Minian, an open-source miniscope analysis pipeline

Minian, an open-source miniscope analysis pipeline

Miniature microscopes have gained considerable traction for in vivo calcium imaging in freely behaving animals. However, extracting calcium signals from raw videos is a computationally complex problem and remains a bottleneck for many researchers utilizing single-photon in vivo calcium imaging. Desp...

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Bibliographic Details
Published in:eLife Vol. 11
Main Authors: Dong, Zhe, Mau, William, Feng, Yu, Pennington, Zachary T, Chen, Lingxuan, Zaki, Yosif, Rajan, Kanaka, Shuman, Tristan, Aharoni, Daniel, Cai, Denise J
Format: Journal Article
Language:English
Published: England eLife Science Publications, Ltd 01-06-2022
eLife Sciences Publications Ltd
eLife Sciences Publications, Ltd
Subjects:
Algorithms
analysis pipeline
Animals
Brain - metabolism
Calcium - metabolism
Calcium imaging
Calcium signalling
Computational neuroscience
Computers
Image Processing, Computer-Assisted
Memory
Microscopes
Microscopy
Miniscope
Neuroimaging
Neuroscience
Neurosciences
Photons
Pipelines
Portable computers
Software
Tools and Resources
Usability
Visualization (Computers)
mouse
Miniscope
analysis pipeline
calcium imaging
neuroscience
Online Access:Get full text
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Summary:Miniature microscopes have gained considerable traction for in vivo calcium imaging in freely behaving animals. However, extracting calcium signals from raw videos is a computationally complex problem and remains a bottleneck for many researchers utilizing single-photon in vivo calcium imaging. Despite the existence of many powerful analysis packages designed to detect and extract calcium dynamics, most have either key parameters that are hard-coded or insufficient step-by-step guidance and validations to help the users choose the best parameters. This makes it difficult to know whether the output is reliable and meets the assumptions necessary for proper analysis. Moreover, large memory demand is often a constraint for setting up these pipelines since it limits the choice of hardware to specialized computers. Given these difficulties, there is a need for a low memory demand, user-friendly tool offering interactive visualizations of how altering parameters at each step of the analysis affects data output. Our open-source analysis pipeline, Minian (miniscope analysis), facilitates the transparency and accessibility of single-photon calcium imaging analysis, permitting users with little computational experience to extract the location of cells and their corresponding calcium traces and deconvolved neural activities. Minian contains interactive visualization tools for every step of the analysis, as well as detailed documentation and tips on parameter exploration. Furthermore, Minian has relatively small memory demands and can be run on a laptop, making it available to labs that do not have access to specialized computational hardware. Minian has been validated to reliably and robustly extract calcium events across different brain regions and from different cell types. In practice, Minian provides an open-source calcium imaging analysis pipeline with user-friendly interactive visualizations to explore parameters and validate results.
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ISSN:2050-084X
2050-084X
DOI:10.7554/elife.70661