Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits

Padraig Gleeson; Matteo Cantarelli; B. Marin; Adrian Quintana; Matt Earnshaw; S. Sadeh; Eugenio Piasini; Justas Birgiolas; Robert C. Cannon; N. Alex Cayco-Gajic; Sharon Crook; Andrew P. Davison; Salvador Dura-Bernal; András Ecker; Michael L. Hines; Giovanni Idili; Frederic Lanore; Stephen D. Larson; William W. Lytton; Amitava Majumdar; Robert A. McDougal; Subhashini Sivagnanam; Sergio Solinas; R. Stanislovas; Sacha J. van Albada; Werner van Geit; R. Angus Silver

doi:10.1016/j.neuron.2019.05.019

Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits

Padraig Gleeson, Matteo Cantarelli, B. Marin, Adrian Quintana, Matt Earnshaw, S. Sadeh, Eugenio Piasini, Justas Birgiolas, Robert C. Cannon, N. Alex Cayco-Gajic, Sharon Crook, Andrew P. Davison, Salvador Dura-Bernal, András Ecker, Michael L. Hines, Giovanni Idili, Frederic Lanore, Stephen D. Larson, William W. Lytton, Amitava MajumdarRobert A. McDougal, Subhashini Sivagnanam, Sergio Solinas, R. Stanislovas, Sacha J. van Albada, Werner van Geit, R. Angus Silver

Mathematical and Statistical Sciences, School of (SoMSS)

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

Computational models are powerful tools for exploring the properties of complex biological systems. In neuroscience, data-driven models of neural circuits that span multiple scales are increasingly being used to understand brain function in health and disease. But their adoption and reuse has been limited by the specialist knowledge required to evaluate and use them. To address this, we have developed Open Source Brain, a platform for sharing, viewing, analyzing, and simulating standardized models from different brain regions and species. Model structure and parameters can be automatically visualized and their dynamical properties explored through browser-based simulations. Infrastructure and tools for collaborative interaction, development, and testing are also provided. We demonstrate how existing components can be reused by constructing new models of inhibition-stabilized cortical networks that match recent experimental results. These features of Open Source Brain improve the accessibility, transparency, and reproducibility of models and facilitate their reuse by the wider community. Open Source Brain is an online resource of neuronal and circuit models that enables browser-based visualization, analysis, and simulation. Gleeson et al. describe how the resource and tools for collaborative model development provide accessible, up-to-date models from different brain regions.

Original language	English (US)
Pages (from-to)	395-411.e5
Journal	Neuron
Volume	103
Issue number	3
DOIs	https://doi.org/10.1016/j.neuron.2019.05.019
State	Published - Aug 7 2019

Keywords

circuits
collaboration
computational neuroscience
modelling
networks
neurons
open source
simulation
standardization

ASJC Scopus subject areas

General Neuroscience

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10.1016/j.neuron.2019.05.019

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Gleeson, P., Cantarelli, M., Marin, B., Quintana, A., Earnshaw, M., Sadeh, S., Piasini, E., Birgiolas, J., Cannon, R. C., Cayco-Gajic, N. A., Crook, S., Davison, A. P., Dura-Bernal, S., Ecker, A., Hines, M. L., Idili, G., Lanore, F., Larson, S. D., Lytton, W. W., ... Silver, R. A. (2019). Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits. Neuron, 103(3), 395-411.e5. https://doi.org/10.1016/j.neuron.2019.05.019

Gleeson, P, Cantarelli, M, Marin, B, Quintana, A, Earnshaw, M, Sadeh, S, Piasini, E, Birgiolas, J, Cannon, RC, Cayco-Gajic, NA, Crook, S, Davison, AP, Dura-Bernal, S, Ecker, A, Hines, ML, Idili, G, Lanore, F, Larson, SD, Lytton, WW, Majumdar, A, McDougal, RA, Sivagnanam, S, Solinas, S, Stanislovas, R, van Albada, SJ, van Geit, W & Silver, RA 2019, 'Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits', Neuron, vol. 103, no. 3, pp. 395-411.e5. https://doi.org/10.1016/j.neuron.2019.05.019

