PT  - JOURNAL ARTICLE
AU  - L. Danieli
AU  - L. Roccatagliata
AU  - D. Distefano
AU  - E. Prodi
AU  - G.C. Riccitelli
AU  - A. Diociasi
AU  - L. Carmisciano
AU  - A. Cianfoni
AU  - T. Bartalena
AU  - A. Kaelin-Lang
AU  - C. Gobbi
AU  - C. Zecca
AU  - E. Pravatà
TI  - Nonlesional Sources of Contrast Enhancement on Postgadolinium “Black-Blood” 3D T1-SPACE Images in Patients with Multiple Sclerosis
AID  - 10.3174/ajnr.A7529
DP  - 2022 Jun 01
TA  - American Journal of Neuroradiology
PG  - 872--880
VI  - 43
IP  - 6
4099  - http://www.ajnr.org/content/43/6/872.short
4100  - http://www.ajnr.org/content/43/6/872.full
SO  - Am. J. Neuroradiol.2022 Jun 01; 43
AB  - BACKGROUND AND PURPOSE: We hypothesized that 3D T1-TSE “black-blood” images may carry an increased risk of contrast-enhancing lesion misdiagnosis in patients with MS because of the misinterpretation of intraparenchymal vein enhancement. Thus, the occurrence of true-positive and false-positive findings was compared between standard MPRAGE and volumetric interpolated brain examination techniques.MATERIALS AND METHODS: Sampling perfection with application-optimized contrasts by using different flip-angle evolution (SPACE) images obtained from 232 patients with MS, clinically isolated syndrome, or radiologically isolated syndrome were compared with standard MPRAGE and volumetric interpolated brain examination images. The intraparenchymal vein contrast-to-noise ratio was estimated at the level of the thalami. Contrast-enhancing lesions were blindly detected by 2 expert readers and 1 beginner reader. True- and false-positives were determined by senior readers&#039; consensus. True-positive and false-positive frequency differences and patient-level diagnosis probability were tested with the McNemar test and OR. The contrast-to-noise ratio and morphology were compared using the Mann-Whitney U and χ2 tests.RESULTS: The intraparenchymal vein contrast-to-noise ratio was higher in SPACE than in MPRAGE and volumetric interpolated brain examination images (P &amp;lt; .001, both). There were 66 true-positives and 74 false-positives overall. SPACE detected more true-positive and false-positive results (P range &amp;lt; .001–.07) but did not increase the patient&#039;s true-positive likelihood (OR = 1 1.29, P = .478–1). However, the false-positive likelihood was increased (OR = 3.03–3.55, P = .008–.027). Venous-origin false-positives (n = 59) with contrast-to-noise ratio and morphology features similar to small-sized (≤14 mm3 P = .544) true-positives occurred more frequently in SPACE images (P &amp;lt; .001).CONCLUSIONS: Small intraparenchymal veins may confound the diagnosis of enhancing lesions on postgadolinium black-blood SPACE images.BRbeginner readerCELcontrast-enhancing lesionCNRcontrast-to-noise ratioERexperienced readerFPfalse positiveiVintraparenchymal veinLw-FDRlesion-wise false discovery rateSPACEsampling perfection with application-optimized contrasts by using different flip-angle evolutionTPtrue positivevFPvenous-origin FPVIBEvolumetric interpolated brain examination