Juveniles are considered as one of
the most vulnerable population
groups concerning mycotoxins and their modified forms. The weaning
stage is a particularly vulnerable period in the life of mammals,
reflected in intestinal and immune dysfunction. The current study
investigated the toxicokinetic (TK) characteristics of zearalenone
(ZEN), zearalenone-14-glucoside (ZEN14G), and zearalenone-14-sulfate
(ZEN14S) in weaned (4-week-old) piglets, by means of oral and intravenous
administration of equimolar doses, i.e., 331, 500, and 415 μg/kg
bodyweight, respectively. Plasma and urine were sampled pre- and post-administration
and were quantitatively analyzed for ZEN, ZEN14G, ZEN14S, and in vivo metabolites by liquid chromatography–high-resolution
mass spectrometry. Tailor-made TK models were elaborated to process
data. A statistical comparison of the results was performed with TK
data obtained in a previously reported study in pigs of 8 weeks of
age. Additionally, porcine plasma protein binding was determined to
support TK findings. The TK results for ZEN, ZEN14G, and ZEN14S, obtained
in 4- and 8-week-old pigs, revealed significant age-related differences,
based on differences in intestinal permeability, body fat content,
gastrointestinal transit time, and biotransformation, with a special
emphasis on an increased absorbed fraction of ZEN14G, i.e., 94 vs
61% in 4- compared to 8-week-old pigs. Since the growing pig has been
reported to be a suitable pediatric animal model for humans concerning
TK processes, these results may contribute to refine the risk assessment
concerning modified ZEN forms in juvenile animals and humans.
