Jonas Vardal scite author profile

The compression of peritumoral healthy tissue in brain tumor patients is considered a major cause of the life-threatening neurologic symptoms. Although significant deformations caused by the tumor growth can be observed radiologically, the quantification of minor tissue deformations have not been widely investigated. In this study, we propose a method to quantify subtle peritumoral deformations. A total of 127 MRI longitudinal studies from 23 patients with high-grade glioma were included. We estimate longitudinal displacement fields based on a symmetric normalization algorithm and we propose four biomarkers. We assess the interpatient and intrapatient association between proposed biomarkers and the survival based on Cox analyses, and the potential of the biomarkers to stratify patients according to their survival based on Kaplan–Meier analysis. Biomarkers show a significant intrapatient association with survival (p < 0.05); however, only compression biomarkers show the ability to stratify patients between those with higher and lower overall survival (AUC = 0.83, HR = 6.30, p < 0.05 for CompCH). The compression biomarkers present three times higher Hazard Ratios than those representing only displacement. Our study provides a robust and automated method for quantifying and delineating compression in the peritumoral area. Based on the proposed methodology, we found an association between lower compression in the peritumoral area and good prognosis in high-grade glial tumors.

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Jonas Vardal

Sampling requirements in DCE‐MRI based analysis of high grade gliomas: Simulations and clinical results

T₂*-correction in dynamic contrast-enhanced MRI from double-echo acquisitions

Serial diffusion tensor imaging for early detection of radiation‐induced injuries to normal‐appearing white matter in high‐grade glioma patients

T₁in high-grade glioma and the influence of different measurement strategies on parameter estimations in DCE-MRI

Volumetric glioma quantification: comparison of manual and semi-automatic tumor segmentation for the quantification of tumor growth

Prediction of survival and progression in glioblastoma patients using temporal perfusion changes during radiochemotherapy

Correction of B0‐Distortions in Echo‐Planar‐Imaging–Based Perfusion‐Weighted MRI

Quantification of Tissue Compression Identifies High-Grade Glioma Patients with Reduced Survival

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Jonas Vardal

Sampling requirements in DCE‐MRI based analysis of high grade gliomas: Simulations and clinical results

T2*-correction in dynamic contrast-enhanced MRI from double-echo acquisitions

Serial diffusion tensor imaging for early detection of radiation‐induced injuries to normal‐appearing white matter in high‐grade glioma patients

T1in high-grade glioma and the influence of different measurement strategies on parameter estimations in DCE-MRI

Volumetric glioma quantification: comparison of manual and semi-automatic tumor segmentation for the quantification of tumor growth

Prediction of survival and progression in glioblastoma patients using temporal perfusion changes during radiochemotherapy

Correction of B0‐Distortions in Echo‐Planar‐Imaging–Based Perfusion‐Weighted MRI

Quantification of Tissue Compression Identifies High-Grade Glioma Patients with Reduced Survival

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T₂*-correction in dynamic contrast-enhanced MRI from double-echo acquisitions

T₁in high-grade glioma and the influence of different measurement strategies on parameter estimations in DCE-MRI