Excretion Profiles of the Mycotoxin Deoxynivalenol, following Oral and Intravenous Administration to Sheep

Excretion Profiles of the Mycotoxin Deoxynivalenol, followingOral and Intravenous Administration to Sheep. PRELUSKY, D. B.,VEIRA, D. M., TRENHOLM, H. L., AND HARTIN, K. E. (1986). Fundam.Appl. Toxicol. 6, 356–363. The excretion profiles of deoxynivalenol(DON) and metabolites (DON glucuronide conjugate, 3,715-trihydroxytrichothec-9,12-diene-8-one(DOM-1), and DOM-1 glucuronide conjugate) were defined in malesheep following either intravenous (iv) or oral administrationof the toxin at levels of 0.5 and 5.0 mg DON/kg body wt, respectively.After iv dosing, urinary DON levels declined in a biphasic fashionwith an average elimination half-life (terminal phase) of 1.2hr. diminishing to baseline concentrations by 8 hr. Maximumurinary excretion rates for the two major metabolites identified(conjugated DON, conjugated DOM-1) occurred 0.5–1.5 hrafter dosing, exhibiting elimination half-lives of 2.2 and 3.1hr, respectively. Total recovery accounted for only about 66.5%of the dose: 63.0% in the urine (24.1% DON, 21.2% conjugatedDON, 0.5% DOM-1, 17.2% conjugated DOM-1) and 3.5% in bile (madeup almost completely of conjugated DOM-1). The peak biliaryexcretion rate for conjugated DOM-1 was found to occur within1 hr postdosing, which rapidly declined to baseline levels by5 hr. Following oral administration, urinary excretion ratesof the major metabolites (DON, conjugated DON, conjugated DOM-1)reached maximum 6–9 hr post-treatment, and declined exponentiallywith t values of 3.2, 4.0, and 5.0 hr, respectively. Urinaryand biliary recovery of administered DON averaged approximately7.1%: 7.0% in urine (2.1% DON, 3.6% conjugated DON, 0.06% DOM-1,1.2% conjugated DOM-1) and 0.11% in bile (predominately conjugatedDOM-1). Between 54 and 75% of the oral dose was recovered inthe feces. These findings indicate that DON and metabolitesdo not persist in the body following either a single oral orintravenous dose of DON and are rapidly excreted. However, followingiv administration, a portion of the dose (33.5%) remained unaccounted,presumably converted to unidentified metabolites. Based on theseresults it appears that metabolism is the major process of eliminationof DON in sheep.