1/2/2024 0 Comments Cellprofiler saving imagesFor an overview on common image data types, please refer to the scikit-image documentation. Throughout this pipeline, images in TIFF format are saved as unsigned 16-bit images with an intensity range of 0 - 65535. This will automatically open a jupyter instance at in your browser.įrom there, you can open the scripts/imc_preprocessing.ipynb notebook and start the data pre-processing. Alternatively you can clone the ImcPluginsCP repository individually and set the path correctly in CellProfiler.Īctivate the environment created in 3. The current setup is tested with Ilastik v1.3.3post3 and CellProfiler v4.2.1.įurthermore, before running the analysis, you will need to setup a conda environment:Ĭonfigure CellProfiler to use the plugins by opening the CellProfiler GUI, selecting Preferences and setting the CellProfiler plugins directory to path/to/ImcSegmentationPipeline/resources/ImcPluginsCP/plugins and restart CellProfiler. Getting startedįor the main part of the analysis, you will need to install Ilastik and CellProfiler. The guide displayed here gives detailed information on how to handle IMC images.įor additional information on CellProfiler, please refer to their manuals. It is recommended to acquire 5 or more channels to avoid potential downstream problems where images are considered to be of the RGBA type (red, green, blue, alpha).txt files (see the pre-processing section) There are some points that need to be considered when using this pipeline: tiff files, Ilastik pixel classification, segmentation and feature extraction can be performed in a technology-agnostic way. While we highlight the use of the pipeline with imaging mass cytometry (IMC) data, the concepts presented here can be easily applied to other highly multiplexed imaging data. This site gives detailed explanations of the individual steps of the pipeline ( see below) to generate single-cell measurements from raw imaging data. The steinbock framework offers a dockerized version of the pipeline and extends the segmentation approach by deepcell segmentation. The pipeline is entirely build on open source tools, can be easily adapted to more specific problems and forms a basis for quantitative multiplexed tissue image analysis.įor a more detailed introduction to IMC as technolgy and common data analysis steps, please refer to the IMC workflow website. The segmentation pipeline is accompanied by the imcsegpipe python package building up on readimc as well as customized CellProfiler modules, which facilitate the analysis of highly multiplexed images. This feature reduction step is followed by standard image segmentation using CellProfiler. It is based on supervised pixel classification using Ilastik to distill segmentation relevant information from multiplexed images in a semi-supervised, automated fashion. This repository presents a flexible and scalable image processing pipeline tailored to highly multiplexed images facilitating the segmentation of single cells across hundreds of images. Measuring objects and their features in images is a basic step in many quantitative tissue image analysis workflows. However, CellProfiler overcomes the limitations of the FociCounter program and is able to detect nuclei automatically, saving considerable manual operation.A flexible multiplexed image segmentation pipeline based on pixel classification We conclude that CellProfiler and FociCounter are reliable tools for measuring gamma-H2AX foci. CellProfiler reduced manual operation time and is about 4 times faster than semiautomatic detection using FociCounter and 10 times faster than visual counting. The time required for manual operation is associated with the number of images analyzed visually or by FociCounter but not for the CellProfiler program. The CellProfiler pipeline includes some proprieties not present in FociCounter, such as the automatic detection of nuclei, the detection of touching nuclei and the rejection of nuclei that touch the border of the image. Sets of color images were analyzed visually, and findings were compared with those using FociCounter and CellProfiler software. To test a CellProfiler pipeline for automated counting and characterization of gamma-H2AX foci in color images of human cultured cells.Ī431 cells were irradiated and stained for gamma-H2AX foci detection.
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