, 2013, 8(7): e67652.
DOI:10.1371/journal.pone.0067652

摘要

Purpose: Determine whether white matter signal fluctuation on T2* weighted BOLD contrast images are associated with aging and cerebral small vessel disease (SVD). Methodology: Resting state BOLD data were collected with a 250 ms repetition time (TR) to achieve unaliased, ungated cardiac sampled BOLD (cs-BOLD) images on 11 young adult controls, 10 healthy older adult controls and 7 adults with extensive white matter hyperintensities (WMH) from SVD. Tissue classes (WM and GM) were segmented on T1 images. WMH were identified on FLAIR images in the SVD group. Raw physiological noise (sigma(physio)) and cardiac pulsatility (i.e. fluctuations at the cardiac frequency) were calculated voxel wise and group differences were tested by ANOVA. It was also possible to calculate sigma(physio) in 2s TR cardiac aliased whole-brain BOLD (wb-BOLD) data (N = 84) obtained from the International Consortium for Brain Mapping. Results: CS-BOLD metrics showed an aging and SVD effects (p<0.0005). Covariates such as thermal noise, WM volume and partial volume did not influence the significant aging effect seen on the cardiac pulsatility metric (p<0.017) but did influence the sigma(physio) (p = 0.184). As a verification of the cs-BOLD findings, the wb-BOLD also showed a linear aging effect of sigma(physio) in WM. In the SVD adults, cardiac pulsatility and sigma(physio) were lower in WMH regions compared to normal appearing white matter (NAWM) regions (p<0.0013 and p<0.002, respectively). Cardiac pulsatility was better able to distinguish WMH regions from NAWM than sigma(physio) as measured by effect size (Cohen's d 2.2 and 0.88, respectively). Conclusion: NAWM was found to have graded increases in cardiac pulsations due to age and SVD, independently. Within SVD participants, WMH lesions had reduced physiological noise compared to NAWM. Cardiac pulsatility in resting BOLD data may provide a complementary dynamic measure of WM integrity to add to static FLAIR anatomical images.

  • 出版日期2013-7-2