Predicting Glioblastoma Recurrence from Preoperative MR Scans Using Fractional-Anisotropy Maps with Free-Water Suppression.

Metz, Marie-Christin; Molina-Romero, Miguel; Lipkova, Jana; Gempt, Jens; Liesche-Starnecker, Friederike; Eichinger, Paul; Grundl, Lioba; Menze, Bjoern; Combs, Stephanie E; Zimmer, Claus; Wiestler, Benedikt

doi:10.3390/cancers12030728

journal article

Dokumenttyp:: Journal Article
Autor(en):: Metz, Marie-Christin; Molina-Romero, Miguel; Lipkova, Jana; Gempt, Jens; Liesche-Starnecker, Friederike; Eichinger, Paul; Grundl, Lioba; Menze, Bjoern; Combs, Stephanie E; Zimmer, Claus; Wiestler, Benedikt
Titel:: Predicting Glioblastoma Recurrence from Preoperative MR Scans Using Fractional-Anisotropy Maps with Free-Water Suppression.
Abstract:: Diffusion tensor imaging (DTI), and fractional-anisotropy (FA) maps in particular, have shown promise in predicting areas of tumor recurrence in glioblastoma. However, analysis of peritumoral edema, where most recurrences occur, is impeded by free-water contamination. In this study, we evaluated the benefits of a novel, deep-learning-based approach for the free-water correction (FWC) of DTI data for prediction of later recurrence. We investigated 35 glioblastoma cases from our prospective glioma cohort. A preoperative MR image and the first MR scan showing tumor recurrence were semiautomatically segmented into areas of contrast-enhancing tumor, edema, or recurrence of the tumor. The 10th, 50th and 90th percentiles and mean of FA and mean-diffusivity (MD) values (both for the original and FWC-DTI data) were collected for areas with and without recurrence in the peritumoral edema. We found significant differences in the FWC-FA maps between areas of recurrence-free edema and areas with later tumor recurrence, where differences in noncorrected FA maps were less pronounced. Consequently, a generalized mixed-effect model had a significantly higher area under the curve when using FWC-FA maps (AUC = 0.9) compared to noncorrected maps (AUC = 0.77, p < 0.001). This may reflect tumor infiltration that is not visible in conventional imaging, and may therefore reveal important information for personalized treatment decisions.
Zeitschriftentitel:: Cancers
Jahr:: 2020
Band / Volume:: 12
Heft / Issue:: 3
Volltext / DOI:: doi:10.3390/cancers12030728
PubMed:: http://view.ncbi.nlm.nih.gov/pubmed/32204544
Print-ISSN:: 2072-6694
TUM Einrichtung:: Fachgebiet Neuroradiologie (Prof. Zimmer); Institut für Allgemeine Pathologie und Pathologische Anatomie; Klinik und Poliklinik für RadioOnkologie und Strahlentherapie; Neurochirurgische Klinik und Poliklinik
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mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Medicine and Health Departments Clinical Medicine Institut für Diagnostische und Interventionelle Radiologie (Prof. Makowski)Abteilung für Diagnostische und Interventionelle Neuroradiologie (Prof. Zimmer)Professur für Neuroradiologie (Prof. Zimmer)2020

mediaTUM Gesamtbestand Hochschulbibliographie 2020 Fakultäten Medizin Institut für Radiologie

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Medicine and Health Departments Preclinical Medicine Institut für Allgemeine Pathologie und Pathologische Anatomie (Dr. Mogler komm.)2020

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Medicine and Health Departments Clinical Medicine Klinik und Poliklinik für RadioOnkologie und Strahlentherapie (Prof. Combs)2020

mediaTUM Gesamtbestand Hochschulbibliographie 2020 Fakultäten Medizin Institut für Allgemeine Pathologie und Pathologische Anatomie

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Medicine and Health Departments Clinical Medicine Klinik und Poliklinik für Neurochirurgie (Prof. Meyer)2020