Cine sequences used in cardiovascular
MRI are collection of images (usually at the same spatial location) covering of one full period of
cardiac cycle or over several periods in order to obtain complete coverage.
The
pulse sequence used, is either a standard
gradient echo pulse sequence, a segmented data acquisition, a
gradient echo EPI sequence or a
gradient echo with
balanced gradient waveform.
In
cardiac gating studies it is possible to assign consecutive lines either to different images, yielding a multiphase sequence with as many images as lines, or the lines are grouped together into segments and assigned to the same image. The overall time to acquire such a segment has to be small compared to the RR-interval of the
cardiac cycle, i. e. 50 ms, and hence contains typically 8 to 16 image lines.
This strategy is called segmented data acquisition, and has the advantage of reducing overall
imaging time for
cardiac images so that they can be acquired within a
breath hold, but obviously decreasing the
temporal resolution of each individual image.
This method shows dynamic processes, such as the ejection of blood out of the heart into the aorta, by means of fast
imaging and displaying the resulting images in a sequential-loop, the impression of a real-time movie is generated. Ejection fractions and stroke volumes calculated from these
cine MRI images in different
cardiac axes have been shown to be more accurate than any other
imaging modality.
See also
Cardiac Gating.