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Medial temporal lobe contributions to resting-state networks

Sara Seoane, Cristián Modroño, José Luis González–Mora, Niels Janssen

2022Brain Structure and Function24 citationsDOIOpen Access PDF

Abstract

The medial temporal lobe (MTL) is a set of interconnected brain regions that have been shown to play a central role in behavior as well as in neurological disease. Recent studies using resting-state functional magnetic resonance imaging (rsfMRI) have attempted to understand the MTL in terms of its functional connectivity with the rest of the brain. However, the exact characterization of the whole-brain networks that co-activate with the MTL as well as how the various sub-regions of the MTL are associated with these networks remains poorly understood. Here, we attempted to advance these issues by exploiting the high spatial resolution 7T rsfMRI dataset from the Human Connectome Project with a data-driven analysis approach that relied on independent component analysis (ICA) restricted to the MTL. We found that four different well-known resting-state networks co-activated with a unique configuration of MTL subcomponents. Specifically, we found that different sections of the parahippocampal cortex were involved in the default mode, visual and dorsal attention networks; sections of the hippocampus in the somatomotor and default mode networks; and the lateral entorhinal cortex in the dorsal attention network. We replicated this set of results in a validation sample. These results provide new insight into how the MTL and its subcomponents contribute to known resting-state networks. The participation of the MTL in an expanded range of resting-state networks is in line with recent proposals on MTL function.

Topics & Concepts

NeuroscienceDefault mode networkEntorhinal cortexResting state fMRIHuman Connectome ProjectConnectomeTemporal lobeConnectomicsTask-positive networkFunctional connectivityPsychologyFunctional magnetic resonance imagingParahippocampal gyrusPerirhinal cortexHippocampusEpilepsyFunctional Brain Connectivity StudiesNeural dynamics and brain functionPhotoreceptor and optogenetics research