Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance

Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance

We aimed to evaluate the potential of radiomics as an imaging biomarker for glioblastoma (GBM) patients and explore the molecular rationale behind radiomics using a radio-genomics approach. A total of 144 primary GBM patients were included in this study (training cohort). Using multi-parametric MR i...

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Main Authors: Seung Won Choi, Hwan-ho Cho, Harim Koo, Kyung Rae Cho, Karl-Heinz Nenning, Georg Langs, Julia Furtner, Bernhard Baumann, Adelheid Woehrer, Hee Jin Cho, Jason K. Sa, Doo-Sik Kong, Ho Jun Seol, Jung-il Lee, Do-hyun Nam, Hyunjin Park
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Cancers
Subjects:
Glioblastoma
Radiomics
Biomarker
Radiogenomics
Online Access:https://www.mdpi.com/2072-6694/12/7/1707
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spelling doaj-1e0d2cd57be9440dbce7530f1b2ceda62020-11-25T03:19:29ZengMDPI AGCancers2072-66942020-06-01121707170710.3390/cancers12071707Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic SignificanceSeung Won Choi0Hwan-ho Cho1Harim Koo2Kyung Rae Cho3Karl-Heinz Nenning4Georg Langs5Julia Furtner6Bernhard Baumann7Adelheid Woehrer8Hee Jin Cho9Jason K. Sa10Doo-Sik Kong11Ho Jun Seol12Jung-il Lee13Do-hyun Nam14Hyunjin Park15Department of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaDepartment of Electrical and Computer Engineering, Sungkyunkwan University, Suwon 16419, KoreaDepartment of Health Sciences and Technology, Samsung Advanced Institute for Health Sciences and Technology (SAIHST), Sungkyunkwan University, Seoul 06351, KoreaDepartment of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaComputational Imaging Research Lab, Department of Biomedical Imaging and Image-guided Therapy, Medical University of Vienna, Vienna 1090, AustriaComputational Imaging Research Lab, Department of Biomedical Imaging and Image-guided Therapy, Medical University of Vienna, Vienna 1090, AustriaDepartment of Biomedical Imaging and Image-guided Therapy, Medical University of Vienna, Vienna 1090, AustriaCenter for Medical Physics and Biomedical Engineering, Medical University of Vienna; Vienna 1090, AustriaDivision of Neuropathology and Neurochemistry, Department of Neurology, Medical University of Vienna, Vienna 1090, AustriaResearch Institute for Future Medicine, Samsung Medical Center, Seoul 06351, KoreaDepartment of Biomedical Sciences, Korea University College of Medicine, Seoul 02841, KoreaDepartment of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaDepartment of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaDepartment of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaDepartment of Neurosurgery, Sungkyunkwan University, School of Medicine, Samsung Medical Center, Seoul 06351 KoreaCenterfor Neuroscience Imaging Research, Institute for Basic Science (IBS), Suwon 16419, KoreaWe aimed to evaluate the potential of radiomics as an imaging biomarker for glioblastoma (GBM) patients and explore the molecular rationale behind radiomics using a radio-genomics approach. A total of 144 primary GBM patients were included in this study (training cohort). Using multi-parametric MR images, radiomics features were extracted from multi-habitats of the tumor. We applied Cox-LASSO algorithm to build a survival prediction model, which we validated using an independent validation cohort. GBM patients were consensus clustered to reveal inherent phenotypic subtypes. GBM patients were successfully stratified by the radiomics risk score, a weighted sum of radiomics features, corroborating the potential of radiomics as a prognostic biomarker. Using consensus clustering, we identified three distinct subtypes which significantly differed in the prognosis (“heterogenous enhancing”, “rim-enhancing necrotic”, and “cystic” subtypes). Transcriptomic traits enriched in individual subtypes were in accordance with imaging phenotypes summarized by radiomics. For example, rim-enhancing necrotic subtype was well described by radiomics profiling (T2 autocorrelation and flat shape) and highlighted by the inflammatory genomic signatures, which well correlated to its phenotypic peculiarity (necrosis). This study showed that imaging subtypes derived from radiomics successfully recapitulated the genomic underpinnings of GBMs and thereby confirmed the feasibility of radiomics as an imaging biomarker for GBM patients with comprehensible biologic annotation.https://www.mdpi.com/2072-6694/12/7/1707GlioblastomaRadiomicsBiomarkerRadiogenomics
collection DOAJ
language English
format Article
sources DOAJ
author Seung Won Choi
Hwan-ho Cho
Harim Koo
Kyung Rae Cho
Karl-Heinz Nenning
Georg Langs
Julia Furtner
Bernhard Baumann
Adelheid Woehrer
Hee Jin Cho
Jason K. Sa
Doo-Sik Kong
Ho Jun Seol
Jung-il Lee
Do-hyun Nam
Hyunjin Park
spellingShingle Seung Won Choi
Hwan-ho Cho
Harim Koo
Kyung Rae Cho
Karl-Heinz Nenning
Georg Langs
Julia Furtner
Bernhard Baumann
Adelheid Woehrer
Hee Jin Cho
Jason K. Sa
Doo-Sik Kong
Ho Jun Seol
Jung-il Lee
Do-hyun Nam
Hyunjin Park
Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
Cancers
Glioblastoma
Radiomics
Biomarker
Radiogenomics
author_facet Seung Won Choi
Hwan-ho Cho
Harim Koo
Kyung Rae Cho
Karl-Heinz Nenning
Georg Langs
Julia Furtner
Bernhard Baumann
Adelheid Woehrer
Hee Jin Cho
Jason K. Sa
Doo-Sik Kong
Ho Jun Seol
Jung-il Lee
Do-hyun Nam
Hyunjin Park
author_sort Seung Won Choi
title Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
title_short Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
title_full Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
title_fullStr Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
title_full_unstemmed Multi-Habitat Radiomics Unravels Distinct Phenotypic Subtypes of Glioblastoma with Clinical and Genomic Significance
title_sort multi-habitat radiomics unravels distinct phenotypic subtypes of glioblastoma with clinical and genomic significance
publisher MDPI AG
series Cancers
issn 2072-6694
publishDate 2020-06-01
description We aimed to evaluate the potential of radiomics as an imaging biomarker for glioblastoma (GBM) patients and explore the molecular rationale behind radiomics using a radio-genomics approach. A total of 144 primary GBM patients were included in this study (training cohort). Using multi-parametric MR images, radiomics features were extracted from multi-habitats of the tumor. We applied Cox-LASSO algorithm to build a survival prediction model, which we validated using an independent validation cohort. GBM patients were consensus clustered to reveal inherent phenotypic subtypes. GBM patients were successfully stratified by the radiomics risk score, a weighted sum of radiomics features, corroborating the potential of radiomics as a prognostic biomarker. Using consensus clustering, we identified three distinct subtypes which significantly differed in the prognosis (“heterogenous enhancing”, “rim-enhancing necrotic”, and “cystic” subtypes). Transcriptomic traits enriched in individual subtypes were in accordance with imaging phenotypes summarized by radiomics. For example, rim-enhancing necrotic subtype was well described by radiomics profiling (T2 autocorrelation and flat shape) and highlighted by the inflammatory genomic signatures, which well correlated to its phenotypic peculiarity (necrosis). This study showed that imaging subtypes derived from radiomics successfully recapitulated the genomic underpinnings of GBMs and thereby confirmed the feasibility of radiomics as an imaging biomarker for GBM patients with comprehensible biologic annotation.
topic Glioblastoma
Radiomics
Biomarker
Radiogenomics
url https://www.mdpi.com/2072-6694/12/7/1707
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