Distinct Effects of Chemical Toxicity and Radioactivity on Metabolic Heat of Cultured Cells Revealed by “Isotope-Editing”

Abstract: Studying the toxicity of chemical compounds using isothermal microcalorimetry (IMC), which monitors the metabolic heat from living microorganisms, is a rapidly expanding field. The unprecedented sensitivity of IMC is particularly attractive for studies at low levels of stressors, where lethality-based data are inadequate. We have revealed via IMC the effect of low dose rates from radioactive β−-decay on bacterial metabolism. The low dose rate regime (<400 µGyh−1) is typical of radioactively contaminated env… Show more

“…This evaluation method enables extremely sensitive two-dimensional quantification of toxicity. This allowed Oertel et al to separate the chemical toxicity from detrimental effects of β-radiation on bacterial growth in the presence of radioactive europium [ 10 ].…”

Special Issue “Advances in Monitoring Metabolic Activities of Microorganisms by Calorimetry”

“…This evaluation method enables extremely sensitive two-dimensional quantification of toxicity. This allowed Oertel et al to separate the chemical toxicity from detrimental effects of β-radiation on bacterial growth in the presence of radioactive europium [ 10 ].…”

Special Issue “Advances in Monitoring Metabolic Activities of Microorganisms by Calorimetry”