P Riant scite author profile

P Riant

5Publications

93Citation Statements Received

55Citation Statements Given

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Affiliations

Laboratoire d'Énergétique Moléculaire et Macroscopique, Combustion, Hôpital Intercommunal de Créteil, Université Paris-Est Créteil

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A re-evaluation of the HSA-piroxicam interaction

Brée¹,

Urien²,

Nguyen³

et al. 1990

Eur. J. Drug Metab. Pharmacokinet.

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Piroxicam binding to HSA was studied using equilibrium dialysis and fluorescence methods. It was shown that this drug, like its analogs isoxicam and tenoxicam, binds to the apazone locus (site I area) and to a lesser extent to the diazepam site (site II). The piroxicam binding to HSA can be modulated by various specific ligands--apazone, warfarin, diazepam, ibuprofen--and these drug interactions have to be considered not only as potential displacement from the HSA binding sites but also in terms of induced allosteric effects.

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Binding of indapamide to serum proteins and erythrocytes

Urien¹,

Riant

Renouard³

et al. 1988

Biochemical Pharmacology

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Blood Distribution of Tenoxicam in Humans: A Particular Hsa Drug Interaction

Brée¹,

Nguyen²,

Urien³

et al. 1989

Fundamemntal Clinical Pharma

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Blood binding of tenoxicam was studied in vitro by equilibrium dialysis. Isolated human plasma proteins and blood cells were checked, and the distribution of the bound form was then calculated. The results showed that tenoxicam is mainly bound to HSA and that binding percentages are not different when measured in plasma (98.4%) and in an HSA solution at physiological concentration (704 microM, 98.15%). In these conditions, within the range of 1-150 microM, the tenoxicam binding percentage remained constant, evidence of a nonsaturable process. When a lower HSA concentration (10 microM) was used, the binding parameters of the tenoxicam interaction were calculated by using the same equilibrium dialysis data, by 3 methods of analysis- a stoichiometric method and site-oriented methods, fixing or not the number of HSA binding sites (n) as integer values. The best fit was observed with the first method, suggesting that two main interactions occurred. The site-oriented method gave lesser fits, the better being observed when n was not fixed. Its value, 1.77, suggest the possibility of two binding sites, one of them not preformed. The effects of known markers of site I, warfarin and apazone, of site II, diazepam and ibuprofen and of palmitic acid showed that tenoxicam is bound simultaneously to both sites I and II. The binding capacity of site I for tenoxicam is enhanced by diazepam: as this compound alone is bound to site II, this result suggests that the two HSA binding sites are not independent.

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Blood Binding and Tissue Uptake of Drugs. Recent Advances and Perspectives

Tillement

Urien

Chaumet-Riffaud³

et al. 1988

Fundamemntal Clinical Pharma

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The free drug hypothesis, which states that only the unbound moiety of drug in blood is available for tissue diffusion, is discussed according to recent investigations. In some experimental conditions, it must be assumed that part of the protein-bound drug in plasma is extracted during a single passage through the organ studied. The mechanisms underlying these observations are not unequivocal and remain hypothetical. In the liver, high-affinity binding sites for serum albumin have been demonstrated, and they would explain the high extraction by liver of endogenous and exogenous compounds. However, these experiments measure the unidirectional transfer of a drug from the vascular to the extravascular space in non-steady-state conditions. Hence, in steady-state conditions, the free drug hypothesis cannot be ruled out because it is supported by numerous pharmacokinetic studies.

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Albumin binding and brain uptake of 6-fluoro-dl-tryptophan: competition with l-tryptophan

Chanut

Zini

Trouvin

et al. 1992

Biochemical Pharmacology

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P Riant

A re-evaluation of the HSA-piroxicam interaction

Binding of indapamide to serum proteins and erythrocytes

Blood Distribution of Tenoxicam in Humans: A Particular Hsa Drug Interaction

Blood Binding and Tissue Uptake of Drugs. Recent Advances and Perspectives

Albumin binding and brain uptake of 6-fluoro-dl-tryptophan: competition with l-tryptophan

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