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Vol. 26, Issue 4, 294-298, April 1998
Microchemistry Laboratory, Pathobiology Department, University of
Connecticut1 (T.C.B., A.J.K., M.F., D.W.H.),
Department of
Biomedical Sciences, Quinnipiac College (T.C.B.), and
Racing
Chemistry Laboratory, Iowa State University (W.H.H.)
A urinary metabolite of flunixin in greyhound dogs was isolated and
purified by a gradient-elution solid-phase extraction technique. The
purified metabolite was shown to be hydrolyzed to free flunixin by
strong base and by 
-glucuronidase, suggesting the presence of a
C1--glucuronide ester of flunixin. The metabolite was further
characterized by positive-ion, tandem MS with electrospray ionization.
Mass spectral data showed the presence of a protonated molecular ion
(M+1) at m/z 473, which was consistent with the molecular
weight of protonated flunixin glucuronide, and a product ion at
m/z 297, which was consistent with the molecular weight of
protonated flunixin. Collisionally induced dissociation of the
m/z 297 product ion showed a fragmentation pattern
consistent with that of standard flunixin. These data support the
contention that this metabolite of flunixin in greyhound urine is the
C1--glucuronide of flunixin. Acyl glucuronide metabolites of some
organic acid drugs have been shown to bind covalently to tissue
proteins in vitro, in vivo, and ex
vivo. The presence of this metabolite may, therefore, have
pharmacokinetic and pharmacodynamic implications for flunixin in
greyhound dogs, as well as in other animal species in which the acyl
glucuronide of flunixin is a metabolite.
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