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    Chiesa, L. Pavone, S. Pasquale, E. Pavlovic, R. Panseri, S. Valiani, A. Arioli, F. and Manuali, E. 2017. Study on cortisol, cortisone and prednisolone presence in urine of Chianina cattle breed. Journal of Animal Physiology and Animal Nutrition, Vol. 101, Issue. 5, p. 893.
    Chiesa, Luca Panseri, Sara Pavlovic, Radmila Cannizzo, Francesca Tiziana Biolatti, Bartolomeo Divari, Sara Villa, Roberto and Arioli, Francesco 2016. HPLC-ESI-MS/MS assessment of the tetrahydro-metabolites of cortisol and cortisone in bovine urine: promising markers of dexamethasone and prednisolone treatment. Food Additives & Contaminants: Part A, Vol. 33, Issue. 7, p. 1175.
    Chiesa, Luca Pavlovic, Radmila Fidani, Marco Panseri, Sara Pasquale, Elisa Casati, Alessio and Arioli, Francesco 2014. The presence of prednisolone in complementary feedstuffs for bovine husbandry. Journal of the Science of Food and Agriculture, Vol. 94, Issue. 11, p. 2331.
    Fidani, Marco Gamberini, Maria C. Pompa, Giuseppe Mungiguerra, Francesca Casati, Alessio and Arioli, Francesco 2013. Presence of endogenous prednisolone in human urine. Steroids, Vol. 78, Issue. 2, p. 121.
    De Clercq, Nathalie Julie, Vanden Bussche Croubels, Siska Delahaut, Philippe and Vanhaecke, Lynn 2013. A validated analytical method to study the long-term stability of natural and synthetic glucocorticoids in livestock urine using ultra-high performance liquid chromatography coupled to Orbitrap-high resolution mass spectrometry. Journal of Chromatography A, Vol. 1301, Issue. , p. 111.
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Prednisolone and prednisone neo-formation in bovine urine after sampling

  • F. Arioli (a1), A. Casati (a1), M. Fidani (a2), M. Silvestri (a3) and G. Pompa (a1)...
Abstract

The rise in the frequency of detecting prednisolone in bovine urine from northern Italy has come into focus of attention in recent years. The possibility that neo-formation of prednisolone or that prednisone may occur in urine after collection of samples was therefore investigated. Cow urine collected for official routine controls in Lombardy containing more than 80 ng/ml cortisol, and prednisolone and prednisone below the decision limit (CCα) of the method (0.4 and 0.5 ng/ml, respectively) was used. The C1–2 dehydrogenation of naturally present cortisol and cortisone was checked by incubating urine, both contaminated and uncontaminated with faeces, at 37°C and by collecting samples at 0, 1, 2, 4, 6 and 24 h. The influence of Helix pomatia juice was also investigated in order to determine whether deconjugation could influence the reliability of the results. All samples were analysed by HPLC-MS3 for the presence of cortisol, cortisone, prednisolone and prednisone in negative electrospray ionisation mode, utilising the consecutive reaction monitoring of product ions derived from the formate molecular adduct ([M+HCOO]). The observed neo-formation of prednisolone shows that inappropriate temperatures in sample storage and processing can result in an incorrect accusation of non-compliance. The faecal contamination of urine, performed with the aim to mimic a collection conducted without the necessary care, moreover, evoked a high increase in prednisolone concentration in two out of seven animals. Moreover, H. pomatia juice had no significant effect on the prednisolone concentration, indicating that this corticosteroid is present in its free form in cow urine.

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Copyright
COPYRIGHT: © The Animal Consortium 2011
Corresponding author
E-mail: francesco.arioli@unimi.it
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