Lack of efficacy of cimetidine and ranitidine as inhibitors of tolbutamide metabolism

Summary We investigated the effect of 4 days pretreatment with cimetidine (1.2g daily) and ranitidine (0.3 g daily) on tolbutamide disposition in an open randomised, cross-over study design involving 8 healthy adult male volunteers.Control half-life of tolbutamide 6.29 h was not significantly altered by cimetidine (6.93 h) or ranitidine (6.97 h). The corresponding apparent oral clearance (ml·min^–1·kg^–1) were not significantly different: 0.26 (control), 0.24 (cimetidine) and 0.25 (ranitidine). Apparent volume of distribution was also unaltered 0.140l·kg^–1 (control), 0.141l·kg^–1 (cimetidine) and 0.146l·kg^–1 (ranitidine).It is suggested that the hepatic monooxygenase isozyme that catalyses the rate-limiting conversion of tolbutamide to its hydroxy derivative is not susceptible to the inhibitory effect of cimetidine or ranitidine.     

Lack of inhibition of tolbutamide hydroxylation by cimetidine in man

Summary We have investigated the influence of cimetidine on the disposition of tolbutamide in 7 healthy subjects, who received 250 mg tolbutamide daily for 4 days followed by the concomitant intake of cimetidine 400 mg twice daily for a further 4 days.Cimetidine had no effect on the disposition of tolbutamide, including the unbound hydroxylation clearance rate (324 ml·min^–1, tolbutamide alone; 316 ml·min^–1, tolbutamide plus cimetidine). The total urinary recovery of carboxy- and hydroxy-tolbutamide metabolites was 85.7±20.3% of the dose when tolbutamide was given alone and 78.9±14.3% when given with cimetidine.This lack of a pharmacokinetic interaction suggests selectivity of cimetidine-induced inhibition of Phase I drug oxidation.Dawes, Curren and Hughes Research Fellow, Royal Adelaide Hospital     

Lack of relationship between tolbutamide metabolism and debrisoquine oxidation phenotype

Summary The oxidative metabolism of tolbutamide was studied in 13 healthy subjects of known debrisoquine phenotype. Three were poor (PM) and ten were extensive (EM) metabolisers of debrisoquine.The mean values for total plasma clearance, elimination half-life, and metabolic clearance were 0.26 ml·min^–1·kg^–1, 3.4 h, and 0.17 ml·min^–1. kg^–1 in PM subjects and 0.22 ml·min^–1·kg^–1, 4.3 h and 0.15 ml·min^–1·kg^–1 in EM subjects. Total urinary recovery (% of dose) and ratio of hydroxy- to carboxytolbutamide were 69.4% and 0.219 respectively in PM subjects and 70.9% and 0.226 in EM subjects. There were no statistically significant differences between EM and PM metabolisers for any of these parameters. In addition there was no correlation between the debrisoquine metabolic ratio and tolbutamide urinary metabolite recovery or plasma clearance.These data indicate that hydroxylation of debrisoquine and tolbutamide are not catalyzed by the same enzyme.The ratio of hydroxy- to carboxytolbutamide in our subjects, and in other recent studies, suggests that some previous publications were inaccurate and their conclusions about the genetic control of tolbutamide metabolism were incorrect.     

Effect of antipyrine coadministration on the kinetics of acetaminophen and lidocaine

Summary Pharmacokinetic interactions between antipyrine and acetaminophen were evaluated in 7 healthy volunteers. On 3 occasions subjects received:1, antipyrine 1.0 g intravenously (i.v.);2, acetaminophen 650 mg i.v.;3, antipyrine 1.0 g and acetaminophen 650 mg i.v. simultaneously.Between Trials 1 and 3, antipyrine elimination t_1/2 (17.2 vs 17.4 h), clearance (0.44 vs 0.43 ml·min^–1·kg^–1) and 24-h recovery of antipyrine and metabolites (313 vs 293 mg) did not differ significantly. Between Trials 2 and 3, acetaminophen V_z was reduced (1.14 vs 1.00 l·kg^–1), t_1/2 prolonged (2.7 vs 3.3 h), clearance reduced (4.8 vs 3.6 ml·min^–1·kg^–1), and fractional urinary recovery of acetaminophen glucuronide reduced.Eight additional subjects received 50 mg of lidocaine hydrochloride i.v. in the control state, and on a second occasion immediately after antipyrine 1.0 g given i.v.The two trials did not differ significantly in lidocaine V_z (2.6 vs 2.7 l·kg^–1), t_1/2 (2.0 vs 2.4 h) or clearance (15.0 vs 13.5 ml·min^–1·kg^–1).Although acetaminophen does not alter antipyrine kinetics, acute administration of antipyrine appears to impair acetaminophen clearance, possibly via inhibition of glucuronide formation. However, antipyrine has no significant effect on the kinetics of a single i.v. dose of lidocaine.     

