BACKGROUND: Emerging neuroimaging datasets (collected with imaging techniques such as electron microscopy, optical microscopy, or X-ray microtomography) describe the location and properties of neurons and their connections at unprecedented scale, promising new ways of understanding the brain. These modern imaging techniques used to interrogate the brain can quickly accumulate gigabytes to petabytes of structural brain imaging data. Unfortunately, many neuroscience laboratories lack the computational resources to work with datasets of this size: computer vision tools are often not portable or scalable, and there is considerable difficulty in reproducing results or extending methods. RESULTS: We developed an ecosystem of neuroimaging data analysis pipelines that use open-source algorithms to create standardized modules and end-to-end optimized approaches. As exemplars we apply our tools to estimate synapse-level connectomes from electron microscopy data and cell distributions from X-ray microtomography data. To facilitate scientific discovery, we propose a generalized processing framework, which connects and extends existing open-source projects to provide large-scale data storage, reproducible algorithms, and workflow execution engines. CONCLUSIONS: Our accessible methods and pipelines demonstrate that approaches across multiple neuroimaging experiments can be standardized and applied to diverse datasets. The techniques developed are demonstrated on neuroimaging datasets but may be applied to similar problems in other domains.
BACKGROUND: Emerging neuroimaging datasets (collected with imaging techniques such as electron microscopy, optical microscopy, or X-ray microtomography) describe the location and properties of neurons and their connections at unprecedented scale, promising new ways of understanding the brain. These modern imaging techniques used to interrogate the brain can quickly accumulate gigabytes to petabytes of structural brain imaging data. Unfortunately, many neuroscience laboratories lack the computational resources to work with datasets of this size: computer vision tools are often not portable or scalable, and there is considerable difficulty in reproducing results or extending methods. RESULTS: We developed an ecosystem of neuroimaging data analysis pipelines that use open-source algorithms to create standardized modules and end-to-end optimized approaches. As exemplars we apply our tools to estimate synapse-level connectomes from electron microscopy data and cell distributions from X-ray microtomography data. To facilitate scientific discovery, we propose a generalized processing framework, which connects and extends existing open-source projects to provide large-scale data storage, reproducible algorithms, and workflow execution engines. CONCLUSIONS: Our accessible methods and pipelines demonstrate that approaches across multiple neuroimaging experiments can be standardized and applied to diverse datasets. The techniques developed are demonstrated on neuroimaging datasets but may be applied to similar problems in other domains.
Authors: Narayanan Kasthuri; Kenneth Jeffrey Hayworth; Daniel Raimund Berger; Richard Lee Schalek; José Angel Conchello; Seymour Knowles-Barley; Dongil Lee; Amelio Vázquez-Reina; Verena Kaynig; Thouis Raymond Jones; Mike Roberts; Josh Lyskowski Morgan; Juan Carlos Tapia; H Sebastian Seung; William Gray Roncal; Joshua Tzvi Vogelstein; Randal Burns; Daniel Lewis Sussman; Carey Eldin Priebe; Hanspeter Pfister; Jeff William Lichtman Journal: Cell Date: 2015-07-30 Impact factor: 41.582
Authors: Madleen Busse; Mark Müller; Melanie A Kimm; Simone Ferstl; Sebastian Allner; Klaus Achterhold; Julia Herzen; Franz Pfeiffer Journal: Proc Natl Acad Sci U S A Date: 2018-02-20 Impact factor: 11.205
Authors: Benedikt Staffler; Manuel Berning; Kevin M Boergens; Anjali Gour; Patrick van der Smagt; Moritz Helmstaedter Journal: Elife Date: 2017-07-14 Impact factor: 8.140
Authors: Shin-ya Takemura; Arjun Bharioke; Zhiyuan Lu; Aljoscha Nern; Shiv Vitaladevuni; Patricia K Rivlin; William T Katz; Donald J Olbris; Stephen M Plaza; Philip Winston; Ting Zhao; Jane Anne Horne; Richard D Fetter; Satoko Takemura; Katerina Blazek; Lei-Ann Chang; Omotara Ogundeyi; Mathew A Saunders; Victor Shapiro; Christopher Sigmund; Gerald M Rubin; Louis K Scheffer; Ian A Meinertzhagen; Dmitri B Chklovskii Journal: Nature Date: 2013-08-08 Impact factor: 49.962
Authors: Juan Nunez-Iglesias; Ryan Kennedy; Stephen M Plaza; Anirban Chakraborty; William T Katz Journal: Front Neuroinform Date: 2014-04-04 Impact factor: 4.081
Authors: Jordan K Matelsky; Luis M Rodriguez; Daniel Xenes; Timothy Gion; Robert Hider; Brock A Wester; William Gray-Roncal Journal: Annu Int Conf IEEE Eng Med Biol Soc Date: 2021-11
Authors: Caitlyn Bishop; Jordan Matelsky; Miller Wilt; Joseph Downs; Patricia Rivlin; Stephen Plaza; Brock Wester; William Gray-Roncal Journal: Annu Int Conf IEEE Eng Med Biol Soc Date: 2021-11