Fast whole brain relaxometry with Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) at 3 T: a retrospective cohort study

Publication date

2025-04

Authors

Schilder, Martin B.
Mandija, StefanoORCID 0000-0002-4612-5509
Jacobs, Sarah M
Kleinloog, Jordi P.D.
Liu, Hongyan
van der Heide, Oscar
Köktaş, Beyza
D’Agata, Federico
Keil, Vera C.W.
Vonken, E. P. A.ISNI 000000039192653X

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

cc_by

Abstract

Objective: To report T1/T2-values of normal and normal appearing brain tissues (NBTs, healthy volunteers; NABTs, patients) acquired with a whole-brain 5-minute Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) protocol, and to explore relaxometry behavior in a brain tumor and in a multiple sclerosis patient. Methods: MR-STAT was acquired in 49 participants (39 patients with neurological pathologies, age range: 21–79 years) at 3 T. Mean T1/T2-values were computed for: normal and normal appearing grey matter (NGM/NAGM)/white matter (NWM/NAWM)/thalamus/putamen/caudate nucleus (CN)/globus pallidus (GP). Differences between sex, brain lobes, and left/right were assessed. The age-dependency of T1/T2-values in N(A)BTs was investigated. Relaxometry analysis was performed in two clinical case examples. Results: Mean (standard deviation) T1/T2-values were measured in N(A)GM = 1086(73)/74(9) ms; N(A)WM = 658(24)/48(3) ms; thalamus = 783(51)/42(4) ms; putamen = 863(40)/46(3) ms; CN = 1042(97)/63(9) ms; GP = 652(36)/36(3) ms. Differences between sex were not significant. T1/T2-values between the left/right parietal lobe and the left/right temporal lobe were significantly different. The quadratic age-dependency of T1-values in the CN (p = 0.00039) and GP (p = 0.00037), and of T2-values in the thalamus (p = 0.00044) and GP (p = 0.003) were significant. Pathological tissues could be discerned from NABTs using T1/T2-values. Discussion: T1/T2-values and data trends agree with literature, supporting the validity of MR-STAT as a clinical option for fast relaxometry despite the relatively low number of subjects in the study. Future work should aim to include healthy participants of a wider age-range and to include B1-field corrections.

Keywords

Magnetic resonance imaging, Neuroimaging, Quantitative magnetic resonance imaging, Relaxometry, Biophysics, Radiological and Ultrasound Technology, Radiology Nuclear Medicine and imaging

Citation

Schilder, M B, Mandija, S, Jacobs, S M, Kleinloog, J P D, Liu, H, van der Heide, O, Köktaş, B, D’Agata, F, Keil, V C W, Vonken, E J P A, Dankbaar, J W, Hendrikse, J, Snijders, T J, van den Berg, C A T, van der Kolk, A G & Sbrizzi, A 2025, 'Fast whole brain relaxometry with Magnetic Resonance Spin TomogrAphy in Time-domain (MR-STAT) at 3 T : a retrospective cohort study', Magnetic Resonance Materials in Physics, Biology and Medicine, vol. 38, no. 2, pp. 333-345. https://doi.org/10.1007/s10334-025-01237-3