Abstract
The purpose of our study is to evaluate the T2 weighted sequence with multishot radial sampling (Radial Acquisition
Multi-shot) also known as Multivane sequence in Philips Healthcare, introduced by J.Pipe with the aim to minimize
motion artifacts in Magnetic Resonance Imaging (MRI).
In the field of prostate MRI the Multivane sequence is useful in non-cooperating patients and/or patients who, due
to their clinical conditions (such as glaucoma, arrhythmia, and severe benign prostatic hypertrophy), have not been
receiving intravenous antispasmodic agents, administered for limiting the motility of intestinal loops, particularly
rectum.
The Multivane sequence is based on the collection of data throughout parallel multiple lines in periodic rotation
around the center of k-space and advanced mathematical reconstruction. As the data at the center of k-space (low
frequency) containing signals with maximum amplitude will be continuously sampled, this trajectory will provide an
excellent contrast-noise ratio (CNR) and spatial resolution, without motion artifacts responsible of “blurring” in the
final image. Specifically, each given point of the periphery of the k-space will be sampled by a certain line and the
next one and so on, and for the final image reconstruction, once multiple data will be estimated, different algorithms
will be used to compensate for motion artifacts.
In this study we compared the Radial Acquisition Multishot TSE Multivane (Philips Healthcare) with the classic T2W
TSE sequences with linear Cartesian sampling. Multivane sequences have proven to be superior and therefore of
greater utility compared to sequences with linear Cartesian data sampling, in patients who can not receiving spasmolytic agents.
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