This method synchronize the heartbeat with the beginning of the TR, whereat the r wave is used as the
trigger.
Cardiac gating times the acquisition of MR data to physiological motion in order to minimize motion artifacts. ECG
gating techniques are useful whenever data acquisition is too slow to occur during a short fraction of the
cardiac cycle.
Image
blurring due to cardiac-induced motion occurs for imaging times of above approximately 50 ms in systole, while for imaging during diastole the critical time is of the order of 200-300 ms. The acquisition of an entire image in this time is only possible with using
ultrafast MR imaging techniques. If a series of images using
cardiac gating or real-time
echo planar imaging EPI are acquired over the entire
cardiac cycle, pixel-wise
velocity and vascular
flow can be obtained.
In simple
cardiac gating, a single image line is acquired in each
cardiac cycle. Lines for multiple images can then be acquired successively in consecutive gate intervals. By using the standard
multiple slice imaging and a
spin echo pulse sequence, a number of slices at different anatomical levels is obtained. The
repetition time (TR) during a ECG-gated acquisition equals the RR interval, and the RR interval defines the minimum possible
repetition time (TR). If longer TRs are required, multiple integers of the RR interval can be selected. When using a
gradient echo pulse sequence, multiple phases of a single anatomical level or multiple slices at different anatomical levels can be acquired over the
cardiac cycle.
Also called
cardiac triggering.