Fuqiang Zhao1, Denise Welsh1,
Mangay Williams1, Alexandre Coimbra1, Mark O. Urban2,
Richard Hargreaves2, Jeffrey Evelhoch1, Donald S.
Williams1
1Imaging Department, Merck Research
Laboratories, West Point, PA, United States; 2Neuroscience
Department, Merck Research Laboratories, West Point, PA, United States
In
central nervous system, neuronal activity generally leads to increases in
local venous blood oxygenation level (BOLD), cerebral blood flow (CBF), and
cerebral blood volume (CBV). However, previous studies have reported that the
neural activity in rat caudate putamen (CPu) during noxious electrical
stimulation (NES) of paws causes BOLD and CBV decreases. To further
understand the specific hemodynamic response in this anatomical structure and
its temporal characteristics, BOLD, CBV, and CBF fMRI studies were performed
in a rat brain slice containing the CPu. Our results suggest that the neural
activity in the CPu during NES causes decreases in CBV and CBF, and an
increase in CMRO2 which lasts >2 minutes after stopping the NES.