Emma O’Shaughnessy, Chloé Le Cossec, Natasha Mambour, Adrien Lecoeuvre, Julien Savatovsky, Mathieu Zmuda, Loïc Duron, Augustin Lecler
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Morphologic, diffusion-weighted, and dynamic contrast-enhanced MR images were assessed by 2 readers blinded to all data. Univariable and multivariable analyses were performed. To assess diagnostic performance, we used the following metrics: area under the curve, sensitivity, and specificity. Histologic analysis, obtained through biopsy or surgery, served as the criterion standard for determining the benign or malignant status of the tumor.</p>\n</sec>\n<sec><st>RESULTS:</st>\n<p>One hundred thirty-one subjects (66/131 [50%] women and 65/131 [50%] men; mean age, 52 [SD, 17.1] years; range, 19–88 years) were enrolled. Ninety of 131 (69%) had a benign lesion, and 41/131 (31%) had a malignant lesion. Univariable analysis showed a higher median of transfer constant from blood plasma to the interstitial environment (<I>K</I><sup>trans</sup>) and of transfer constant from the interstitial environment to the blood plasma (minute<sup>–1</sup>) (Kep) and a higher interquartile range of <I>K</I><sup>trans</sup> in malignant-versus-benign lesions (1.1 minute<sup>–1</sup> versus 0.65 minute<sup>–1</sup>, <I>P </I>= .03; 2.1 minute<sup>–1</sup> versus 1.1 minute<sup>–1</sup>, <I>P </I>= .01; 0.81 minute<sup>–1</sup> versus 0.65 minute<sup>–1</sup>, <I>P </I>= .009, respectively). The best-performing multivariable model in distinguishing malignant-versus-benign lesions included parameters from dynamic contrast-enhanced imaging, ADC, and morphology and reached an area under the curve of 0.81 (95% CI, 0.67–0.96), a sensitivity of 0.82 (95% CI, 0.55–1), and a specificity of 0.81 (95% CI, 0.65–0.96).</p>\n</sec>\n<sec><st>CONCLUSIONS:</st>\n<p>Dynamic contrast-enhanced MR imaging at 3T appears valuable when characterizing orbital lesions and provides complementary information to morphologic imaging and DWI.</p>\n</sec>","PeriodicalId":7875,"journal":{"name":"American Journal of Neuroradiology","volume":"477 1","pages":""},"PeriodicalIF":3.1000,"publicationDate":"2024-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Diagnostic Performance of Dynamic Contrast-Enhanced 3T MR Imaging for Characterization of Orbital Lesions: Validation in a Large Prospective Study\",\"authors\":\"Emma O’Shaughnessy, Chloé Le Cossec, Natasha Mambour, Adrien Lecoeuvre, Julien Savatovsky, Mathieu Zmuda, Loïc Duron, Augustin Lecler\",\"doi\":\"10.3174/ajnr.a8131\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<sec><st>BACKGROUND AND PURPOSE:</st>\\n<p>Orbital lesions are rare but serious. Their characterization remains challenging. Diagnosis is based on biopsy or surgery, which implies functional risks. It is necessary to develop noninvasive diagnostic tools. The goal of this study was to evaluate the diagnostic performance of dynamic contrast-enhanced MR imaging at 3T when distinguishing malignant from benign orbital tumors on a large prospective cohort.</p>\\n</sec>\\n<sec><st>MATERIALS AND METHODS:</st>\\n<p>This institutional review board–approved prospective single-center study enrolled participants presenting with an orbital lesion undergoing a 3T MR imaging before surgery from December 2015 to May 2021. Morphologic, diffusion-weighted, and dynamic contrast-enhanced MR images were assessed by 2 readers blinded to all data. Univariable and multivariable analyses were performed. To assess diagnostic performance, we used the following metrics: area under the curve, sensitivity, and specificity. Histologic analysis, obtained through biopsy or surgery, served as the criterion standard for determining the benign or malignant status of the tumor.