Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain

Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain

The internal structure of the human hippocampus is challenging to map using histology or neuroimaging due to its complex archicortical folding. Here, we aimed to overcome this challenge using a unique combination of three methods. First, we leveraged a histological dataset with unprecedented 3D cove...

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Bibliographic Details
Main Authors: J. DeKraker, J.C. Lau, K.M. Ferko, A.R. Khan, S. Köhler
Format: Article
Language:English
Published: Elsevier 2020-02-01
Series:NeuroImage
Subjects:
Hippocampus
Subfields
Histology
Cortical folding
Cortical unfolding
Morphology
Online Access:http://www.sciencedirect.com/science/article/pii/S105381191930919X
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spelling doaj-74a4e6a907ef4c8481953a594ce3dc142020-11-25T02:59:25ZengElsevierNeuroImage1095-95722020-02-01206116328Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrainJ. DeKraker0J.C. Lau1K.M. Ferko2A.R. Khan3S. Köhler4Brain and Mind Institute, University of Western Ontario, Canada; Robarts Research Institute, Schulich School of Medicine and Dentistry, University of Western Ontario, Canada; Corresponding author. Robarts Research Institute, Western University, 1151 Richmond St. N, London, Ontario, N6A 5B7, Canada.Robarts Research Institute, Schulich School of Medicine and Dentistry, University of Western Ontario, Canada; School of Biomedical Engineering, University of Western Ontario, Canada; Dept Clinical Neurological Sciences, Division of Neurosurgery, University of Western Ontario, CanadaBrain and Mind Institute, University of Western Ontario, Canada; Robarts Research Institute, Schulich School of Medicine and Dentistry, University of Western Ontario, CanadaBrain and Mind Institute, University of Western Ontario, Canada; Robarts Research Institute, Schulich School of Medicine and Dentistry, University of Western Ontario, Canada; School of Biomedical Engineering, University of Western Ontario, Canada; Dept Medical Biophysics, University of Western Ontario, CanadaBrain and Mind Institute, University of Western Ontario, Canada; Dept Psychology, University of Western Ontario, CanadaThe internal structure of the human hippocampus is challenging to map using histology or neuroimaging due to its complex archicortical folding. Here, we aimed to overcome this challenge using a unique combination of three methods. First, we leveraged a histological dataset with unprecedented 3D coverage, BigBrain. Second, we imposed a computational unfolding framework that respects the topological continuity of hippocampal subfields, which are traditionally defined by laminar composition. Third, we adapted neocortical parcellation techniques to map the hippocampus with respect to not only laminar but also morphological features. Unsupervised clustering of these features revealed subdivisions that closely resemble gold standard manual subfield segmentations. Critically, we also show that morphological features alone are sufficient to derive most hippocampal subfield boundaries. Moreover, some features showed differences within subfields along the hippocampal longitudinal axis. Our findings highlight new characteristics of internal hippocampal structure, and offer new avenues for its characterization with in-vivo neuroimaging.http://www.sciencedirect.com/science/article/pii/S105381191930919XHippocampusSubfieldsHistologyCortical foldingCortical unfoldingMorphology
collection DOAJ
language English
format Article
sources DOAJ
author J. DeKraker
J.C. Lau
K.M. Ferko
A.R. Khan
S. Köhler
spellingShingle J. DeKraker
J.C. Lau
K.M. Ferko
A.R. Khan
S. Köhler
Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
NeuroImage
Hippocampus
Subfields
Histology
Cortical folding
Cortical unfolding
Morphology
author_facet J. DeKraker
J.C. Lau
K.M. Ferko
A.R. Khan
S. Köhler
author_sort J. DeKraker
title Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
title_short Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
title_full Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
title_fullStr Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
title_full_unstemmed Hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3D BigBrain
title_sort hippocampal subfields revealed through unfolding and unsupervised clustering of laminar and morphological features in 3d bigbrain
publisher Elsevier
series NeuroImage
issn 1095-9572
publishDate 2020-02-01
description The internal structure of the human hippocampus is challenging to map using histology or neuroimaging due to its complex archicortical folding. Here, we aimed to overcome this challenge using a unique combination of three methods. First, we leveraged a histological dataset with unprecedented 3D coverage, BigBrain. Second, we imposed a computational unfolding framework that respects the topological continuity of hippocampal subfields, which are traditionally defined by laminar composition. Third, we adapted neocortical parcellation techniques to map the hippocampus with respect to not only laminar but also morphological features. Unsupervised clustering of these features revealed subdivisions that closely resemble gold standard manual subfield segmentations. Critically, we also show that morphological features alone are sufficient to derive most hippocampal subfield boundaries. Moreover, some features showed differences within subfields along the hippocampal longitudinal axis. Our findings highlight new characteristics of internal hippocampal structure, and offer new avenues for its characterization with in-vivo neuroimaging.
topic Hippocampus
Subfields
Histology
Cortical folding
Cortical unfolding
Morphology
url http://www.sciencedirect.com/science/article/pii/S105381191930919X
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