Distinct hippocampal functional networks revealed by tractography-based parcellation

A Adnan, A Barnett, M Moayedi, C McCormick… - Brain Structure and …, 2016 - Springer
A Adnan, A Barnett, M Moayedi, C McCormick, M Cohn, MP McAndrews
Brain Structure and Function, 2016Springer
Recent research suggests the anterior and posterior hippocampus form part of two distinct
functional neural networks. Here we investigate the structural underpinnings of this
functional connectivity difference using diffusion-weighted imaging-based parcellation.
Using this technique, we substantiated that the hippocampus can be parcellated into distinct
anterior and posterior segments. These structurally defined segments did indeed show
different patterns of resting state functional connectivity, in that the anterior segment showed …
Abstract
Recent research suggests the anterior and posterior hippocampus form part of two distinct functional neural networks. Here we investigate the structural underpinnings of this functional connectivity difference using diffusion-weighted imaging-based parcellation. Using this technique, we substantiated that the hippocampus can be parcellated into distinct anterior and posterior segments. These structurally defined segments did indeed show different patterns of resting state functional connectivity, in that the anterior segment showed greater connectivity with temporal and orbitofrontal cortex, whereas the posterior segment was more highly connected to medial and lateral parietal cortex. Furthermore, we showed that the posterior hippocampal connectivity to memory processing regions, including the dorsolateral prefrontal cortex, parahippocampal, inferior temporal and fusiform gyri and the precuneus, predicted interindividual relational memory performance. These findings provide important support for the integration of structural and functional connectivity in understanding the brain networks underlying episodic memory.
Springer
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