Cerebral Blood Volume Changes in Arterial and Post-Arterial Compartments and Their Relationship with Cerebral Blood Flow Alteration During Brief Breath-Holding and Visual Stimulation in Human Brain

Jun Hua¹, Robert Stevens¹, Manus J. Donahue^1,2, Alan J. Huang¹, James J. Pekar¹, Peter C.M. van Zijl¹

Changes in CBF/CBV/arterial-CBV(CBV_a)/post-arterial-CBV(CBV_pa) were measured in human brain during breath-hold and visual stimulation. δCBV/CBV was larger during breath-hold (54.9+/-5.8%) than visual stimulation (28.2+/-5.2%), a difference primarily originating from δCBV_pa/CBV_pa (54.5+/-4.9% vs. 22.2+/-3.8%); δCBV_a/CBV_a (53+/-6%) and δCBF/CBF (61+/-7%) were comparable in both tasks. During breath-hold, vasodilation distributed proportionally among arterial and post-arterial compartments, whereas, during visual stimulation, relative change in CBV_a was greater than that in CBV_pa. Our data indicate that the coupling between arterial-CBV and CBF was largely preserved during both tasks (rCBVa=rCBF^0.86+/-0.05), while the relationship between total-CBV and CBF was substantially different between breath-hold (rCBV=rCBF^0.90+/-0.05) and visual (rCBV=rCBF^0.52+/-0.04) stimulation.