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title = "Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits",

abstract = "Computational models are powerful tools for exploring the properties of complex biological systems. In neuroscience, data-driven models of neural circuits that span multiple scales are increasingly being used to understand brain function in health and disease. But their adoption and reuse has been limited by the specialist knowledge required to evaluate and use them. To address this, we have developed Open Source Brain, a platform for sharing, viewing, analyzing, and simulating standardized models from different brain regions and species. Model structure and parameters can be automatically visualized and their dynamical properties explored through browser-based simulations. Infrastructure and tools for collaborative interaction, development, and testing are also provided. We demonstrate how existing components can be reused by constructing new models of inhibition-stabilized cortical networks that match recent experimental results. These features of Open Source Brain improve the accessibility, transparency, and reproducibility of models and facilitate their reuse by the wider community. Open Source Brain is an online resource of neuronal and circuit models that enables browser-based visualization, analysis, and simulation. Gleeson et al. describe how the resource and tools for collaborative model development provide accessible, up-to-date models from different brain regions.",

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author = "Padraig Gleeson and Matteo Cantarelli and B. Marin and Adrian Quintana and Matt Earnshaw and S. Sadeh and Eugenio Piasini and Justas Birgiolas and Cannon, {Robert C.} and Cayco-Gajic, {N. Alex} and Sharon Crook and Davison, {Andrew P.} and Salvador Dura-Bernal and Andr{\'a}s Ecker and Hines, {Michael L.} and Giovanni Idili and Frederic Lanore and Larson, {Stephen D.} and Lytton, {William W.} and Amitava Majumdar and McDougal, {Robert A.} and Subhashini Sivagnanam and Sergio Solinas and R. Stanislovas and {van Albada}, {Sacha J.} and {van Geit}, Werner and Silver, {R. Angus}",

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doi = "10.1016/j.neuron.2019.05.019",

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AU - Gleeson, Padraig

AU - Cantarelli, Matteo

AU - Marin, B.

AU - Quintana, Adrian

AU - Earnshaw, Matt

AU - Sadeh, S.

AU - Piasini, Eugenio

AU - Birgiolas, Justas

AU - Cannon, Robert C.

AU - Cayco-Gajic, N. Alex

AU - Crook, Sharon

AU - Davison, Andrew P.

AU - Dura-Bernal, Salvador

AU - Ecker, András

AU - Hines, Michael L.

AU - Idili, Giovanni

AU - Lanore, Frederic

AU - Larson, Stephen D.

AU - Lytton, William W.

AU - Majumdar, Amitava

AU - McDougal, Robert A.

AU - Sivagnanam, Subhashini

AU - Solinas, Sergio

AU - Stanislovas, R.

AU - van Albada, Sacha J.

AU - van Geit, Werner

AU - Silver, R. Angus

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N2 - Computational models are powerful tools for exploring the properties of complex biological systems. In neuroscience, data-driven models of neural circuits that span multiple scales are increasingly being used to understand brain function in health and disease. But their adoption and reuse has been limited by the specialist knowledge required to evaluate and use them. To address this, we have developed Open Source Brain, a platform for sharing, viewing, analyzing, and simulating standardized models from different brain regions and species. Model structure and parameters can be automatically visualized and their dynamical properties explored through browser-based simulations. Infrastructure and tools for collaborative interaction, development, and testing are also provided. We demonstrate how existing components can be reused by constructing new models of inhibition-stabilized cortical networks that match recent experimental results. These features of Open Source Brain improve the accessibility, transparency, and reproducibility of models and facilitate their reuse by the wider community. Open Source Brain is an online resource of neuronal and circuit models that enables browser-based visualization, analysis, and simulation. Gleeson et al. describe how the resource and tools for collaborative model development provide accessible, up-to-date models from different brain regions.

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Open Source Brain: A Collaborative Resource for Visualizing, Analyzing, Simulating, and Developing Standardized Models of Neurons and Circuits

Abstract

Keywords

ASJC Scopus subject areas

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