Pharmacokinetics of cimetidine after subchronic administration

Summary The influence of cimetidine on its own pharmacokinetics after subchronic administration was assessed in 8 healthy volunteers, aged 26–29 years. On control Day 1, each subject received cimetidine 300 mg i.v., and serum and urine samples were obtained. Each subject was initiated on cimetidine 600 mg b.i.d. orally for 2 weeks. There were 3 further study days repeated after 1 and 2 weeks of cimetidine dosing and 1 week after stopping cimetidine. There was no significant difference in the mean total body clearance of cimetidine among the 4 study days. Mean elimination t_1/2 and V were similarly unchanged. However mean renal clearance (CL_R) and f_e were significantly increased following 2 weeks of drug dosing (CL_R 5.41 ml·min^–1 kg^–1; f_e 0.61) compared to control (CL_R 4.00 ml·min^–1·kg^–1; f_e 0.48). Although the non renal clearance was reduced from control values of 4.29 to 3.51 ml·min^–1·kg^–1 following 2 weeks of dosing the difference was not significant. Dosage adjustment of cimetidine appears unnecessary after short-term dosing in the presence of normal renal function.     

Polymorphic flecainide disposition under conditions of uncontrolled urine flow and pH

Summary The pharmacokinetics of R- and S-flecainide have been determined in five poor (PM) and five extensive (EM) metabolisers of sparteine/debrisoquine under conditions of uncontrolled urine flow and pH. The half-lives of R- and S-flecainide in PMs (R 19.3 h; S 16.1 h) were approximately twice those observed in EMs (R 8.8 h; S 9.1 h). The apparent oral clearances of R- and S-flecainide were lower in PMs (R 313 ml·min^–1; S 379 ml·min^–1) than in EMs (R 783 ml·min^–1; S 828 ml·min^–1). The renal clearance, however, was comparable for both enantiomers in both EMs and PMs, and therefore the phenotypic differences in flecainide disposition observed must be due to differences in metabolic clearance. The nonrenal clearance of both enantiomers was significantly lower in poor (R 123 ml·min^–1; S 201 ml·min^–1) relative to extensive metabolisers (R 533 ml·min^–1; S 586 ml·min^–1). The partial clearance to the two major metabolites meta-O-dealkylated flecainide (MODF) and the meta-O-dealkylated lactam of flecainide (MODLF) was significantly lower in poor (62 ml·min^–1) than extensive (267 ml·min^–1) metabolisers.The impairment in flecainide metabolism in poor metabolisers of sparteine/debrisoquine has therefore been confirmed. Under conditions reflecting the clinical situation the difference in disposition between EMs and PMs would be considerable. However, it may be predicted that at standard doses concentrations greater than 1000 ng·ml^–1 would not be attained in the PMs studied. The serum protein binding of R- and S-flecainide was studied in each subject and no differences between the enantiomers or the phenotypes were observed (Free fraction EM: R 0.43; S 0.42; PM R: 0.46; S: 0.46). Enantioselective disposition was noted in all PMs studied, due to a significantly lower nonrenal clearance of the R-enantiomer. In extensive metaboliser subjects, considerable interindividual variation in the enantioselective disposition of flecainide was noted, ranging from metabolism favouring either enantiomer to the absence of any selectivity.Presented in part at the 23rd Annual Meeting of the Australasian Society of Clinical and Experimental Pharmacologists, Sydney, 4–6 December, 1989     

Influence of a very low calorie diet on the clearance of oxazepam and antipyrine in man

