Submillimeter T<sub>1</sub> atlas for subject-specific abnormality detection at 7T.

Details

Serval ID
serval:BIB_0C81D43EC64C
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Submillimeter T<sub>1</sub> atlas for subject-specific abnormality detection at 7T.
Journal
Magnetic resonance in medicine
Author(s)
Piredda G.F., Caneschi S., Hilbert T., Bonanno G., Joseph A., Egger K., Peter J., Klöppel S., Jehli E., Grieder M., Slotboom J., Seiffge D., Goeldlin M., Hoepner R., Willems T., Vulliemoz S., Seeck M., Venkategowda P.B., Corredor Jerez R.A., Maréchal B., Thiran J.P., Wiest R., Kober T., Radojewski P.
ISSN
1522-2594 (Electronic)
ISSN-L
0740-3194
Publication state
Published
Issued date
04/2023
Peer-reviewed
Oui
Volume
89
Number
4
Pages
1601-1616
Language
english
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: ppublish
Abstract
Studies at 3T have shown that T <sub>1</sub> relaxometry enables characterization of brain tissues at the single-subject level by comparing individual physical properties to a normative atlas. In this work, an atlas of normative T <sub>1</sub> values at 7T is introduced with 0.6 mm isotropic resolution and its clinical potential is explored in comparison to 3T.
T <sub>1</sub> maps were acquired in two separate healthy cohorts scanned at 3T and 7T. Using transfer learning, a template-based brain segmentation algorithm was adapted to ultra-high field imaging data. After segmenting brain tissues, volumes were normalized into a common space, and an atlas of normative T <sub>1</sub> values was established by modeling the T <sub>1</sub> inter-subject variability. A method for single-subject comparisons restricted to white matter and subcortical structures was developed by computing Z-scores. The comparison was applied to eight patients scanned at both field strengths for proof of concept.
The proposed method for morphometry delivered segmentation masks without statistically significant differences from those derived with the original pipeline at 3T and achieved accurate segmentation at 7T. The established normative atlas allowed characterizing tissue alterations in single-subject comparisons at 7T, and showed greater anatomical details compared with 3T results.
A high-resolution quantitative atlas with an adapted pipeline was introduced and validated. Several case studies on different clinical conditions showed the feasibility, potential and limitations of high-resolution single-subject comparisons based on quantitative MRI atlases. This method in conjunction with 7T higher resolution broadens the range of potential applications of quantitative MRI in clinical practice.
Keywords
Humans, Magnetic Resonance Imaging/methods, White Matter/diagnostic imaging, Algorithms, Brain/diagnostic imaging, 7T, T1 mapping, normative atlas, single-subject comparisons, ultra-high field
Pubmed
Web of science
Create date
19/12/2022 11:54
Last modification date
17/11/2023 7:10
Usage data