Characteristic features of MR truncation artifacts

Czervionke, Leo F.; Czervionke, JM; Daniels, DL; Haughton, V M

doi:10.2214/ajr.151.6.1219

Cited by 68 publications

(36 citation statements)

References 5 publications

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“…In the cervical spinal cord, this can produce a hypo-intense line in the centre. This band is, however, never as hypointense as the signal produced by CSF [6].…”

Section: Differential Diagnosismentioning

confidence: 84%

Magnetic resonance imaging (MRI) in syringomyelia

Tanghe¹

1995

Acta neurochir

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SummaryBased on an own material of 19 patients with syringomyelia and on the related literature a survey is given on the diagnosis, differential diagnosis, postoperative evaluation and the dynamics of CSF and cyst fluids, using magnetic resonance imaging (MRI).The following conclusions can be drawn: l. MRI is the preferred method of investigation for diagnosis and differential diagnosis of syringomyelia.2. Using MRI, it is possible to study fluid flow in the vertebral canal and the movements of the syrinx fluid. The data are as yet limited, but in the future will form an important contribution to our understanding of the pathogenesis of syringomyelia and to the choice of a treatment method.3. MRI is important for the postoperative follow-up of patients with syringomyelia, including tracking the cyst and detecting complications.

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“…In the cervical spinal cord, this can produce a hypo-intense line in the centre. This band is, however, never as hypointense as the signal produced by CSF [6].…”

Section: Differential Diagnosismentioning

confidence: 84%

Magnetic resonance imaging (MRI) in syringomyelia

Tanghe¹

1995

Acta neurochir

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“…If sharp signal intensity discontinuities are sampled with a low spatial frequency (i.e., low spatial resolution), the reconstructed image differs from the original object, because the high-frequency components are missing. This results in a periodic over-and undershoot of signal intensity around the structure which causes the artifact ( Figures 4 a and 4c) [4].…”

Section: Truncation Artifacts (Gibbs Ringing)mentioning

confidence: 99%

From A as in Aliasing to Z as in Zipper: Artifacts in MRI

Heiland

2008

Clin Neuroradiol

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“…Truncation artifacts result from the rectangular phase and frequency encoding steps in k-space. 5 A steep change in gadolinium concentration during k-space data acquisition, particularly noted in the arterial phase, produces phase ghosts. [6][7][8] These phenomena are emphasized with rapid injection rate, longer scanning time, and elliptical centric view ordering.…”

Section: Discussionmentioning

confidence: 99%

Reduction of Ringing Artifacts in the Arterial Phase of Gadoxetic Acid-enhanced Dynamic MR Imaging

2012

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Purpose:We assessed what MR imaging parameters aŠected ringing artifacts during the arterial phase of gadoxetic acid-enhanced dynamic magnetic resonance (MR) imaging.Materials and Methods: We tested various parameters, including imaging matrices, choice of either sequential or elliptical centric phase-encoding scheme, scanning time, and contrast injection rate using new simulation software on a personal computer and visually evaluated clinical MR images retrospectively using a 4-point scale to assess ringing artifacts.Results: The simulation study revealed that square matrices, short scanning time, slow injection rate, and sequential view ordering eŠectively reduced ringing artifacts,ˆndings conˆrmed in clinical practice using gadoxetic acid-enhanced MR imaging. Signiˆcantly fewer artifacts resulted using a slow injection rate ( Pº0.05) and using square matrices in the arterial ( Pº0.05), portal ( Pº0.01), and hepatocytic ( Pº0.05) phases.Conclusion: Choice of square matrix, slower injection rate, shorter scanning time, and sequential view ordering could reduce ringing artifacts.

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Characteristic features of MR truncation artifacts

Cited by 68 publications

References 5 publications

Magnetic resonance imaging (MRI) in syringomyelia

Magnetic resonance imaging (MRI) in syringomyelia

From A as in Aliasing to Z as in Zipper: Artifacts in MRI

Reduction of Ringing Artifacts in the Arterial Phase of Gadoxetic Acid-enhanced Dynamic MR Imaging

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