Summary A very low calorie diet (Prodi) was administered to eleven otherwise healthy obese subjects for fourteen days. The daily intake of protein was 52.7 g and carbohydrate 25.7 g, corresponding to 360 kcal. The clearance of oxazepam and antipyrine was investigated before and after the diet period.Total oxazepam clearance was 1.04 ml·min^–1·kg^–1 and it decreased 0.88-fold after the diet. The mean clearance of unbound oxazepam was correspondingly reduced 0.88-fold. The elimination half-life increased to 1.22-times the control value, 7.9 h.No significant change was found in the volume of distribution or protein binding of oxazepam. Antipyrine clearance, estimated by the one-sample technique, was 52.4 and 51.8 ml·min^–1, before and after the diet, respectively.It appears that a very low calorie diet with a sufficient protein and a very low carbohydrate content decreases the metabolism of oxazepam by glucuro-conjugation, whereas no effect was seen on the oxidative metabolism of antipyrine.     

Alteration by burn injury of the pharmacokinetics and pharmacodynamics of cimetidine in children

Summary We have studied the mechanisms of the increased dosage requirements of the H₂-receptor antagonist cimetidine in paediatric burned patients in a pharmacokinetic and pharmacodynamic study.Cimetidine (10–15 mg·kg^–1) was given to 21 burned children and multiple blood samples were obtained for determination of plasma cimetidine concentrations and pharmacokinetic analysis.The relation of gastric pH to plasma cimetidine concentrations was studied in five of these children who had nasogastric tubes. In an additional four patients the effects of cimetidine on gastric pH were studied during a continuous infusion of cimetidine, which maintained steady-state plasma cimetidine concentrations above 0.5 µg·ml^–1.The mean (SEM) clearance of cimetidine in burned children was 16.22 ml·kg^–1 and cimetidine half-life was 1.06 h. The cimetidine clearance and half-life values were significantly higher in burned children compared with our previously reported values for normal adult patients, 8.2 ml·min·kg^–1 and 2.21 h respectively.Endogenous creatinine clearance normalized to 70 kg in burned children was 190 ml·min^–1. In burned children 41% of the dose of intact cimetidine was excreted during 8 h of the study compared with 45% excretion during 24 h in healthy adult controls previously reported. The correlation coefficient between creatinine and cimetidine clearances was 0.93 (r ²=0.85).The plasma concentration of cimetidine needed to increase gastric pH to 4.0 was 1.0 µg·ml^–1, which contrasts with the value of >0.5 µg·ml^–1 required for adult burned patients.These findings support the hypothesis that the higher dosage requirements of cimetidine in burned children is due both to enhanced elimination kinetics and to alterations in target organ sensitivity, requiring higher than normal plasma concentrations for the desired effect. In burned children Cimetidine should be given in higher doses and/or more frequently.     

Bioavailability and pharmacokinetics of oxazepam

Summary Six healthy volunteers received oxazepam 15 mg i.v. and orally at an interval of at least one week. The kinetic variables of i.v. oxazepam were: elimination half-life (t_1/2) 6.7 h, total clearance (CL) 1.07 ml·min^–1·kg^–1, volume of distribution (V_c) 0.27 l·kg^–1 (0.21–0.49) and volume of distribution at steady-state (V_ss) 0.59 l·kg^–1. The intravenous disposition of unbound oxazepam was characterized by a clearance of 22.5ml·min^–1·kg^–1 and a distribution volume of 12.3 l·kg^–1. After oral oxazepam the peak plasma level was reached in 1.7 to 2.8 h. The plasma t_1/2 at 5.8 h was not significantly different from the i.v. value. Absorption was almost complete, with a bioavailability of 92.8%. Urinary recovery was 80.0 and 71.4% of the dose after intravenous and oral administration, respectively. Renal clearance (CL_R) of the glucuronide metabolite was 1.10 ml·min^–1·kg^–1 (0.98–1.52). Oxazepam was extensively bound to plasma protein with a free fraction of 4.5%.     

