2018
DOI: 10.1523/eneuro.0056-18.2018
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Automatic Cell Segmentation by Adaptive Thresholding (ACSAT) for Large-Scale Calcium Imaging Datasets

Abstract: Advances in calcium imaging have made it possible to record from an increasingly larger number of neurons simultaneously. Neuroscientists can now routinely image hundreds to thousands of individual neurons. An emerging technical challenge that parallels the advancement in imaging a large number of individual neurons is the processing of correspondingly large datasets. One important step is the identification of individual neurons. Traditional methods rely mainly on manual or semimanual inspection, which cannot… Show more

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Cited by 30 publications
(30 citation statements)
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“…To identify the regions of interest (ROIs) that represent neurons, we first generated time-collapsed images by subtracting the average intensity value of each pixel over all videos from its maximum intensity. We then applied ACSAT (Shen et al, 2018) to generate ROIs with the following parameters: iteration=2, minimum size=50 pixels, and maximum size=300 pixels. In brief, ACSAT is a threshold-based ROI segmentation algorithm that adaptively adjusts the threshold at both global and local levels to capture ROIs with various intensities.…”
Section: Methods Detailsmentioning
confidence: 99%
“…To identify the regions of interest (ROIs) that represent neurons, we first generated time-collapsed images by subtracting the average intensity value of each pixel over all videos from its maximum intensity. We then applied ACSAT (Shen et al, 2018) to generate ROIs with the following parameters: iteration=2, minimum size=50 pixels, and maximum size=300 pixels. In brief, ACSAT is a threshold-based ROI segmentation algorithm that adaptively adjusts the threshold at both global and local levels to capture ROIs with various intensities.…”
Section: Methods Detailsmentioning
confidence: 99%
“…ROIs were matched to one another, spatial ROI maps were co-registered using framewise cross-correlation. ROIs were then matched using a greedy method that required the centroid of cells to be within 50 pixels of one another and had to have at least 50% of their pixels overlap, as published previously 59 . Cells that did not meet both of those criteria were removed from the matched dataset for comparison.…”
Section: Co-registration Of Neuronsmentioning
confidence: 99%
“…This caveat, however, was not explicitly tested in our study. In the context of an automated analysis pipeline, this activity-based approach lends some confidence that only active pixels are included within the ROI outlines and is distinct from approaches that identify ROIs based on thresholds or watershed transforms applied to an average or maximal imaged field ( Wong et al, 2010 ; Shen et al, 2018 ) or based on secondary fluorescent markers ( Wardill et al, 2013 ). To further reduce potential signal contamination, we removed the local, rather than global, neuropil signal from each individual ROI as has been done in previous studies ( Keemink et al, 2018 ; Pnevmatikakis, 2019 ; Soltanian-Zadeh et al, 2019 ).…”
Section: Discussionmentioning
confidence: 99%