Daigo Kuroiwa1, Hiroshi Kawaguchi1,
Jeff Kershaw1, Atsumichi Tachibana1, Joonas Autio1,
Masaya Hirano2, Ichio Aoki1, Iwao Kanno1,
Takayuki Obata1
1Department of Biophysics, Molecular
Imaging Center, National Institute of Radiological Sciences, Chiba, Japan; 2Advanced
Application Center, GE Healthcare Japan, Hino, Tokyo, Japan
It
has been suggested that the BOLD effect contributes to heavily
diffusion-weighted (DW) fMRI signal changes. The BOLD effect is usually
interpreted as a change in transverse relaxation rate (δR2).
In this study, δR2 during visual stimulation (VS) and
hypercapnia (HC) DW fMRI experiments was estimated using a multiple spin-echo
EPI acquisitions after motion-probing gradients. δR2 showed
dependence on b-value during VS, but not during HC. The results suggest that
δR2 at high b-value may demonstrate a higher sensitivity to
neuronal activation than at lower b-values.