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EM and XRM Connectomics Imaging and Experimental Metadata Standards

Authors :
Wimbish, Miguel E.
Guittari, Nicole K.
Rose, Victoria A.
Rivera Jr, Jorge L.
Rivlin, Patricia K.
Hinton, Mark A.
Matelsky, Jordan K.
Stock, Nicole E.
Wester, Brock A.
Johnson, Erik C.
Gray-Roncal, William R.
Publication Year :
2024

Abstract

High resolution volumetric neuroimaging datasets from electron microscopy (EM) and x-ray micro and holographic-nano tomography (XRM/XHN) are being generated at an increasing rate and by a growing number of research teams. These datasets are derived from an increasing number of species, in an increasing number of brain regions, and with an increasing number of techniques. Each of these large-scale datasets, often surpassing petascale levels, is typically accompanied by a unique and varied set of metadata. These datasets can be used to derive connectomes, or neuron-synapse level connectivity diagrams, to investigate the fundamental organization of neural circuitry, neuronal development, and neurodegenerative disease. Standardization is essential to facilitate comparative connectomics analysis and enhance data utilization. Although the neuroinformatics community has successfully established and adopted data standards for many modalities, this effort has not yet encompassed EM and XRM/ XHN connectomics data. This lack of standardization isolates these datasets, hindering their integration and comparison with other research performed in the field. Towards this end, our team formed a working group consisting of community stakeholders to develop Image and Experimental Metadata Standards for EM and XRM/XHN data to ensure the scientific impact and further motivate the generation and sharing of these data. This document addresses version 1.1 of these standards, aiming to support metadata services and future software designs for community collaboration. Standards for derived annotations are described in a companion document. Standards definitions are available on a community github page. We hope these standards will enable comparative analysis, improve interoperability between connectomics software tools, and continue to be refined and improved by the neuroinformatics community.<br />Comment: 15 Pages, 3 figures, 2 tables

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2401.15251
Document Type :
Working Paper