Brainstem anatomy with 7-T MRI: in vivo assessment and ex vivo comparison

Background The brainstem contains grey matter nuclei and white matter tracts to be identified in clinical practice. The small size and the low contrast among them make their in vivo visualisation challenging using conventional magnetic resonance imaging (MRI) sequences at high magnetic field strengt...

Full description

Saved in:
Bibliographic Details
Published in:European radiology experimental 2023-11, Vol.7 (1), p.71-71, Article 71
Main Authors: Donatelli, Graziella, Emmi, Aron, Costagli, Mauro, Cecchi, Paolo, Macchi, Veronica, Biagi, Laura, Lancione, Marta, Tosetti, Michela, Porzionato, Andrea, De Caro, Raffaele, Cosottini, Mirco
Format: Article
Language:English
Subjects:
Brain stem
Brain Stem - anatomy & histology
Brain Stem - diagnostic imaging
Diagnostic Radiology
Female
Grey matter
Histology
Humans
Imaging
Internal Medicine
Interventional Radiology
Magnetic fields
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Medicine
Medicine & Public Health
Middle Aged
Neuroradiology
Original Article
Radiology
Staining and labelling
Ultrasound
White matter
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Background The brainstem contains grey matter nuclei and white matter tracts to be identified in clinical practice. The small size and the low contrast among them make their in vivo visualisation challenging using conventional magnetic resonance imaging (MRI) sequences at high magnetic field strengths. Combining higher spatial resolution, signal- and contrast-to-noise ratio and sensitivity to magnetic susceptibility ( χ ), susceptibility-weighted 7-T imaging could improve the assessment of brainstem anatomy. Methods We acquired high-resolution 7-T MRI of the brainstem in a 46-year-old female healthy volunteer (using a three-dimensional multi-echo gradient-recalled-echo sequence; spatial resolution 0.3 × 0.3 × 1.2 mm 3 ) and in a brainstem sample from a 48-year-old female body donor that was sectioned and stained. Images were visually assessed; nuclei and tracts were labelled and named according to the official nomenclature. Results This in vivo imaging revealed structures usually evaluated through light microscopy, such as the accessory olivary nuclei, oculomotor nucleus and the medial longitudinal fasciculus. Some fibre tracts, such as the medial lemniscus, were visible for most of their course. Overall, in in vivo acquisitions, χ and frequency maps performed better than T2*-weighted imaging and allowed for the evaluation of a greater number of anatomical structures. All the structures identified in vivo were confirmed by the ex vivo imaging and histology. Conclusions The use of multi-echo GRE sequences at 7 T allowed the visualisation of brainstem structures that are not visible in detail at conventional magnetic field and opens new perspectives in the diagnostic and therapeutical approach to brain disorders. Relevance statement In vivo MR imaging at UHF provides detailed anatomy of CNS substructures comparable to that obtained with histology. Anatomical details are fundamentals for diagnostic purposes but also to plan a direct targeting for a minimally invasive brain stimulation or ablation. Key points • The in vivo brainstem anatomy was explored with ultrahigh field MRI (7 T). • In vivo T2*-weighted magnitude, χ, and frequency images revealed many brainstem structures. • Ex vivo imaging and histology confirmed all the structures identified in vivo . • χ and frequency imaging revealed more brainstem structures than magnitude imaging. Graphical Abstract
ISSN:2509-9280
2509-9280
DOI:10.1186/s41747-023-00389-y