The mechanism of cephalosporin-induced hypoprothrombinemia has been investigated in hospitalized patients, with respect to cephalosporin structure, vitamin K metabolism, and vitamin K status. Cephalosporins containing side chains of N-methylthiotetrazole (latamoxef, cefmenoxime, cefoperazone, cefotetan, cefamandole) or methyl-thiadiazole (cefazolin) all caused the transient plasma appearance of vitamin K1 2,3-epoxide in response to a 10-mg intravenous dose of vitamin K1, whereas two cephalosporins without a heterocyclic side chain (cefotaxime and cefoxitin) did not. The plasma accumulation of vitamin K1 2,3-epoxide was qualitatively similar to, but quantitatively less than, that produced by the oral anticoagulant phenprocoumon. Patients eating normally had plasma vitamin K1 concentrations (176 to 1184 pg/mL) that were within the normal range (150 to 1550 pg/mL) and their clotting tests remained consistently normal for all antibiotics tested. Patients on total parenteral nutrition had lower plasma vitamin K1 concentrations (50 to 790 pg/mL) but normal clotting before starting antibiotic therapy. Of 19 parenterally fed patients, all seven treated with latamoxef developed hypoprothrombinemia, PIVKA-II and a decrease of protein C within four days whereas 12 patients treated with cefotaxime or cefoxitin showed no clotting changes. Latamoxef-associated hypoprothrombinemia was readily reversible by 1 mg of vitamin K1 given intravenously, but hypoprothrombinemia and sub-normal plasma vitamin K1 could recur within two to three days. The data suggest that NMTT-cephalosporins are inhibitors of hepatic vitamin K epoxide reductase and that a lower nutritional-vitamin K status predisposes to hypoprothrombinemia.
1 The pharmacokinetics of R(+)-, S(-)-and R,S(+)-acenocoumarol were studied in healthy volunteers after administration of single oral and intravenous doses. 2 After both oral and i.v. administration of either enantiomer in a dose of 0.25 mg/kg, the concentrations of R(+) found in the plasma were much higher than those of S(-). This indicates that the observed differences are not related to stereoselective absorption. 3 After intravenous administration of 25 mg of each enantiomer and the racemate, the total plasma clearance of S(-) was about 10 times that of R(+). The clearance of the racemate was between that of the enantiomers. 4 The apparent elimination half-life of S(-) was much shorter than those of R(+) and the racemate, which were similar. 5 The apparent volume ofdistribution Vdss of S(-) acenocoumarol was 1.5 to 2 times that of R(+). 6 Measurements of the extent of binding to serum proteins, made in vitro at much higher concentrations than those observed in vivo, revealed no differences between the two enantiomers and the racemate. 7 The results indicate that the greater anticoagulant potency of R(+) compared with S(-) acenocoumarol can be explained mainly by stereoselective differences in their metabolic clearance.
The pharmacodynamics and pharmacokinetics of the optical enantiomers of phenprocoumon were studied in 5 normal subjects and compared to the racemic mixture. Each subject received a single oral dose of 0.6 mg/kg of racemic, S(-), and R(+) phenprocoumon. S(-) phenprocoumon was 1.6 to 2.6 times as a potent as R(+) phenprocoumon when the area under the effect/time curve was used to quantify the total anticoagulant effect per dose. Comparing the plasma concentrations that elicited the same anticoagulant effect, S(-) phenprocoumon was 1.5 to 2.5 times as potent as R(+) phenprocoumon. The anticoagulant activity of the racemic mixture was between that of the enantiomers. There was no distinct difference in the rate of elimination between the enantiomers. The apparent volume of distribution and the plasma clearance for S(-) phenprocoumon were less than those for R(+) phenprocoumon. When the binding of the enantiomers to human serum albumin was compared, S(-) phenprocoumon was more highly bound than R(+) phenprocoumon. The protein binding of racemic phenprocoumon was between that of the enantiomers. The results show that S(-) phenprocoumon is more potent anticoagulant than R(+) phenprocoumon and that the pharmacokinetic differences between the enantiomers are due mainly to differences in their distribution.