Diurnal variation of methotrexate disposition in children with acute leukaemia

Summary There is recent evidence that survival is improved when maintenance therapy for acute lymphocytic leukaemia in children is given at night. We have examined the possibility that diurnal variation in methotrexate pharmacokinetics may contribute to this improvement.In 6 children with leukaemia there was a significant fall in methotrexate plasma clearance at night (from 5.6 to 4.7 ml·kg^–1·min^–1). Renal clearance of methotrexate tended to fall at night and unbound renal clearance fell significantly (from 17.5 to 8.5 ml·min^–1·kg^–1 P<0.05). Creatinine clearance did not exhibit diurnal variation, whereas there was a significant fall in the non-glomerular clearance of methotrexate (from 14.8 to 6 ml·min^–1·kg^–1).Since methotrexate is a weak organic acid, its tubular secretion depends on urinary pH. At night urinary pH is more acidic, and this may result in more reabsorption and hence reduced renal clearance.     

Pharmacokinetics of ranitidine in patients undergoing haemofiltration

Summary The pharmacokinetics of ranitidine was investigated in 11 patients with acute or end stage renal failure during haemofiltration. Each patient received 50 mg ranitidine i.v.The mean distribution and elimination half lives were 0.13 and 2.57 h, respectively. The total body clearance (CL) and volume of distribution (V_z) were 298 ml·min^–1 (5.19 ml·min^–1·kg^–1) and 1.081·kg^–1, respectively. About 17.1% of the administered dose was removed by haemofiltration (in approximately 201 filtrate). Five of the patients still had some urine output and they excreted 0.1 to 11.8% of the dose in urine in 24 h. The haemofiltration clearance was 66.9 ml·min^–1 at a filtrate flow rate of 86 ml·min^–1, corresponding to a mean sieving coefficient of 0.78 (n=6). As plasma concentrations were still in an effective range after haemofiltration, dose supplementation is not recommended.     

Pharmacokinetics of dexamethasone in premature neonates

Objective: Dexamethasone is frequently used in premature neonates with bronchopulmonary dysplasia, however little is known about its disposition in this population. Methods: We evaluated the pharmacokinetics of dexamethasone in 9 premature neonates with a mean gestational age of 27.3 weeks and a postnatal age of 21.8 days. Results: There was a strong relationship between clearance (4.96 ml·min^–1·kg^–1) and gestational age (r=0.884). Pharmacokinetic parameters were grouped based on a gestational age of less than 27 weeks (Group I) and greater than 27 weeks (Group II). Mean clearance in group I and group II was 1.69 and 7.57 ml·min^–1·kg^–1, respectively. Mean distribution volume in group I and II was 1.26 and 2.19 l·kg^–1, respectively. No significant relationships were noted between the disposition of dexamethasone and ventilator requirements or adverse effects. Conclusion: The pharmacokinetics of dexamethasone in premature neonates was related to gestational age.     

The disposition and protein binding of batanopride and its metabolites in subjects with renal impairment

Summary We have studied the disposition of batanopride and its three major metabolites (the erythro-alcohol, threo-alcohol, and N-desethyl metabolites) in 27 subjects with various degrees of renal function after intravenous infusion of a single dose of 3.6·mg·kg^–1 of batanopride over 15 min.The subjects were assigned to one of three treatment groups: group 1, normal renal function (creatinine clearance 75 ml·min^–1·1.73 m^–2; n=13); group 2, moderate renal impairment (creatinine clearance 30–60 ml·min^–1·1.73 m^–2; n=8); group 3, severe renal impairment (creatinine clearance 30 ml·min^–1·1.73 m^–2; n=6).The terminal half-life of batanopride was significantly prolonged from 2.7 h in group 1 to 9.9 h in group 3. The renal clearance of batanopride was significantly lower in group 3 (25 ml·min^–1) compared with group 1 (132 ml·min^–1).There were no differences in plasma protein binding or steady-state volume of distribution of batanopride among the groups.There were significantly lower renal clearances for all three metabolites in groups 2 and 3 compared with group 1. The half-lives of all three metabolites were significantly prolonged in group 3 compared with group 1.The dose of batanopride may need to be reduced in patients with creatinine clearances less than 30 ml·min^–1·1.73 m^–2 to prevent drug accumulation and avoid possible dose-related adverse effects.     

