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Multicenter study demonstrates radiomic features derived from magnetic resonance perfusion images identify pseudoprogression in glioblastoma

Nature Communications, Volume 10, No. 1, Article 3170, Year 2019

Pseudoprogression (PsP) is a diagnostic clinical dilemma in cancer. In this study, we retrospectively analyse glioblastoma patients, and using their dynamic susceptibility contrast and dynamic contrast-enhanced perfusion MRI images we build a classifier using radiomic features obtained from both Ktrans and rCBV maps coupled with support vector machines. We achieve an accuracy of 90.82% (area under the curve (AUC) = 89.10%, sensitivity = 91.36%, 67 specificity = 88.24%, p = 0.017) in differentiating between pseudoprogression (PsP) and progressive disease (PD). The diagnostic performances of the models built using radiomic features from Ktrans and rCBV separately were equally high (Ktrans: AUC = 94%, 69 p = 0.012; rCBV: AUC = 89.8%, p = 0.004). Thus, this MR perfusion-based radiomic model demonstrates high accuracy, sensitivity and specificity in discriminating PsP from PD, thus provides a reliable alternative for noninvasive identification of PsP versus PD at the time of clinical/radiologic question. This study also illustrates the successful application of radiomic analysis as an advanced processing step on different MR perfusion maps.

https://efashare.b-cdn.net/share/pmc/articles/PMC6639324/bin/41467_2019_11007_MOESM1_ESM.pdf

Elshafeey, Nabil
1. United States, Houston The University of Texas Md Anderson Cancer Center
Kotrotsou, Aikaterini
1. United States, Houston The University of Texas Md Anderson Cancer Center
Hassan, Ahmed
1. United States, Houston The University of Texas Md Anderson Cancer Center
ElShafei, Nancy Attia Ahmed
1. United States, Houston The University of Texas Md Anderson Cancer Center
2. Egypt, Giza National Research Centre
Hassan, Islam
1. United States, Houston The University of Texas Md Anderson Cancer Center
Ahmed, Sara
1. United States, Houston The University of Texas Md Anderson Cancer Center
Abrol, Srishti
1. United States, Houston The University of Texas Md Anderson Cancer Center
Agarwal, Anand
1. United States, Houston The University of Texas Md Anderson Cancer Center
El Salek, Kamel
1. United States, Houston The University of Texas Md Anderson Cancer Center
Bergamaschi, Samuel
1. United States, Los Angeles Keck School of Medicine of Usc
Acharya, Jay
1. United States, Los Angeles Keck School of Medicine of Usc
Morón, Fanny E.
1. United States, Houston Baylor College of Medicine
Law, Meng
1. United States, Los Angeles Keck School of Medicine of Usc
2. Australia, Clayton Monash University
Fuller, Gregory N.
1. United States, Houston The University of Texas Md Anderson Cancer Center
Huse, Jason T.
1. United States, Houston The University of Texas Md Anderson Cancer Center
Zinn, Pascal O.
1. United States, Houston Baylor College of Medicine
2. United States, Pittsburgh University of Pittsburgh School of Medicine
3. United States, Pittsburgh Upmc Hillman Cancer Center
Colen, Rivka R.
1. United States, Houston The University of Texas Md Anderson Cancer Center
2. United States, Pittsburgh Upmc Hillman Cancer Center
3. United States, Pittsburgh University of Pittsburgh School of Medicine

AFRICAN RESEARCH NEXUS

Multicenter study demonstrates radiomic features derived from magnetic resonance perfusion images identify pseudoprogression in glioblastoma

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African Research Nexus

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AFRICAN RESEARCH NEXUS

Multicenter study demonstrates radiomic features derived from magnetic resonance perfusion images identify pseudoprogression in glioblastoma

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African Research Nexus

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