PortalPublikationenIntegrated analysis of dynamic FET PET/CT parameters, histol...

Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas

Standard

Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas. / Röhrich, Manuel; Huang, Kristin; Schrimpf, Daniel; Albert, Nathalie L; Hielscher, Thomas; von Deimling, Andreas; Schüller, Ulrich; Dimitrakopoulou-Strauss, Antonia; Haberkorn, Uwe.

in: EUR J NUCL MED MOL I, Jahrgang 45, Nr. 9, 07.2018, S. 1573-1584.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Röhrich, M, Huang, K, Schrimpf, D, Albert, NL, Hielscher, T, von Deimling, A, Schüller, U, Dimitrakopoulou-Strauss, A & Haberkorn, U 2018, 'Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas', EUR J NUCL MED MOL I, Jg. 45, Nr. 9, S. 1573-1584. https://doi.org/10.1007/s00259-018-4009-0

APA

Röhrich, M., Huang, K., Schrimpf, D., Albert, N. L., Hielscher, T., von Deimling, A., Schüller, U., Dimitrakopoulou-Strauss, A., & Haberkorn, U. (2018). Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas. EUR J NUCL MED MOL I, 45(9), 1573-1584. https://doi.org/10.1007/s00259-018-4009-0

Vancouver

Röhrich M, Huang K, Schrimpf D, Albert NL, Hielscher T, von Deimling A et al. Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas. EUR J NUCL MED MOL I. 2018 Jul;45(9):1573-1584. https://doi.org/10.1007/s00259-018-4009-0

Bibtex

@article{633da35951de4584bc3910f133ad3789,
title = "Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas",
abstract = "PURPOSE: Dynamic 18F-FET PET/CT is a powerful tool for the diagnosis of gliomas.18F-FET PET time-activity curves (TAC) allow differentiation between histological low-grade gliomas (LGG) and high-grade gliomas (HGG). Molecular methods such as epigenetic profiling are of rising importance for glioma grading and subclassification. Here, we analysed dynamic 18F-FET PET data, and the histological and epigenetic features of 44 gliomas.METHODS: Dynamic 18F-FET PET was performed in 44 patients with newly diagnosed, untreated glioma: 10 WHO grade II glioma, 13 WHO grade III glioma and 21 glioblastoma (GBM). All patients underwent stereotactic biopsy or tumour resection after 18F-FET PET imaging. As well as histological analysis of tissue samples, DNA was subjected to epigenetic analysis using the Illumina 850 K methylation array. TACs, standardized uptake values corrected for background uptake in healthy tissue (SUVmax/BG), time to peak (TTP) and kinetic modelling parameters were correlated with histological diagnoses and with epigenetic signatures. Multivariate analyses were performed to evaluate the diagnostic accuracy of 18F-FET PET in relation to the tumour groups identified by histological and methylation-based analysis.RESULTS: Epigenetic profiling led to substantial tumour reclassification, with six grade II/III gliomas reclassified as GBM. Overlap of HGG-typical TACs and LGG-typical TACs was dramatically reduced when tumours were clustered on the basis of their methylation profile. SUVmax/BG values of GBM were higher than those of LGGs following both histological diagnosis and methylation-based diagnosis. The differences in TTP between GBMs and grade II/III gliomas were greater following methylation-based diagnosis than following histological diagnosis. Kinetic modeling showed that relative K1 and fractal dimension (FD) values significantly differed in histology- and methylation-based GBM and grade II/III glioma between those diagnosed histologically and those diagnosed by methylation analysis. Multivariate analysis revealed slightly greater diagnostic accuracy with methylation-based diagnosis. IDH-mutant gliomas and GBM subgroups tended to differ in their 18F-FET PET kinetics.CONCLUSION: The status of dynamic 18F-FET PET as a biologically and clinically relevant imaging modality is confirmed in the context of molecular glioma diagnosis.",
keywords = "Journal Article",
author = "Manuel R{\"o}hrich and Kristin Huang and Daniel Schrimpf and Albert, {Nathalie L} and Thomas Hielscher and {von Deimling}, Andreas and Ulrich Sch{\"u}ller and Antonia Dimitrakopoulou-Strauss and Uwe Haberkorn",
year = "2018",
month = jul,
doi = "10.1007/s00259-018-4009-0",
language = "English",
volume = "45",
pages = "1573--1584",
journal = "EUR J NUCL MED MOL I",
issn = "1619-7070",
publisher = "Springer",
number = "9",

}

RIS

TY - JOUR

T1 - Integrated analysis of dynamic FET PET/CT parameters, histology, and methylation profiling of 44 gliomas