Sex-difference and the effects of smoking and oral contraceptive steroids on the kinetics of diflunisal

Summary The single dose pharmacokinetics of diflunisal were studied in 4 groups of 6 young volunteers: control men, control women, women taking low estrogen oral contraceptive steroids (OCS), and women smokers (10–20 cigarettes/day).The plasma clearance of diflunisal was significantly higher in men (0.169 ml·min^–1·kg^–1) and in women on OCS (0.165 ml·min^–1·kg^–1) as compared to control women (0.108 ml·min^–1·kg^–1). Partial metabolic clearances of diflunisal by the three conjugative pathways (phenolic and acyl glucuronide formation, sulphate conjugation) were all increased in men and women OCS users as compared to control women. Statistically significant increases, however, were only observed for the partial metabolic clearance of diflunisal by phenolic glucuronidation between men and women (2.91 vs. 1.85 ml·min^–1 respectively), and for the partial clearance by acyl glucuronidation between OCS users and control women (4.81 vs. 3.01 ml·min^–1 respectively).Smoking resulted in a moderate increase (35%) in plasma diflunisal clearance. However, a significant reduction in total urinary recovery of diflunisal and its glucuronide and sulphate conjugates was found in smokers (70.5% in smokers as compared to 84.2–87.2% in the 3 other study groups). Consequently, smoking may have induced hydroxylation, a minor oxidative metabolic pathway of diflunisal recently discovered in man.     

Polymorphic 2-hydroxylation of desipramine

Summary We have studied the clearance of monomethylaminoantipyrine (MMAAP), the pharmacologically active form of metamizol, in 46 patients in surgical intensive care with different degrees of renal dysfunction.In 23 patients without any renal impairment, mean clearance was 2.8 ml·min^–1·kg^–1. Twentyone patients with acute renal impairment had a significantly reduced clearance of MMAAP (0.83 ml·min^–1·kg^–1). There was also reduced clearance in four patients with septic shock (1.0 ml·min^–1·kg^–1).Kinetics of the metabolites of MMAAP (N-formylaminoantipyrine (FAAP), aminoantipyrine (AAP), and its secondary product N-acetylaminoantipyrine (AcAAP)) were calculated. FAAP and AcAAP showed delayed invasion, which can be explained by reduced hepatic metabolic activity. The product of N-demethylation, AAP, was not significantly altered.The delayed elimination of monomethylaminoantipyrine can be explained by reduced hepatic function in parallel with acute renal failure due to disturbed cardiovascular function caused by septic shock. This may also lead to disturbed hepatic macro- and microperfusion associated with altered oxygen supply and oxygen consumption.     

Differential effect of Type I and Type II diabetes on antipyrine disposition in man

Summary As the influence of diabetes on drug metabolism in patients is controversial, a study was performed to assess antipyrine (AP) disposition in controlled Type I and Type II diabetics and 2 age-and sex-matched control groups. In Type I diabetics, the half-life of AP was significantly reduced from 12.0 (controls) to 7.9 h, and the volume of distribution (V) was lowered from 733 to 569 ml·kg^–1. The resulting plasma clearance and cumulative urinary excretion of AP and its metabolites over 24 h did not differ from controls. In Type II diabetics, the AP half-life (14.5 h) and V (568 ml·kg^–1) did not differ from their age- and sex-matched controls (11.1 h and 643 ml·kg^–1, respectively), but the plasma clearance of AP was significantly reduced by 30%, and urinary excretion was significantly reduced to 44% of controls.The differential effects of Types I and II diabetes on AP metabolism may explain, at least in part, the controversial data in the literature.     

The effect of a low dose of quinidine on the disposition of flecainide in healthy volunteers

Summary We have studied the effects of quinidine on ECG intervals and on the pharmacokinetics of flecainide and its two metabolites in 6 healthy men in an open randomized crossover study. Flecainide acetate (150 mg) was given as a constant rate i. v. infusion over 30 min.Quinidine (50 mg orally), given the previous evening, did not change the volume of distribution of flecainide (7.9 vs 7.41·kg^–1), but significantly increased its half-life (8.8 vs 10.7 h). This was attributable to a reduction in total clearance (10.6 vs 8.1 ml·min^–1·kg^–1), most of it being accounted for by a reduction in non-renal clearance (7.2 vs 5.2 ml·min^–1·kg^–1). The excretion of the metabolites of flecainide over 48 h was significantly reduced.These findings suggest that quinidine inhibits the first step of flecainide metabolism, although it may also reduce its renal clearance, but to a lesser extent (3.5 vs 2.9 ml·min^–1·kg^–1).The effects of flecainide on ECG intervals were not altered by quinidine.Thus, quinidine tends to shift extensive metabolizer status for flecainide towards poor metabolizer status and may also alter its renal excretion.     

