A.C. Schoots scite author profile

In this study, changes of protein binding of nine drugs were evaluated. In addition, theophylline and phenytoin, the two drugs with the most substantial and progressive decrease in protein binding, were further studied by high performance liquid chromatography (HPLC)-fractions of ultrafiltrate of normal and uremic serum, in an attempt to identify substances causing drug protein binding inhibition. There was a marked decline of the protein binding of theophylline, phenytoin and methotrexate (dialyzed patients vs. normals: -20.1, -16.0 and -15.1%, respectively). There was a rise in the protein binding of propranolol, cimetidine and clonidine. The changes observed for diazepam, prazosin and imipramine were less marked. For phenytoin, theophylline, methotrexate and diazepam, protein binding was inversely correlated to the serum creatinine (r = 0.87, 0.80, 0.79 and 0.67, P less than 0.001), and a less pronounced but still significant positive correlation was found for clonidine (r = 0.46, P less than 0.01). Ultrafiltrate, obtained during a hemofiltration session, inhibited protein binding of theophylline and phenytoin in a dose dependent way. After separation of this ultrafiltrate by HPLC, it appeared that for both theophylline and phenytoin at least a part of this inhibitory activity corresponded to the elution zone of hippuric acid. For theophylline two other inhibitory zones were further recognized: one corresponding to the elution zone of NaCl and one in which the responsible substance remained unidentified. Hippuric acid in solution inhibited protein binding of theophylline and phenytoin in a dose dependent way. In conclusion, protein binding of several drugs currently used in renal failure is affected in parallel with renal function, which might affect the therapeutic effectiveness of the drugs.(ABSTRACT TRUNCATED AT 250 WORDS)

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Screening of UV-absorbing solutes in uremic serum by reversed phase HPLC — Change of blood levels in different therapies

Schoots

Homan

Gladdines

et al. 1985

Clinica Chimica Acta

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Uremic Toxins and the Elusive Middle Molecules

Schoots¹,

Mikkers

Cramers

et al. 1984

Nephron

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Liquid-chromatographic profiling of solutes in serum of uremic patients undergoing hemodialysis and chronic ambulatory peritoneal dialysis (CAPD); high concentrations of pseudouridine in CAPD patients.

Schoots

Gerlag

Mulder

et al. 1988

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Using "high performance" liquid chromatography, we studied non-protein-bound fractions and total concentrations of 18 solutes accumulating in sera from a group of 12 patients who were undergoing chronic ambulatory peritoneal dialysis (CAPD) and in predialysis sera from a group of 15 hemodialysis (HD) patients. We monitored longitudinal changes in solute concentrations for two patients with respect to change of therapy between HD and CAPD. The concentrations of pseudouridine (P less than 0.001), uric acid (P less than 0.001), and an unknown fluorescent solute, "UKF3" (P less than 0.01), differed in sera of HD and CAPD patients. When standardized with respect to serum creatinine concentrations, the concentration of the transfer-RNA catabolite, pseudouridine, was significantly (P less than 0.0001) higher in sera of CAPD patients than in HD patients, suggesting an increase in turnover of transfer RNA. In stepwise linear discriminant analysis, the combination of pseudouridine and the probably biochemically related fluorescent unknown, UKF3, contributed most to the differentiation between sera from CAPD and HD patients.

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Effect of Hemodialysis on Serum Concentrations of HPLC-Analyzed Accumulating Solutes in Uremia

Schoots

Peeters

Gerlag³

1989

Nephron

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The concentration changes, during hemodialysis treatment, of 18 characteristic uremia compounds, analyzed by high-pressure liquid chromatography in sera of renal patients were studied. Pre- to postdialysis concentration ratios (dialysis ratio, D) varied from 0.83 to 3.04 for the different solutes. A division into three solute groups, on the basis of their D values, could be rationalized qualitatively from data on protein binding and dialyzer clearance. One group showed low dialysis ratios which could be explained from plasma protein binding. The second group had intermediate D values, comparable to those of creatinine. For some of the members of the third group, high D values might indicate a compartmentalization and resistance to mass transfer across biological membranes. Among the latter are the tubularly secreted hippuric acid and p-hydroxyhippuric acid. For most of the (protein-bound) solutes, protein binding was shown to decrease during hemodialysis. Protein binding levels were higher after dialysis only for hippuric acid and the as yet unidentified fluorescent solute designated UFK8. In conclusion, the change of serum concentrations and of protein binding resulting from hemodialysis treatment are presented and are compared for 18 accumulating solutes in sera of patients with end-stage renal failure.

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A.C. Schoots

Drug protein binding in chronic renal failure: Evaluation of nine drugs

Screening of UV-absorbing solutes in uremic serum by reversed phase HPLC — Change of blood levels in different therapies

Uremic Toxins and the Elusive Middle Molecules

Liquid-chromatographic profiling of solutes in serum of uremic patients undergoing hemodialysis and chronic ambulatory peritoneal dialysis (CAPD); high concentrations of pseudouridine in CAPD patients.

Effect of Hemodialysis on Serum Concentrations of HPLC-Analyzed Accumulating Solutes in Uremia

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