Publikation: Current approaches and future role of high content imaging in safety sciences and drug discovery
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Datum
2014
Autor:innen
van Vliet, Erwin
Beilmann, Mario
Davies, Anthony
Fava, Eugenio
Fleck, Roland
Jule, Yvon
Kansy, Manfred
Kustermann, Stefan
Macko, Peter
Herausgeber:innen
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Alternatives to Animal Experimentation : ALTEX. 2014, 31(4), pp. 479-493. ISSN 1868-596X. eISSN 1868-8551. Available under: doi: 10.14573/altex.1405271
Zusammenfassung
High content imaging combines automated microscopy with image analysis approaches to simultaneously quantify multiple phenotypic and/or functional parameters in biological systems. The technology has become an important tool in the fields of safety sciences and drug discovery, because it can be used for mode-of-action identification, determination of hazard potency and the discovery of toxicity targets and biomarkers. In contrast to conventional biochemical endpoints, high content imaging provides insight into the spatial distribution and dynamics of responses in biological systems. This allows the identification of signaling pathways underlying cell defense, adaptation, toxicity and death. Therefore, high content imaging is considered a promising technology to address the challenges for the Toxicity testing in the 21st century approach. Currently, high content imaging technologies are frequently applied in academia for mechanistic toxicity studies and in pharmaceutical industry for the ranking and selection of lead drug compounds or to identify/confirm mechanisms underlying effects observed in vivo. A recent workshop gathered scientists working on high content imaging in academia, pharmaceutical industry and regulatory bodies with the objective to compile the state-of-the-art of the technology in the different institutions. Together they defined technical and methodological gaps, proposed quality control measures and performance standards, highlighted cell sources and new readouts and discussed future requirements for regulatory implementation. This review summarizes the discussion, proposed solutions and recommendations of the specialists contributing to the workshop.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
570 Biowissenschaften, Biologie
Schlagwörter
high content imaging, toxicology, drug development, toxicity pathways, mechanistic safety screening
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VAN VLIET, Erwin, Mardas DANESHIAN, Mario BEILMANN, Anthony DAVIES, Eugenio FAVA, Roland FLECK, Yvon JULE, Manfred KANSY, Stefan KUSTERMANN, Peter MACKO, William MUNDY, Adrian ROTH, Christoph SACHSE, Imran SHAH, Marianne UTENG, Bob VAN DE WATER, Thomas HARTUNG, Marcel LEIST, 2014. Current approaches and future role of high content imaging in safety sciences and drug discovery. In: Alternatives to Animal Experimentation : ALTEX. 2014, 31(4), pp. 479-493. ISSN 1868-596X. eISSN 1868-8551. Available under: doi: 10.14573/altex.1405271BibTex
@article{vanVliet2014Curre-30054,
year={2014},
doi={10.14573/altex.1405271},
title={Current approaches and future role of high content imaging in safety sciences and drug discovery},
number={4},
volume={31},
issn={1868-596X},
journal={Alternatives to Animal Experimentation : ALTEX},
pages={479--493},
author={van Vliet, Erwin and Daneshian, Mardas and Beilmann, Mario and Davies, Anthony and Fava, Eugenio and Fleck, Roland and Jule, Yvon and Kansy, Manfred and Kustermann, Stefan and Macko, Peter and Mundy, William and Roth, Adrian and Sachse, Christoph and Shah, Imran and Uteng, Marianne and van de Water, Bob and Hartung, Thomas and Leist, Marcel}
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<dcterms:abstract xml:lang="eng">High content imaging combines automated microscopy with image analysis approaches to simultaneously quantify multiple phenotypic and/or functional parameters in biological systems. The technology has become an important tool in the fields of safety sciences and drug discovery, because it can be used for mode-of-action identification, determination of hazard potency and the discovery of toxicity targets and biomarkers. In contrast to conventional biochemical endpoints, high content imaging provides insight into the spatial distribution and dynamics of responses in biological systems. This allows the identification of signaling pathways underlying cell defense, adaptation, toxicity and death. Therefore, high content imaging is considered a promising technology to address the challenges for the Toxicity testing in the 21st century approach. Currently, high content imaging technologies are frequently applied in academia for mechanistic toxicity studies and in pharmaceutical industry for the ranking and selection of lead drug compounds or to identify/confirm mechanisms underlying effects observed in vivo. A recent workshop gathered scientists working on high content imaging in academia, pharmaceutical industry and regulatory bodies with the objective to compile the state-of-the-art of the technology in the different institutions. Together they defined technical and methodological gaps, proposed quality control measures and performance standards, highlighted cell sources and new readouts and discussed future requirements for regulatory implementation. This review summarizes the discussion, proposed solutions and recommendations of the specialists contributing to the workshop.</dcterms:abstract>
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