The pharmacokinetics ofα-human atrial natriuretic polypeptide in healthy subjects

Summary We have analysed the pharmacokinetics of-human atrial natriuretic polypeptide (-hANP) in healthy subjects, using a two-compartment open model following bolus intravenous injection. The plasma half-times for the fast and slow components were 1.7±0.07 min and 13.3±1.69 min respectively. V₁ (the volume of the central compartment), V_z (volume of distribution) and V_ss (volume of distribution at steady-state) were 5370±855 ml (89.5±14.3 ml·kg^–1), 32000±4620 ml (533±77.0 ml·kg^–1), and 11900±1530 ml (198±25.5 ml·kg^–1) respectively. The mean plasma clearance was 1520±121 ml·min^–1 (25.4±2.0 ml·min^–1·kg^–1.     

Determination of phenobarbitone population clearance values for South African children

Non-linear Mixed Effects Modelling (NONMEM) was used to estimate phenobarbitone population clearance values for South African children, using 52 serum levels gathered from 32 patients during their routine care. NONMEM was also used to evaluate the influence of fixed effects such as weight, age and concomitant medication. The final model describing phenobarbitone clearance was CL=[Exp(0.0288 Wt–2.53)] M, where CL=clearance (l·h^–1), Exp=the base of the natural logarithm, Wt=patient weight (kg) and M=a scaling factor for concomitant medication with a value of 1 for patients on phenobarbitone monotherapy, 0.62 for those receiving concomitant valproate and 0.87 for those patients receiving concomitant carbamazepine or phenytoin. Mean (95% confidence interval) phenobarbitone clearance values were 7.6 ml·h^–1·kg^–1 (6.2, 9.0 ml·h^–1·kg^–1) for the monotherapy group, 5.0 ml·h^–1·kg^–1 (4.0, 6.0 ml·h^–1·kg^–1) in the presence of concomitant valproate and 6.8 ml·h^–1·kg^–1 (5.6, 8.0 ml·h^–1·kg^–1) in the presence of concomitant carbamazepine or phenytoin. These values are similar to those previously reported from both traditional and NONMEM pharmacokinetic studies.     

Pharmacokinetics of ciprofloxacin tablets in renal failure; influence of haemodialysis

Summary The pharmacokinetics of ciprofloxacin has been studied after a single oral dose of 500 mg given to 5 normal subjects (N) and to 15 patients grouped according to their residual renal creatinine clearance: Group I, 8–30 ml·min^–1, Group II, <8 ml·min^–1, and Group III, haemodialysed patients studied twice — during an interdialysis period (IIIa) and in a 4 h haemodialysis session (IIIb). Ciprofloxacin was assayed by reverse phase HPLC using a spectrofluorimetric detection. The peak plasma concentration (2–5 mg·l^–1) was reached within 2 h after drug administration. Apparent volume of distribution, 6.6 (N), 5.0 (I), 2.7 (II) and 4.2 (IIIa) l·kg^–1 and total plasma clearance, 770 (N), 440 (I), 378 (II) and 314 (IIIa) ml·min^–1 were decreased in relation to the degree of renal impairment. Mean plasma half-lives for patients in the 4 groups were 7.3 (N), 10.4 (I), 7.2 (II) and 9.3 (IIIa) h. In groups N, I and II, 40, 16 and 8% of the administered dose was eliminated through the kidney, with mean renal clearances of 305±63,61±21 and 21±3 ml·min^–1. A linear relationship was found between the renal clearance of ciprofloxacin and the glomerular filtration rate (r=0.75,n=15). Ciprofloxacin was partly removed by haemodialysis (IIIb): the dialyser extraction ratio was 23% and the dialysis clearance was 40 ml·min^–1.