Robust association between vascular habitats and patient prognosis in glioblastoma: An international multicenter study

María Del Mar Álvarez-Torres; Javier Juan-Albarracín; Elies Fuster-Garcia; Fuensanta Bellvís-Bataller; David Lorente; Gaspar Reynés; Jaime Font de Mora; Fernando Aparici-Robles; Carlos Botella; Jose Muñoz-Langa; Raquel Faubel; Sabina Asensio-Cuesta; Germán A García-Ferrando; Eduard Chelebian; Cristina Auger; Jose Pineda; Alex Rovira; Laura Oleaga; Enrique Mollà-Olmos; Antonio J Revert; Luaba Tshibanda; Girolamo Crisi; Kyrre E Emblem; Didier Martin; Paulina Due-Tønnessen; Torstein R Meling; Silvano Filice; Carlos Sáez; Juan M García-Gómez

doi:10.1002/jmri.26958

Robust association between vascular habitats and patient prognosis in glioblastoma: An international multicenter study

J Magn Reson Imaging. 2020 May;51(5):1478-1486. doi: 10.1002/jmri.26958. Epub 2019 Oct 26.

Authors

María Del Mar Álvarez-Torres¹, Javier Juan-Albarracín¹, Elies Fuster-Garcia², Fuensanta Bellvís-Bataller¹, David Lorente³, Gaspar Reynés⁴, Jaime Font de Mora⁵, Fernando Aparici-Robles⁶, Carlos Botella⁷, Jose Muñoz-Langa⁴, Raquel Faubel⁸, Sabina Asensio-Cuesta¹, Germán A García-Ferrando¹, Eduard Chelebian¹, Cristina Auger⁹, Jose Pineda¹⁰, Alex Rovira⁹, Laura Oleaga¹⁰, Enrique Mollà-Olmos¹¹, Antonio J Revert¹², Luaba Tshibanda¹³, Girolamo Crisi¹⁴, Kyrre E Emblem², Didier Martin¹⁵, Paulina Due-Tønnessen¹⁶, Torstein R Meling^{17

18}, Silvano Filice¹⁹, Carlos Sáez¹, Juan M García-Gómez¹

Affiliations

¹ Universitat Politècnica de València, BDSLab, Instituto Universitarios de Tecnologías de la Información y Comunicaciones (ITACA), Valencia, Spain.
² Oslo University Hospital, Department of Diagnostic Physics, Oslo, Norway.
³ Hospital Provincial de Castellón, Department of Medical Oncology, Castellón de la Plana, Castellón de la Plana, Spain.
⁴ Health Research Institute Hospital La Fe, Cancer Research Group, Valencia, Spain.
⁵ Instituto de Investigación Sanitaria La Fe, Laboratory of Cellular and Molecular Biology, Valencia, Spain.
⁶ Hospital Universitari i Politècnic La Fe, Área Clínica de imagen Médica, Valencia, Spain.
⁷ Hospital Universitari i Politècnic La Fe, Área Clínica de Neurociencias, Valencia, Spain.
⁸ Universitat de València, Departament de Fisioteràpia, Valencia, Spain.
⁹ Hospital Vall d'Hebron, Universitat Autònoma de Barcelona, Magnetic Resonance Unit, Department of Radiology, Barcelona, Spain.
¹⁰ Hospital Clinic de Barcelona, Barcelona, Spain.
¹¹ Hospital Universitario de la Ribera, Departamento de Radiodiagnóstico, Alzira, Valencia, Spain.
¹² Hospital de Manises, Manises, Valencia, Spain.
¹³ Centre Hospitalier Universitaire de Liège, Service médical de Radiodiagnostic, Liège, Belgium.
¹⁴ Azienda Ospedaliero-Universitaria di Parma, Neuroradiology, Parma, Italy.
¹⁵ Centre Hospitalier Universitaire de Liege, Service de Neurochirurugie, Liège, Belgium.
¹⁶ Oslo University Hospital Rikshospitalet, Department of Radiology, Oslo, Norway.
¹⁷ Oslo University Hospital, Department of Neurosurgery, Oslo, Norway.
¹⁸ Geneva University Hospital, Department of Neurosurgery, Geneva, Switzerland.
¹⁹ Azienda Ospedaliero-Universitaria di Parma, Medical Physics, Parma, Italy.

PMID: 31654541
DOI: 10.1002/jmri.26958

Abstract

Background: Glioblastoma (GBM) is the most aggressive primary brain tumor, characterized by a heterogeneous and abnormal vascularity. Subtypes of vascular habitats within the tumor and edema can be distinguished: high angiogenic tumor (HAT), low angiogenic tumor (LAT), infiltrated peripheral edema (IPE), and vasogenic peripheral edema (VPE).

Purpose: To validate the association between hemodynamic markers from vascular habitats and overall survival (OS) in glioblastoma patients, considering the intercenter variability of acquisition protocols.

Study type: Multicenter retrospective study.

Population: In all, 184 glioblastoma patients from seven European centers participating in the NCT03439332 clinical study.

Field strength/sequence: 1.5T (for 54 patients) or 3.0T (for 130 patients). Pregadolinium and postgadolinium-based contrast agent-enhanced T₁ -weighted MRI, T₂ - and FLAIR T₂ -weighted, and dynamic susceptibility contrast (DSC) T₂ * perfusion.

Assessment: We analyzed preoperative MRIs to establish the association between the maximum relative cerebral blood volume (rCBV_max ) at each habitat with OS. Moreover, the stratification capabilities of the markers to divide patients into "vascular" groups were tested. The variability in the markers between individual centers was also assessed.

Statistical tests: Uniparametric Cox regression; Kaplan-Meier test; Mann-Whitney test.

Results: The rCBV_max derived from the HAT, LAT, and IPE habitats were significantly associated with patient OS (P < 0.05; hazard ratio [HR]: 1.05, 1.11, 1.28, respectively). Moreover, these markers can stratify patients into "moderate-" and "high-vascular" groups (P < 0.05). The Mann-Whitney test did not find significant differences among most of the centers in markers (HAT: P = 0.02-0.685; LAT: P = 0.010-0.769; IPE: P = 0.093-0.939; VPE: P = 0.016-1.000).

Data conclusion: The rCBV_max calculated in HAT, LAT, and IPE habitats have been validated as clinically relevant prognostic biomarkers for glioblastoma patients in the pretreatment stage. This study demonstrates the robustness of the hemodynamic tissue signature (HTS) habitats to assess the GBM vascular heterogeneity and their association with patient prognosis independently of intercenter variability.

Level of evidence: 3 Technical Efficacy Stage: 2 J. Magn. Reson. Imaging 2020;51:1478-1486.

Keywords: glioblastoma; multicenter study; overall survival; perfusion DSC; vascularity.

Publication types

Multicenter Study
Research Support, Non-U.S. Gov't

MeSH terms

Brain Neoplasms* / diagnostic imaging
Contrast Media
Glioblastoma* / diagnostic imaging
Humans
Magnetic Resonance Imaging
Prognosis
Retrospective Studies

Substances

Contrast Media

Associated data

ClinicalTrials.gov/NCT03439332