John N. Green scite author profile

John N. Green

5Publications

41Citation Statements Received

8Citation Statements Given

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137

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Disposition and Metabolism of Benoxaprofen in Laboratory Animals and Man

Chatfield¹,

Green²

1978

Xenobiotica

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1. The absorption, distribution, metabolism and excretion of benoxaprofen, a novel anti-inflammatory compound, has been studied in the dog, mouse, rat, rabbit, rhesus monkey and man. 2. Benoxaprofen was well absorbed after oral administration of doses of 1 to 10 mg/kg in all six species. Only unchanged drug was detected in plasma. It was extensively bound to plasma proteins, the highest binding occurring in man (99.8%) and rhesus monkey (99.6%). 3. Species differences were observed in the plasma elimination half-life, the longest being in man (33 h). The rat and mouse also had high values (28 and 24 h respectively) whereas in the other species, values were less than 13 h. 4. After an oral dose of [14C]benoxaprofen (20 mg/kg) to female rats, tissue concn. was highest in liver, kidney, lungs, adrenals and ovaries. Tissue distribution in the pregnant rat was identical to the normal female. The compound was found in the foetus but at a concn. lower than in all maternal organs. 5. There was a marked species difference in the route of excretion. In man, rhesus monkey and rabbit, excretion in the urine was a major route, whilst biliary--faecal excretion was the only effective route in the rat and dog. 6. No major metabolic transformation of benoxaprofen was observed. Man and dog excreted the compound predominantly as the ester glucuronide whereas the rat, mouse, rabbit and rhesus monkey excreted a large proportion of the dose unchanged.

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Stereospecific inversion of (R)-(−)-benoxaprofen in rat and man

Simmonds¹,

Woodage²,

Duff³

et al. 1980

European Journal of Drug Metabolism and Pharmacokinetics

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(R)-(-)-benoxaprofen is stereospecifically inverted to the (S)-(+)-enantiomer by rats and humans. The rate of inversion is much faster in rats (t 1/2 ca. 2.5 h) than in humans (t 1/2 108 h). Inversion in rats apparently does not occur in the liver, but can be brought about in vitro by an everted intestinal sac preparation, suggesting that the transformation takes place while passing through the gut wall.

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Relation between plasma concentration and therapeutic efficacy of a new anti-inflammatory compound, benoxaprofen (LRCL 3794) in rats with adjuvant-induced arthritis

Chatfield¹,

Cashin²,

Kitchen³

et al. 1977

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Antiparasitic nitroimidazoles—IV

Tarrant¹,

Wedley²,

Woodage³

et al. 1973

Biochemical Pharmacology

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Plasma protein binding and interaction studies with benoxaprofen

Chatfield¹,

Green²,

Kao³

et al. 1978

Biochemical Pharmacology

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John N. Green

Disposition and Metabolism of Benoxaprofen in Laboratory Animals and Man

Stereospecific inversion of (R)-(−)-benoxaprofen in rat and man

Relation between plasma concentration and therapeutic efficacy of a new anti-inflammatory compound, benoxaprofen (LRCL 3794) in rats with adjuvant-induced arthritis

Antiparasitic nitroimidazoles—IV

Plasma protein binding and interaction studies with benoxaprofen

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