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Clinical Pharmacology and Therapeutics, 1985
Earlier studies of triamterene (T) disposition in man have reported hydroxytriamterene (T-OH) and hydroxytriamterene sulfate (T-O-SO3H) conjugate to be the major metabolites. We describe T kinetics through use of an HPLC method and confirm that after hydroxylation, T is rapidly converted to T-O-SO3H.
F, Sörgel +3 more
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Earlier studies of triamterene (T) disposition in man have reported hydroxytriamterene (T-OH) and hydroxytriamterene sulfate (T-O-SO3H) conjugate to be the major metabolites. We describe T kinetics through use of an HPLC method and confirm that after hydroxylation, T is rapidly converted to T-O-SO3H.
F, Sörgel +3 more
openaire +2 more sources
JAMA, 1981
We identified triamterence in 181 renal calculi (o.4% of 50.000 calculi submitted for analysis). Triamterene formed the nucleus of the stone or was deposited with calcium oxalate or uric acid. One third of these stones were mainly or entirely triamterene, though a similar proportion had only minor amounts.
B, Ettinger, N O, Oldroyd, F, Sörgel
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We identified triamterence in 181 renal calculi (o.4% of 50.000 calculi submitted for analysis). Triamterene formed the nucleus of the stone or was deposited with calcium oxalate or uric acid. One third of these stones were mainly or entirely triamterene, though a similar proportion had only minor amounts.
B, Ettinger, N O, Oldroyd, F, Sörgel
openaire +1 more source