</p>\\n</sec>\\n<sec><st>RESULTS:</st>\\n<p>One hundred thirty-one subjects (66/131 [50%] women and 65/131 [50%] men; mean age, 52 [SD, 17.1] years; range, 19–88 years) were enrolled. Ninety of 131 (69%) had a benign lesion, and 41/131 (31%) had a malignant lesion. Univariable analysis showed a higher median of transfer constant from blood plasma to the interstitial environment (<I>K</I><sup>trans</sup>) and of transfer constant from the interstitial environment to the blood plasma (minute<sup>–1</sup>) (Kep) and a higher interquartile range of <I>K</I><sup>trans</sup> in malignant-versus-benign lesions (1.1 minute<sup>–1</sup> versus 0.65 minute<sup>–1</sup>, <I>P </I>= .03; 2.1 minute<sup>–1</sup> versus 1.1 minute<sup>–1</sup>, <I>P </I>= .01; 0.81 minute<sup>–1</sup> versus 0.65 minute<sup>–1</sup>, <I>P </I>= .009, respectively). 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Diagnostic Performance of Dynamic Contrast-Enhanced 3T MR Imaging for Characterization of Orbital Lesions: Validation in a Large Prospective Study
BACKGROUND AND PURPOSE:
Orbital lesions are rare but serious. Their characterization remains challenging. Diagnosis is based on biopsy or surgery, which implies functional risks. It is necessary to develop noninvasive diagnostic tools. The goal of this study was to evaluate the diagnostic performance of dynamic contrast-enhanced MR imaging at 3T when distinguishing malignant from benign orbital tumors on a large prospective cohort.
MATERIALS AND METHODS:
This institutional review board–approved prospective single-center study enrolled participants presenting with an orbital lesion undergoing a 3T MR imaging before surgery from December 2015 to May 2021. Morphologic, diffusion-weighted, and dynamic contrast-enhanced MR images were assessed by 2 readers blinded to all data. Univariable and multivariable analyses were performed. To assess diagnostic performance, we used the following metrics: area under the curve, sensitivity, and specificity. Histologic analysis, obtained through biopsy or surgery, served as the criterion standard for determining the benign or malignant status of the tumor.
RESULTS:
One hundred thirty-one subjects (66/131 [50%] women and 65/131 [50%] men; mean age, 52 [SD, 17.1] years; range, 19–88 years) were enrolled. Ninety of 131 (69%) had a benign lesion, and 41/131 (31%) had a malignant lesion. Univariable analysis showed a higher median of transfer constant from blood plasma to the interstitial environment (Ktrans) and of transfer constant from the interstitial environment to the blood plasma (minute–1) (Kep) and a higher interquartile range of Ktrans in malignant-versus-benign lesions (1.1 minute–1 versus 0.65 minute–1, P = .03; 2.1 minute–1 versus 1.1 minute–1, P = .01; 0.81 minute–1 versus 0.65 minute–1, P = .009, respectively). The best-performing multivariable model in distinguishing malignant-versus-benign lesions included parameters from dynamic contrast-enhanced imaging, ADC, and morphology and reached an area under the curve of 0.81 (95% CI, 0.67–0.96), a sensitivity of 0.82 (95% CI, 0.55–1), and a specificity of 0.81 (95% CI, 0.65–0.96).
CONCLUSIONS:
Dynamic contrast-enhanced MR imaging at 3T appears valuable when characterizing orbital lesions and provides complementary information to morphologic imaging and DWI.
期刊介绍:
The mission of AJNR is to further knowledge in all aspects of neuroimaging, head and neck imaging, and spine imaging for neuroradiologists, radiologists, trainees, scientists, and associated professionals through print and/or electronic publication of quality peer-reviewed articles that lead to the highest standards in patient care, research, and education and to promote discussion of these and other issues through its electronic activities.