Heichler 2022 MitoFit
[[Has title::Heichler C, Nagy M, Wolf P (2022) Evaluation of hepatotoxic effects of acetaminophen on HepG2 cells by parallel real-time monitoring in a multi-sensor analysis platform for automated cell-based assays. MitoFit Preprints 2022.6. https://doi.org/10.26124/mitofit:2022-0006]] |
ยป [[Has info::
Was written by::Heichler Christina, Was written by::Nagy Mรกrton, Was written by::Wolf Peter (Was published in year::2022-03-29) Was published in journal::MitoFit Prep
Abstract: [[has abstract::The CYRISยฎ analysis platform is a multi-sensory approach to extract a large amount of information from a single cell-based assay automatically and in real-time. To demonstrate its capabilities, we performed an in-vitro hepatotoxicity assay with Acetaminophen and HepG2, with simultaneous monitoring of the key parameters oxygen consumption rate (OCR), extracellular acidification rate (ECAR), impedance and microscopic imaging. After 12 hours prior treatment measurement, different concentrations of Acetaminophen were tested over 24 hours, followed by 12 hours washout. The metabolic results showed a strong time- and dose-dependent change of OCR and ECAR through Acetaminophen. Morphologic changes monitored by impedance and microscopic imaging underpin these metabolic effects. The washout of Acetaminophen results in cellular regeneration in all parameters up to a concentration of 10 mM. The continuous measurement of OCR, ECAR, impedance and microscopic imaging enables multiparametric monitoring of cellular metabolic responses due to Acetaminophen in a single assay and provides an overall picture of its hepatotoxic effects.
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โข Keywords: has publicationkeywords::label-free cell-based assays, has publicationkeywords::oxygen consumption, has publicationkeywords::extracellular acidification, has publicationkeywords::cellular impedance, has publicationkeywords::imaging, has publicationkeywords::automation, has publicationkeywords::hepatotoxicity, has publicationkeywords::Acetaminophen
โข Bioblast editor: has editor::Tindle-Solomon L
Labels: MiParea: MiP area::nDNA;cell genetics Pathology: Diseases::Inherited
Organism: Organism::Human Tissue;cell: tissue and cell::Heart, tissue and cell::Skeletal muscle, tissue and cell::Nervous system, tissue and cell::Liver