The salivary and urinary excretion of lithium was studied in three healthy male sub;ects after oral administration of two or three different doses. In all individuals the concentration of lithium in salivary fluid was found to be 2.2 to 3.3 times as high as the concentration in plasma. In each sub;ect the saliva:plasma concentration ratio remained constant over more than a 100 fold concentration range for at least 3 months. This ratio was not markedly affected by about tenfold changes in saliva flow rate. Thus, pharmacokinetic parameters obtained from salivary excretion data are in agreement with those obtained from plasma concentration and urinary excretion rate data, and renal clearance of lithium can be estimated from salivary excretion data. Diurnal rhythms in the urinary excretion rate of lithium were observed. Thus, once the saliva:plasma concentration ratio is established (by taking only a few blood samples), the measurement of saliva concentrations should prOVide all pharmacokinetic information necessary for rational dosage regimens.
1 The elimination and anticoagulant activity of a single intravenous dose of warfarin (1.0‐1.2 mg/kg) without and with concomitant cholestyramine treatment (about 4 g three times daily) was studied in five healthy male subjects. 2 Cholestyramine treatment decreased the biological half‐life of plasma warfarin (from a mean value of 2 days − 1.3 days) and increased the total clearance of this drug (from a mean value of 37 ml kg‐1 day‐1–53 ml kg‐1 day‐1). 3 The total anticoagulant effect per dose of warfarin, as measured by the area under the effect v time curve, was also reduced by cholestyramine (average reduction of about 25%). 4 Warfarin possibly undergoes enterohepatic recycling in man which can be interrupted by cholestyramine.
SummaryIn 8 patients on no oral intake and with parenteral alimentation, administration of cephalosporins with N-methyl-thiotetrazole side chain (moxalactam, cefamandole), was associated with prolongation of prothrombin time, appearance in the circulation of descarboxy-prothrombin (counter immunoelectrophoresis and echis carinatus assay) and diminution of protein C. Acute administration of 10 mg vitamin Ki was followed by the transient appearance of vitamin K1 2,3-epoxide, indicating an impaired hepatocellular regeneration of vitamin K1 from the epoxide. Impaired hepatic vitamin K1 metabolism, tentatively ascribed to the N-methyl-thiotetrazole group, is one (but possibly not the only) cause of bleeding complications and depression of vitamin K1dependent procoagulants in patients treated with the new class of cephalosporins.
Casein-derived tripeptides isoleucine-proline-proline (Ile-Pro-Pro) and valine-proline-proline (Val-Pro-Pro) lower blood pressure (BP) in long-term clinical studies. Their acute effects on BP and vascular function, important for daily dosing scheme, were studied in a placebo-controlled double-blind crossover study using a single oral dose of a fermented milk product containing Ile-Pro-Pro and Val-Pro-Pro as well as plant sterols. Twenty-five subjects with untreated mild hypertension received in random order 250 g of study product (25 mg peptides and 2 g plant sterols) or placebo. Ambulatory BP was monitored for 8 h post-dose and arterial stiffness measured by pulse wave analysis at 2, 4, and 8 h. Blood and urine samples were analyzed for markers of the renin-angiotensin system (RAS) and endothelial function. Baseline adjusted treatment effect for systolic blood pressure (SBP), diastolic blood pressure (DBP), and mean arterial BP was -2.1 mmHg (95% CI: -4.1 to -0.1, p = 0.045), -1.6 mmHg (95% CI: -3.1 to -0.1, p = 0.03), and -1,9 mmHg (95% CI: -3-3 to -0.4, p = 0.0093), respectively, in favor of the active treatment for 8 h post- dose. No significant differences between the treatments were seen in brachial or aortic augmentation index, pulse wave velocity, or markers of RAS. Urinary excretion of cGMP, the second messenger of endothelial nitric oxide, was higher in the active group vs. placebo (p = 0.01). The results indicate that a single dose of a fermented milk product containing Ile-Pro-Pro and Val-Pro-Pro and plant sterols acutely lowers brachial SBP and DBP in mildly hypertensive subjects.
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