What question did this study set out to answer?

The study aims to assess the effectiveness of a new MRI technique in measuring cerebral blood flow and water exchange time in different IDH mutational groups of gliomas.

April 23, 2026Open Access

Cerebral blood flow and time of exchange measurements using multi-TE blood–brain barrier arterial spin labeling MRI in IDH mutational subgroups of gliomas

Key Points

The study aims to assess the effectiveness of a new MRI technique in measuring cerebral blood flow and water exchange time in different IDH mutational groups of gliomas.
Analyzed 25 gliomas (15 IDH-wt, 10 IDH-mut) using multi-TE blood-brain barrier arterial spin labeling MRI.
Generated relative maps for cerebral blood flow and water exchange using fixed and patient-specific T2 relaxation times.
Conducted group comparisons using Mann–Whitney U tests with Holm-Bonferroni correction.
IDH-wt tumors showed significantly lower water exchange time on rTex_116ms maps (P=0.010).
IDH-mut tumors had a higher 95th percentile water exchange time (P=0.049).
IDH-wt gliomas tended towards higher 5th percentile rCBF measures (P=0.033, P=0.014).

Abstract

Abstract Objective Isocitrate dehydrogenase (IDH) mutations are key prognostic factors in gliomas. IDH-wildtype (IDH-wt) glioblastomas are high-grade tumors, which often exhibit blood–brain barrier (BBB) breakdown. Blood–brain barrier arterial spin labeling (BBB-ASL) is a novel MRI technique that provides information on cerebral blood flow (CBF) and water exchange time (Tex) across the BBB. The aim of this study was to evaluate the feasibility of using BBB-ASL to measure CBF and Tex for distinguishing IDH mutational subgroups in gliomas, while accounting for region-specific T2 relaxation time variations. Methods Twenty-five histopathologically confirmed gliomas (15 IDH-wt and 10 IDH-mutant (IDH-mut) ; mean age 53. 6 14 53. 6 ± 14 years; F/M = 11/14) were scanned. Hadamard-4 and Hadamard-8 pseudo-continuous arterial spin labeling (pCASL) MRI data were preprocessed in ExploreASL using the BBB-ASL model. CBF and Tex maps were generated using fixed T2 values (tissue: 85 ms; blood: 165 ms), and recomputed with a tissue T2 of 116. 2 ms (CBF₁16ms and Tex₁16ms) and patient specific regional median T2 (CBFcorr and Texcorr). Relative CBF and Tex maps (rCBF₁16ms, rTex₁16ms; rCBFcorr, rTexcorr) were calculated by normalizing to median normal-appearing gray matter (NAGM) values. Group comparisons of rCBF and rTex values between IDH mutational subgroups were performed using Mann–Whitney U tests with Holm-Bonferroni correction for multiple comparisons. Results rTex₁16ms maps showed significantly lower energy in IDH-wt tumors (P=0. 010 P = 0. 010) and a higher 95^ {th} 95 th percentile (P=0. 049 P = 0. 049) in IDH-mut tumors. In addition, IDH-wt gliomas demonstrated a trend toward higher 5^ {th} 5 th percentile rCBF₁16ms and rCBFcorr (P=0. 033 P = 0. 033, P=0. 014 P = 0. 014, respectively). Conclusion Multi-TE BBB-ASL provides noninvasive insight into perfusion and water exchange characteristics in gliomas, with T2 relaxation time assumptions strongly influencing CBF and Tex estimates.

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