T. B. Vree scite author profile

High concentrations of enterolignans in plasma are associated with a lower risk of acute coronary events. However, little is known about the absorption and excretion of enterolignans. The pharmacokinetic parameters and urinary excretion of enterodiol and enterolactone were evaluated after consumption of their purified plant precursor, secoisolariciresinol diglucoside (SDG). Twelve healthy volunteers ingested a single dose of purified SDG (1.31 micromol/kg body wt). Enterolignans appeared in plasma 8-10 h after ingestion of the purified SDG. Enterodiol reached its maximum plasma concentration 14.8 +/- 5.1 h (mean +/- SD) after ingestion of SDG, whereas enterolactone reached its maximum 19.7 +/- 6.2 h after ingestion. The mean elimination half-life of enterodiol (4.4 +/- 1.3 h) was shorter than that of enterolactone (12.6 +/- 5.6 h). The mean area under the curve of enterolactone (1762 +/- 1117 nmol/L . h) was twice as large as that of enterodiol (966 +/- 639 nmol/L . h). The mean residence time for enterodiol was 20.6 +/- 5.9 h and that for enterolactone was 35.8 +/- 10.6 h. Within 3 d, up to 40% of the ingested SDG was excreted as enterolignans via urine, with the majority (58%) as enterolactone. In conclusion, a substantial part of enterolignans becomes available in the blood circulation and is subsequently excreted. The measured mean residence times and elimination half-lives indicate that enterolignans accumulate in plasma when consumed 2-3 times a day and reach steady state. Therefore, plasma enterolignan concentrations are expected to be good biomarkers of dietary lignan exposure and can be used to evaluate the effects of lignans.

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The influence of quinolone derivatives on theophylline clearance.

Wijnands¹,

Vree²,

Herwaarden³

1986

Brit J Clinical Pharma

242

118

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1 Enoxacin decreases the metabolic clearance of the bronchodilator theophylline not only in severely ill patients, but also in patients with stable chronic obstructive airways disease.2 In this comparative study, significantly increased plasma theophylline concentrations were measured during co-administration of enoxacin (110.9%) and, to a lesser degree, also during co-administration of pefloxacin (19.6%) and ciprofloxacin (22.8%). 3 Total body clearance of theophylline was significantly decreased by enoxacin (63.6%), ciprofloxacin (30.4%) and pefloxacin (29.4%). The pharmacokinetic parameters of theophylline did not change during co-administration of ofloxacin and nalidixic acid. 4 There is growing evidence that the observed interaction is caused not by the parent drugs, but by the 4-oxo metabolite of enoxacin, pefloxacin and ciprofloxacin.Keywords quinolone 4-oxo quinolone enoxacin pefloxacin ciprofloxacin ofloxacin nalidixic acid theophylline interaction lower respiratory tract infections

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Bioavailabilities of Quercetin-3-Glucoside and Quercetin-4′-Glucoside Do Not Differ in Humans

Olthof

Hollman²,

Vree

et al. 2000

The Journal of Nutrition

240

125

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The flavonoid quercetin is an antioxidant which occurs in foods mainly as glycosides. The sugar moiety in quercetin glycosides affects their bioavailability in humans. Quercetin-3-rutinoside is an important form of quercetin in foods, but its bioavailability in humans is only 20% of that of quercetin-4'-glucoside. Quercetin-3-rutinoside can be transformed into quercetin-3-glucoside by splitting off a rhamnose molecule. We studied whether this 3-glucoside has the same high bioavailability as the quercetin-4'-glucoside. To that end we fed five healthy men and four healthy women (19-57 y) a single dose of 325 micromol of pure quercetin-3-glucoside and a single dose of 331 micromol of pure quercetin-4'-glucoside and followed the plasma quercetin concentrations. The bioavailability was the same for both quercetin glucosides. The mean peak plasma concentration of quercetin was 5.0+/-1.0 micromol/L (+/-SE) after subjects had ingested quercetin-3-glucoside and 4.5+/-0.7 micromol/L after quercetin-4'-glucoside consumption. Peak concentration was reached 37 +/-12 min after ingestion of quercetin-3-glucoside and 27+/-5 min after quercetin-4'-glucoside. Half-life of elimination of quercetin from blood was 18.5+/-0.8 h after ingestion of quercetin-3-glucoside and 17.7+/-0.9 h after quercetin-4'-glucoside. We conclude that quercetin glucosides are rapidly absorbed in humans, irrespective of the position of the glucose moiety. Conversion of quercetin glycosides into glucosides is a promising strategy to enhance bioavailability of quercetin from foods.

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Clinical pharmacology and the use of articaine for local and regional anaesthesia

Vree

Gielen

2005

Best Practice & Research Clinical Anaesthesiology

101

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Plasma and urinary excretion kinetics of oral baclofen in healthy subjects

Wuis

Dirks

Termond

et al. 1989

Eur J Clin Pharmacol

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Baclofen, a centrally acting muscle relaxant, is used in the treatment of spasticity. Its pharmacokinetics has been derived from plasma and urine data in four healthy subjects, whose renal function was simultaneously measured. After oral administration of a single 40 mg dose, baclofen was mainly excreted unchanged by the kidney, 69 (14)%. The half-life, calculated from extended least squares modelling (ELSMOS) both of plasma and urine data was 6.80 (0.68) h, which is longer than reported in most studies based solely on plasma data. The renal excretion rate constant had the high mean value of 0.35 (0.24) h-1, and the apparent renal clearance of baclofen equalled the creatinine clearance. Passive tubular reabsorption is relatively unimportant, since no dependence was observed on variables urine flow or pH. Although active tubular secretion may contribute to its renal clearance, as shown by the effect of co-administration of probenecid, glomerular filtration appears to be the dominant transport mechanism.

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T. B. Vree

Pharmacokinetics of Enterolignans in Healthy Men and Women Consuming a Single Dose of Secoisolariciresinol Diglucoside

The influence of quinolone derivatives on theophylline clearance.

Bioavailabilities of Quercetin-3-Glucoside and Quercetin-4′-Glucoside Do Not Differ in Humans

Clinical pharmacology and the use of articaine for local and regional anaesthesia

Plasma and urinary excretion kinetics of oral baclofen in healthy subjects

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