PT  - JOURNAL ARTICLE
AU  - HUCKER, H. B.
AU  - GRADY, L. T.
AU  - MICHNIEWICZ, B. M.
AU  - STAUFFER, S. C.
AU  - WHITE, S. E.
AU  - MAHA, G. E.
AU  - McMAHON, F. G.
TI  - METABOLISM OF A NEW HYPOLIPIDEMIC AGENT, 2-ACETAMIDOETHYL(<em>p</em>-CHLOROPHENYL) (<em>m</em>-TRIFLUOROMETHYLPHENOXY)-ACETATE (HALOFENATE) IN THE RAT, DOG, RHESUS MONKEY AND MAN
DP  - 1971 Nov 01
TA  - Journal of Pharmacology and Experimental Therapeutics
PG  - 359--371
VI  - 179
IP  - 2
4099  - http://jpet.aspetjournals.org/content/179/2/359.short
4100  - http://jpet.aspetjournals.org/content/179/2/359.full
SO  - J Pharmacol Exp Ther1971 Nov 01; 179
AB  - Halofenata was repidaly Hydrolysed after oral administration to rats and dongs to the correponding free acid (pCholorophenyl)(m-trifluoromethylphenoxy)acetic acid (HFA). HFA was extensively bound to plasma protein. Administration of 14C-labeled halofenate to rats resulted in distribution of radioactivity to various tissues but highest concenration of label were found in plasma. A large fraction of the dose was excreted flllowed by extensive reabsorption of the biliary radioactivity. Biliary excretion in the dog was less extensive. The dose was excreted equally in rat urine and feces but predominantly in dog feces. A major metabolite in urine of both species was hydroxylated in the trifluoromethyiphenoxy ring. Chronic administration of halofenate to dogs resulted in a slow increase in plasma levels. Administration of halofenate-14C to the rhesus monkey and man gave similar excretion patterns, 46% to 56% the dose being excreted in urine and 25 to 27% in feces in five to six days. Halofenate was evidently rapidly converted on absorption to the corresponding acid, HFA, since only the latter was found in plasma of all species after administration of halofenate. The plasma T1/3, was approximately 16 hours in the monkey and 24 hours in man, with a slower phase (post-24 hours) with T1/3, of approximately 48 hours. About 70% of the urinary radioactivity in both species was represented by HFA with the remainder present as HFA-glucuronide. © 1971 by The Williams & Wilkins Co.