NONINVASIVE EXTRACTION OF INPUT FUNCTION FROM CAROTID ARTERY IN H 2 15 O DYNAMIC BRAIN POSITRON EMISSION TOMOGRAPHY USING INDEPENDENT COMPONENT ANALYSIS
Ji Young Ahn, Jae Sung Lee, Myoung Jin Jang, and Dong Soo Lee
For the absolute quantification of regional cerebral
blood flow (rCBF) by means of H 2
15 O positron emission
tomography (PET) and kinetic modeling, arterial input
function should be determined accurately. Even if arterial
blood sampling, as an input function, provides an accurate
timeactivity curve (TAC), it is invasive and delay from
carotid artery to radial artery should be corrected. Since the
TAC from the region of interest (ROI) drawn on the small
area containing carotid artery could not be determined
objectively, more reproducible and objective method for
noninvasive derivation of the input function is required.
We applied independent component analysis (ICA) to
dynamic brain H 2
15 O PET image (canine study) to obtain
input function from carotid artery noninvasively. The
independent components were estimated by recursively
minimizing the mutual information (measure of
dependency) among the estimated independent components.
We calculated area under the curve (AUC) of input
functions from ICA method and from blood samples and
compared each other to validate the accuracy of ICA
method. ICA successfully extracted carotid artery TACs
from the H 2
15 O PET images and their corresponding
images. The extracted TACs by ICA method were well
correlated with the arterial blood samples.