Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression

PURPOSE: To evaluate diagnostic accuracy of fully automated analysis of multimodal imaging data using [(18)F]-FET-PET and MRI (including amide proton transfer-weighted (APTw) imaging and dynamic-susceptibility-contrast (DSC) perfusion) in differentiation of tumor progression from treatment-related c...

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Autores principales: Paprottka, K. J., Kleiner, S., Preibisch, C., Kofler, F., Schmidt-Graf, F., Delbridge, C., Bernhardt, D., Combs, S. E., Gempt, J., Meyer, B., Zimmer, C., Menze, B. H., Yakushev, I., Kirschke, J. S., Wiestler, B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2021
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8566389/
https://www.ncbi.nlm.nih.gov/pubmed/34173008
http://dx.doi.org/10.1007/s00259-021-05427-8
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author Paprottka, K. J.
Kleiner, S.
Preibisch, C.
Kofler, F.
Schmidt-Graf, F.
Delbridge, C.
Bernhardt, D.
Combs, S. E.
Gempt, J.
Meyer, B.
Zimmer, C.
Menze, B. H.
Yakushev, I.
Kirschke, J. S.
Wiestler, B.
author_facet Paprottka, K. J.
Kleiner, S.
Preibisch, C.
Kofler, F.
Schmidt-Graf, F.
Delbridge, C.
Bernhardt, D.
Combs, S. E.
Gempt, J.
Meyer, B.
Zimmer, C.
Menze, B. H.
Yakushev, I.
Kirschke, J. S.
Wiestler, B.
author_sort Paprottka, K. J.
collection PubMed
description PURPOSE: To evaluate diagnostic accuracy of fully automated analysis of multimodal imaging data using [(18)F]-FET-PET and MRI (including amide proton transfer-weighted (APTw) imaging and dynamic-susceptibility-contrast (DSC) perfusion) in differentiation of tumor progression from treatment-related changes in patients with glioma. MATERIAL AND METHODS: At suspected tumor progression, MRI and [(18)F]-FET-PET data as part of a retrospective analysis of an observational cohort of 66 patients/74 scans (51 glioblastoma and 23 lower-grade-glioma, 8 patients included at two different time points) were automatically segmented into necrosis, FLAIR-hyperintense, and contrast-enhancing areas using an ensemble of deep learning algorithms. In parallel, previous MR exam was processed in a similar way to subtract preexisting tumor areas and focus on progressive tumor only. Within these progressive areas, intensity statistics were automatically extracted from [(18)F]-FET-PET, APTw, and DSC-derived cerebral-blood-volume (CBV) maps and used to train a Random Forest classifier with threefold cross-validation. To evaluate contribution of the imaging modalities to the classifier’s performance, impurity-based importance measures were collected. Classifier performance was compared with radiology reports and interdisciplinary tumor board assessments. RESULTS: In 57/74 cases (77%), tumor progression was confirmed histopathologically (39 cases) or via follow-up imaging (18 cases), while remaining 17 cases were diagnosed as treatment-related changes. The classification accuracy of the Random Forest classifier was 0.86, 95% CI 0.77–0.93 (sensitivity 0.91, 95% CI 0.81–0.97; specificity 0.71, 95% CI 0.44–0.9), significantly above the no-information rate of 0.77 (p = 0.03), and higher compared to an accuracy of 0.82 for MRI (95% CI 0.72–0.9), 0.81 for [(18)F]-FET-PET (95% CI 0.7–0.89), and 0.81 for expert consensus (95% CI 0.7–0.89), although these differences were not statistically significant (p > 0.1 for all comparisons, McNemar test). [(18)F]-FET-PET hot-spot volume was single-most important variable, with relevant contribution from all imaging modalities. CONCLUSION: Automated, joint image analysis of [(18)F]-FET-PET and advanced MR imaging techniques APTw and DSC perfusion is a promising tool for objective response assessment in gliomas. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00259-021-05427-8.
