2013
DOI: 10.2463/mrms.2013-0019
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Semi-quantification of Endolymphatic Size on MR Imaging after Intravenous Injection of Single-dose Gadodiamide: Comparison between Two Types of Processing Strategies

Abstract: Purpose: Many inner ear disorders, including M áeni àere's disease, are believed to be based on endolymphatic hydrops. We evaluated a newly proposed method for semi-quantiˆcation of endolymphatic size in patients with suspected endolymphatic hydrops that uses 2 kinds of processed magnetic resonance (MR) images.Methods: Twenty-four consecutive patients underwent heavily T 2 -weighted (hT 2 W) MR cisternography (MRC), hT 2 W 3-dimensional (3D) ‰uid-attenuated inversion recovery (FLAIR) with inversion time of 225… Show more

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Cited by 55 publications
(81 citation statements)
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“…11). 37,38,[101][102][103][104][105][106][107][108] In summary, 3D-FLAIR using VFA-TSE has several unique advantages for clinical neuroimaging as shown below: 1) Thinner slices and multi-planar reformation capability, 2) Higher flow sensitivity, 3) High sensitivity to subtle T 1 changes in fluid, 4) Free from CSF inflow artifacts, 5) Reasonable scan time, and 6) A 3D dataset that allows computer-aided analysis. Familiarity with these features of 3D-FLAIR imaging and proper use of 3D-FLAIR are important in order for radiologists to obtain useful information for patient management.…”
Section: Endolymphatic Hydropsmentioning
confidence: 99%
“…11). 37,38,[101][102][103][104][105][106][107][108] In summary, 3D-FLAIR using VFA-TSE has several unique advantages for clinical neuroimaging as shown below: 1) Thinner slices and multi-planar reformation capability, 2) Higher flow sensitivity, 3) High sensitivity to subtle T 1 changes in fluid, 4) Free from CSF inflow artifacts, 5) Reasonable scan time, and 6) A 3D dataset that allows computer-aided analysis. Familiarity with these features of 3D-FLAIR imaging and proper use of 3D-FLAIR are important in order for radiologists to obtain useful information for patient management.…”
Section: Endolymphatic Hydropsmentioning
confidence: 99%
“…All volunteers underwent heavily T 2 -weighted magnetic resonance cisternography (MRC) for anatomical reference of the fluid space and hT 2 W-3D-FLAIR (positive perilymph image: PPI) with inversion time of 2250 ms according to the clinical protocol of our hospital for evaluating endolymphatic hydrops. [19][20][21] We also obtained a positive endolymph image (PEI) with a shorter inversion time (TI) of 2050 ms. 22 We set parameters as previously reported. 22,23 hours after IV-SD-GBCM.…”
Section: Mr Imagingmentioning
confidence: 99%
“…21 We obtained a HYDROPS2-Mi2 (HYDROPS2 image Multiplied with heavily T 2 -weighted MR cisternography, Image #2 in the present study) image by multiplying the MRC and HYDROPS2. 20 Our aim in multiplying MRC onto HYDROPS and HYDROPS2 images was to set to zero the signal intensity value of bony structures possibly included in the ROI (i.e., osseous spiral lamina, interscalar septum, and bony wall of the labyrinth). Without multiplication, such bony structures might show non-zero negative signal intensity value because of the low signal-to-noise ratio of HYDROPS and HYDROPS2, which would result in the overestimation of the size of the area of the endolymph.…”
Section: Image Processingmentioning
confidence: 99%
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