Journal
NEUROSCIENCE
Volume 251, Issue -, Pages 75-89Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.neuroscience.2012.04.061
Keywords
3D reconstruction; connectome; neuropil; pathology; scanning transmission electron microscopy; ultrastructure
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Funding
- National Institutes of Health [NS021184, EB002170]
- Texas Emerging Technology Fund
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Because dendritic spines are the sites of excitatory synapses, pathological changes in spine morphology should be considered as part of pathological changes in neuronal circuitry in the forms of synaptic connections and connectivity strength. In the past, spine pathology has usually been measured by changes in their number or shape. A more complete understanding of spine pathology requires visualization at the nanometer level to analyze how the changes in number and size affect their presynaptic partners and associated astrocytic processes, as well as organelles and other intracellular structures. Currently, serial section electron microscopy (ssEM) offers the best approach to address this issue because of its ability to image the volume of brain tissue at the nanometer resolution. Renewed interest in ssEM has led to recent technological advances in imaging techniques and improvements in computational tools indispensable for three-dimensional analyses of brain tissue volumes. Here we consider the small but growing literature that has used ssEM analysis to unravel ultrastructural changes in neuropil including dendritic spines. These findings have implications in altered synaptic connectivity and cell biological processes involved in neuropathology, and serve as anatomical substrates for understanding changes in network activity that may underlie clinical symptoms. This article is part of a Special Issue entitled: Dendritic Spine Plasticity in Brain Disorders. (c) 2012 IBRO. Published by Elsevier Ltd. All rights reserved.
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