Three-Dimensional Histology Volume Reconstruction of Axonal Tract Tracing Data: Exploring Topographical Organization in Subcortical Projections from Rat Barrel Cortex

Topographical organization is a hallmark of the mammalian brain, and the spatial organization of axonal connections in different brain regions provides a structural framework accommodating specific patterns of neural activity. The presence, amount, and spatial distribution of axonal connections are...

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Veröffentlicht in:	PloS one 2015-09, Vol.10 (9), p.e0137571-e0137571
Hauptverfasser:	Zakiewicz, Izabela M, Majka, Piotr, Wójcik, Daniel K, Bjaalie, Jan G, Leergaard, Trygve B
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Axons Axons - physiology Biology Brain Brain architecture Brain Mapping Cerebral cortex Cerebral Cortex - anatomy & histology Cerebral Cortex - physiology Corpus Striatum Cortex (barrel) Cortex (somatosensory) Distribution patterns Elongation Feasibility studies Histology Image acquisition Image reconstruction Imaging, Three-Dimensional Labeling Labelling Medical imaging Microscopic analysis Neostriatum Neural Pathways Neuroimaging Rats Rodents Spatial distribution Subspaces Thalamus Topography Tracers (Biology) Visualization
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description	Topographical organization is a hallmark of the mammalian brain, and the spatial organization of axonal connections in different brain regions provides a structural framework accommodating specific patterns of neural activity. The presence, amount, and spatial distribution of axonal connections are typically studied in tract tracing experiments in which axons or neurons are labeled and examined in histological sections. Three-dimensional (3-D) reconstruction techniques are used to achieve more complete visualization and improved understanding of complex topographical relationships. 3-D reconstruction approaches based on manually or semi-automatically recorded spatial points representing axonal labeling have been successfully applied for investigation of smaller brain regions, but are not practically feasible for whole-brain analysis of multiple regions. We here reconstruct serial histological images from four whole brains (originally acquired for conventional microscopic analysis) into volumetric images that are spatially registered to a 3-D atlas template. The aims were firstly to evaluate the quality of the 3-D reconstructions and the usefulness of the approach, and secondly to investigate axonal projection patterns and topographical organization in rat corticostriatal and corticothalamic pathways. We demonstrate that even with the limitations of the original routine histological material, the 3-D reconstructed volumetric images allow efficient visualization of tracer injection sites and axonal labeling, facilitating detection of spatial distributions and across-case comparisons. Our results further show that clusters of S1 corticostriatal and corticothalamic projections are distributed within narrow, elongated or spherical subspaces extending across the entire striatum / thalamus. We conclude that histology volume reconstructions facilitate mapping of spatial distribution patterns and topographical organization. The reconstructed image volumes are shared via the Rodent Brain Workbench (www.rbwb.org).
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The presence, amount, and spatial distribution of axonal connections are typically studied in tract tracing experiments in which axons or neurons are labeled and examined in histological sections. Three-dimensional (3-D) reconstruction techniques are used to achieve more complete visualization and improved understanding of complex topographical relationships. 3-D reconstruction approaches based on manually or semi-automatically recorded spatial points representing axonal labeling have been successfully applied for investigation of smaller brain regions, but are not practically feasible for whole-brain analysis of multiple regions. We here reconstruct serial histological images from four whole brains (originally acquired for conventional microscopic analysis) into volumetric images that are spatially registered to a 3-D atlas template. The aims were firstly to evaluate the quality of the 3-D reconstructions and the usefulness of the approach, and secondly to investigate axonal projection patterns and topographical organization in rat corticostriatal and corticothalamic pathways. We demonstrate that even with the limitations of the original routine histological material, the 3-D reconstructed volumetric images allow efficient visualization of tracer injection sites and axonal labeling, facilitating detection of spatial distributions and across-case comparisons. Our results further show that clusters of S1 corticostriatal and corticothalamic projections are distributed within narrow, elongated or spherical subspaces extending across the entire striatum / thalamus. We conclude that histology volume reconstructions facilitate mapping of spatial distribution patterns and topographical organization. The reconstructed image volumes are shared via the Rodent Brain Workbench (www.rbwb.org).</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>26398192</pmid><doi>10.1371/journal.pone.0137571</doi><oa>free_for_read</oa></addata></record>
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subjects	Animals Axons Axons - physiology Biology Brain Brain architecture Brain Mapping Cerebral cortex Cerebral Cortex - anatomy & histology Cerebral Cortex - physiology Corpus Striatum Cortex (barrel) Cortex (somatosensory) Distribution patterns Elongation Feasibility studies Histology Image acquisition Image reconstruction Imaging, Three-Dimensional Labeling Labelling Medical imaging Microscopic analysis Neostriatum Neural Pathways Neuroimaging Rats Rodents Spatial distribution Subspaces Thalamus Topography Tracers (Biology) Visualization
title	Three-Dimensional Histology Volume Reconstruction of Axonal Tract Tracing Data: Exploring Topographical Organization in Subcortical Projections from Rat Barrel Cortex
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