期刊
SLAS DISCOVERY
卷 28, 期 7, 页码 292-305出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.slasd.2023.08.009
关键词
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The field of high content imaging has steadily evolved and expanded across many industry and academic research institutions since the early 1990s. High content imaging enables automated acquisition and analysis of microscopic images from various biological samples, allowing for large-scale screening and research on complex biological systems.
The field of high content imaging has steadily evolved and expanded substantially across many industry and academic research institutions since it was first described in the early 1990 ' s. High content imaging refers to the automated acquisition and analysis of microscopic images from a variety of biological sample types. Integration of high content imaging microscopes with multiwell plate handling robotics enables high content imaging to be performed at scale and support medium-to high -throughput screening of pharmacological, genetic and diverse environmental perturbations upon complex biological systems ranging from 2D cell cultures to 3D tissue organoids to small model organisms. In this perspective article the authors provide a collective view on the following key discussion points relevant to the evolution of high content imaging:center dot Evolution and impact of high content imaging: An academic perspective center dot Evolution and impact of high content imaging: An industry perspective center dot Evolution of high content image analysis center dot Evolution of high content data analysis pipelines towards multiparametric and phenotypic profiling applications center dot The role of data integration and multiomics center dot The role and evolution of image data repositories and sharing standards center dot Future of content hardware and software
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