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spelling pubmed-85663892021-11-15 Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression Paprottka, K. J. Kleiner, S. Preibisch, C. Kofler, F. Schmidt-Graf, F. Delbridge, C. Bernhardt, D. Combs, S. E. Gempt, J. Meyer, B. Zimmer, C. Menze, B. H. Yakushev, I. Kirschke, J. S. Wiestler, B. Eur J Nucl Med Mol Imaging Original Article PURPOSE: To evaluate diagnostic accuracy of fully automated analysis of multimodal imaging data using [(18)F]-FET-PET and MRI (including amide proton transfer-weighted (APTw) imaging and dynamic-susceptibility-contrast (DSC) perfusion) in differentiation of tumor progression from treatment-related changes in patients with glioma. MATERIAL AND METHODS: At suspected tumor progression, MRI and [(18)F]-FET-PET data as part of a retrospective analysis of an observational cohort of 66 patients/74 scans (51 glioblastoma and 23 lower-grade-glioma, 8 patients included at two different time points) were automatically segmented into necrosis, FLAIR-hyperintense, and contrast-enhancing areas using an ensemble of deep learning algorithms. In parallel, previous MR exam was processed in a similar way to subtract preexisting tumor areas and focus on progressive tumor only. Within these progressive areas, intensity statistics were automatically extracted from [(18)F]-FET-PET, APTw, and DSC-derived cerebral-blood-volume (CBV) maps and used to train a Random Forest classifier with threefold cross-validation. To evaluate contribution of the imaging modalities to the classifier’s performance, impurity-based importance measures were collected. Classifier performance was compared with radiology reports and interdisciplinary tumor board assessments. RESULTS: In 57/74 cases (77%), tumor progression was confirmed histopathologically (39 cases) or via follow-up imaging (18 cases), while remaining 17 cases were diagnosed as treatment-related changes. The classification accuracy of the Random Forest classifier was 0.86, 95% CI 0.77–0.93 (sensitivity 0.91, 95% CI 0.81–0.97; specificity 0.71, 95% CI 0.44–0.9), significantly above the no-information rate of 0.77 (p = 0.03), and higher compared to an accuracy of 0.82 for MRI (95% CI 0.72–0.9), 0.81 for [(18)F]-FET-PET (95% CI 0.7–0.89), and 0.81 for expert consensus (95% CI 0.7–0.89), although these differences were not statistically significant (p > 0.1 for all comparisons, McNemar test). [(18)F]-FET-PET hot-spot volume was single-most important variable, with relevant contribution from all imaging modalities. CONCLUSION: Automated, joint image analysis of [(18)F]-FET-PET and advanced MR imaging techniques APTw and DSC perfusion is a promising tool for objective response assessment in gliomas. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00259-021-05427-8. Springer Berlin Heidelberg 2021-06-25 2021 /pmc/articles/PMC8566389/ /pubmed/34173008 http://dx.doi.org/10.1007/s00259-021-05427-8 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Original Article
Paprottka, K. J.
Kleiner, S.
Preibisch, C.
Kofler, F.
Schmidt-Graf, F.
Delbridge, C.
Bernhardt, D.
Combs, S. E.
Gempt, J.
Meyer, B.
Zimmer, C.
Menze, B. H.
Yakushev, I.
Kirschke, J. S.
Wiestler, B.
Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title_full Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title_fullStr Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title_full_unstemmed Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title_short Fully automated analysis combining [(18)F]-FET-PET and multiparametric MRI including DSC perfusion and APTw imaging: a promising tool for objective evaluation of glioma progression
title_sort fully automated analysis combining [(18)f]-fet-pet and multiparametric mri including dsc perfusion and aptw imaging: a promising tool for objective evaluation of glioma progression
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8566389/
https://www.ncbi.nlm.nih.gov/pubmed/34173008
http://dx.doi.org/10.1007/s00259-021-05427-8
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