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Stem Cells for Next Level Toxicity Testing in the 21st Century

Ellen Fritsche, Thomas Haarmann‐Stemmann, Julia Kapr, Saskia Galanjuk, Julia Hartmann, Peter R. Mertens, Angela A. M. Kämpfer, Roel P. F. Schins, Julia Tigges, Katharina Koch

2020Small75 citationsDOIOpen Access PDF

Abstract

The call for a paradigm change in toxicology from the United States National Research Council in 2007 initiates awareness for the invention and use of human-relevant alternative methods for toxicological hazard assessment. Simple 2D in vitro systems may serve as first screening tools, however, recent developments infer the need for more complex, multicellular organotypic models, which are superior in mimicking the complexity of human organs. In this review article most critical organs for toxicity assessment, i.e., skin, brain, thyroid system, lung, heart, liver, kidney, and intestine are discussed with regards to their functions in health and disease. Embracing the manifold modes-of-action how xenobiotic compounds can interfere with physiological organ functions and cause toxicity, the need for translation of such multifaceted organ features into the dish seems obvious. Currently used in vitro methods for toxicological applications and ongoing developments not yet arrived in toxicity testing are discussed, especially highlighting the potential of models based on embryonic stem cells and induced pluripotent stem cells of human origin. Finally, the application of innovative technologies like organs-on-a-chip and genome editing point toward a toxicological paradigm change moves into action.

Topics & Concepts

Induced pluripotent stem cellMulticellular organismBiologyToxicityEmbryonic stem cellComputational biologyNeuroscienceHazardAction (physics)BioinformaticsMedicineCellGeneticsInternal medicinePhysicsEcologyQuantum mechanicsGenePluripotent Stem Cells Research3D Printing in Biomedical ResearchBiomedical Ethics and Regulation
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