Hiller J, Naglav-Hansen D, Drexler H, Göen T (2023)
Publication Type: Journal article
Publication year: 2023
Book Volume: 76
Article Number: 127125
DOI: 10.1016/j.jtemb.2023.127125
Purpose: Beryllium is known to have adverse health effects and is classified as carcinogenic to humans. However, data on systemic beryllium exposure in humans are rare and especially human toxicokinetics are largely uncharted. As such, the first reported multi-annual course of blood and urine concentrations after a high exposure scenario provides important new insights. Methods: For a medical follow-up biomonitoring samples were collected for 56 months from a male subject after an accidental and multi-faceted high exposure. Sampling started on day 2 post-exposure for urine and day 147 for blood. The samples were analyzed by inductively coupled mass spectrometry (ICP-MS) and plotted longitudinally as a function of time. Terminal half-lives were calculated assuming a first-order elimination process. Main findings: Both matrices showed highly increased initial concentrations (about 100-fold), despite the 147-day delay in blood sampling, and a marked decline over time. In urine, a two-phase excretion process was suspected based on the longitudinal data. Calculations gave terminal half-lives of 117.5 days and 666.5 days for phases 1 and 2, respectively. Blood kinetics called for a terminal half-life of 103.5 days. Elimination kinetics in blood and urine were comparable, simultaneously gathered samples showed an excellent correlation (R² = 0.985). Principal conclusions: The long-term follow-up after a high initial exposure to beryllium provides the first detailed insights into the elimination course of systemically available beryllium in humans. Conform kinetics of beryllium in urine and blood and the strong correlation between both parameters indicate high data validity and support the good representation of the current systemically available beryllium by urine and blood concentration in humans. The relatively long terminal half-lives in both matrices suggest a possible accumulation in humans in case of repeated exposures.
APA:
Hiller, J., Naglav-Hansen, D., Drexler, H., & Göen, T. (2023). Human urinary and blood toxicokinetics of beryllium after accidental exposure. Journal of Trace Elements in Medicine and Biology, 76. https://doi.org/10.1016/j.jtemb.2023.127125
MLA:
Hiller, Julia, et al. "Human urinary and blood toxicokinetics of beryllium after accidental exposure." Journal of Trace Elements in Medicine and Biology 76 (2023).
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