Literature DB >> 31368891

Mapping the human subcortical auditory system using histology, postmortem MRI and in vivo MRI at 7T.

Kevin R Sitek1,2, Omer Faruk Gulban3, Satrajit S Ghosh1,2, Federico De Martino3,4, Evan Calabrese5, G Allan Johnson5, Agustin Lage-Castellanos3, Michelle Moerel3,6.   

Abstract

Studying the human subcortical auditory system non-invasively is challenging due to its small, densely packed structures deep within the brain. Additionally, the elaborate three-dimensional (3-D) structure of the system can be difficult to understand based on currently available 2-D schematics and animal models. Wfe addressed these issues using a combination of histological data, post mortem magnetic resonance imaging (MRI), and in vivo MRI at 7 Tesla. We created anatomical atlases based on state-of-the-art human histology (BigBrain) and postmortem MRI (50 µm). We measured functional MRI (fMRI) responses to natural sounds and demonstrate that the functional localization of subcortical structures is reliable within individual participants who were scanned in two different experiments. Further, a group functional atlas derived from the functional data locates these structures with a median distance below 2 mm. Using diffusion MRI tractography, we revealed structural connectivity maps of the human subcortical auditory pathway both in vivo (1050 µm isotropic resolution) and post mortem (200 µm isotropic resolution). This work captures current MRI capabilities for investigating the human subcortical auditory system, describes challenges that remain, and contributes novel, openly available data, atlases, and tools for researching the human auditory system.
© 2019, Sitek et al.

Entities:  

Keywords:  MRI; atlas; auditory; diffusion MRI; functional MRI; human; neuroscience; subcortical; tractography

Mesh:

Year:  2019        PMID: 31368891      PMCID: PMC6707786          DOI: 10.7554/eLife.48932

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


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