Wlf. Bedaux et al., Simultaneous noninvasive measurement of blood flow in the great cardiac vein and left anterior descending artery, J CARD M RE, 3(3), 2001, pp. 227-235
Magnetic resonance (MR) flow mapping can be used to quantify flow velocity
and volume flow in the coronary vessels noninvasively. The close anatomic r
elationship of the left anterior descending artery (LAD) with the great car
diac vein (GCV) allows imaging of both in one view. We examined the feasibi
lity to discriminate between these two vessels based on the flow pattern an
d to measure the flow quantitatively. Eleven individuals with a normal LAD
and 8 patients with a diseased LAD underwent MR imaging. From MR angiograms
using connectivity to the aortic root, differentiation between the LAD and
GCV was obtained. Perpendicular to both vessels, phase-contrast velocity m
apping was performed to measure phasic and mean volume flow. After correcti
on for cardiac motion of the vessel, GCV flow was found to be mainly systol
ic and pointing in the inverse direction as the predominantly diastolic flo
w in the LAD. These criteria appeared valid in all subjects, even in cases
of highly stenotic arteries. The volume flow measurements corrected for bod
y surface area were 31 +/- 15 ml/min/m(2) in the normal LAD (n = 11) and 21
+/- 10 ml/min/m(2) in the diseased LAD (n = 7). The volume flow measuremen
ts in the GCV corrected for body surface area were 23 +/- 19 ml/min/m(2) in
the normal vessels and 19 +/- 16 ml/min/m(2) in the diseased vessels. In t
he patient with an occluded LAD and collaterals, the volume flow in the GCV
was 7 ml/min/m(2). MR is a unique tool for noninvasive simultaneous measur
ement of the flow pattern and volume flow in the GCV and the LAD, showing a
clear distinction between arterial and venous flow.