AU - Röhrich, Manuel

AU - Huang, Kristin

AU - Schrimpf, Daniel

AU - Albert, Nathalie L

AU - Hielscher, Thomas

AU - von Deimling, Andreas

AU - Schüller, Ulrich

AU - Dimitrakopoulou-Strauss, Antonia

AU - Haberkorn, Uwe

PY - 2018/7

Y1 - 2018/7

N2 - PURPOSE: Dynamic 18F-FET PET/CT is a powerful tool for the diagnosis of gliomas.18F-FET PET time-activity curves (TAC) allow differentiation between histological low-grade gliomas (LGG) and high-grade gliomas (HGG). Molecular methods such as epigenetic profiling are of rising importance for glioma grading and subclassification. Here, we analysed dynamic 18F-FET PET data, and the histological and epigenetic features of 44 gliomas.METHODS: Dynamic 18F-FET PET was performed in 44 patients with newly diagnosed, untreated glioma: 10 WHO grade II glioma, 13 WHO grade III glioma and 21 glioblastoma (GBM). All patients underwent stereotactic biopsy or tumour resection after 18F-FET PET imaging. As well as histological analysis of tissue samples, DNA was subjected to epigenetic analysis using the Illumina 850 K methylation array. TACs, standardized uptake values corrected for background uptake in healthy tissue (SUVmax/BG), time to peak (TTP) and kinetic modelling parameters were correlated with histological diagnoses and with epigenetic signatures. Multivariate analyses were performed to evaluate the diagnostic accuracy of 18F-FET PET in relation to the tumour groups identified by histological and methylation-based analysis.RESULTS: Epigenetic profiling led to substantial tumour reclassification, with six grade II/III gliomas reclassified as GBM. Overlap of HGG-typical TACs and LGG-typical TACs was dramatically reduced when tumours were clustered on the basis of their methylation profile. SUVmax/BG values of GBM were higher than those of LGGs following both histological diagnosis and methylation-based diagnosis. The differences in TTP between GBMs and grade II/III gliomas were greater following methylation-based diagnosis than following histological diagnosis. Kinetic modeling showed that relative K1 and fractal dimension (FD) values significantly differed in histology- and methylation-based GBM and grade II/III glioma between those diagnosed histologically and those diagnosed by methylation analysis. Multivariate analysis revealed slightly greater diagnostic accuracy with methylation-based diagnosis. IDH-mutant gliomas and GBM subgroups tended to differ in their 18F-FET PET kinetics.CONCLUSION: The status of dynamic 18F-FET PET as a biologically and clinically relevant imaging modality is confirmed in the context of molecular glioma diagnosis.

AB - PURPOSE: Dynamic 18F-FET PET/CT is a powerful tool for the diagnosis of gliomas.18F-FET PET time-activity curves (TAC) allow differentiation between histological low-grade gliomas (LGG) and high-grade gliomas (HGG). Molecular methods such as epigenetic profiling are of rising importance for glioma grading and subclassification. Here, we analysed dynamic 18F-FET PET data, and the histological and epigenetic features of 44 gliomas.METHODS: Dynamic 18F-FET PET was performed in 44 patients with newly diagnosed, untreated glioma: 10 WHO grade II glioma, 13 WHO grade III glioma and 21 glioblastoma (GBM). All patients underwent stereotactic biopsy or tumour resection after 18F-FET PET imaging. As well as histological analysis of tissue samples, DNA was subjected to epigenetic analysis using the Illumina 850 K methylation array. TACs, standardized uptake values corrected for background uptake in healthy tissue (SUVmax/BG), time to peak (TTP) and kinetic modelling parameters were correlated with histological diagnoses and with epigenetic signatures. Multivariate analyses were performed to evaluate the diagnostic accuracy of 18F-FET PET in relation to the tumour groups identified by histological and methylation-based analysis.RESULTS: Epigenetic profiling led to substantial tumour reclassification, with six grade II/III gliomas reclassified as GBM. Overlap of HGG-typical TACs and LGG-typical TACs was dramatically reduced when tumours were clustered on the basis of their methylation profile. SUVmax/BG values of GBM were higher than those of LGGs following both histological diagnosis and methylation-based diagnosis. The differences in TTP between GBMs and grade II/III gliomas were greater following methylation-based diagnosis than following histological diagnosis. Kinetic modeling showed that relative K1 and fractal dimension (FD) values significantly differed in histology- and methylation-based GBM and grade II/III glioma between those diagnosed histologically and those diagnosed by methylation analysis. Multivariate analysis revealed slightly greater diagnostic accuracy with methylation-based diagnosis. IDH-mutant gliomas and GBM subgroups tended to differ in their 18F-FET PET kinetics.CONCLUSION: The status of dynamic 18F-FET PET as a biologically and clinically relevant imaging modality is confirmed in the context of molecular glioma diagnosis.

KW - Journal Article

U2 - 10.1007/s00259-018-4009-0

DO - 10.1007/s00259-018-4009-0

M3 - SCORING: Journal article

C2 - 29732524

VL - 45

SP - 1573

EP - 1584

JO - EUR J NUCL MED MOL I

JF - EUR J NUCL MED MOL I

SN - 1619-7070

IS - 9

ER -