Cardiac and microcirculatory effects of different doses of prostaglandin E1 in man

Summary A cumulative dose response to intravenous PGE₁ was established in 12 healthy volunteers. Systolic time intervals, including pre-ejection period (PEP), the ventricular ejection time (VET) and the RR-interval, were continuously determined, and transcutaneous oxygen pressure (tcpO₂) was recorded.RR-intervals fell in a dose dependent manner, reaching a significantly lower level at 128 ng·kg^–1·min^–1 of PGE₁ (basal value 842 ms falling to 756 ms). PEP decreased from 89 ms to 74 ms and the ratio PEP/VET decreased from 35% to 30%, indicating increased myocardial contractility. The maximal increase in tcpO₂ was 125% on the calf and 60% on the foot. The peak tcpO₂ was observed at an infusion rate of 16 ng·kg^–1·min^–1 PGE₁. A decline in tcpO₂ was seen at infusion rates >64 ng·kg^–1·min^–1 PGE₁, indicating a decrease in skin perfusion.The results indicate that the effects of intravenous PGE₁ on skin perfusion occur at a lower threshold than the increase in myocardial contractility. A maximal increase in skin perfusion can be achieved with doses of PGE₁ devoid of systemic haemodynamic effects.     

The pharmacokinetics of amiloride-hydrochlorothiazide combination in the young and elderly

Summary The pharmacokinetics of amiloride and hydrochlorothiazide were studied in 12 healthy young volunteers following a single dose of a fixed combination of amiloride and hydrochlorothiazide and in 11 elderly hypertensive patients at steady-state. Following modelling of the single dose data, simulated steady-state plasma concentrations for the 2 drugs were generated to examine the effect of age and/or hypertension on pharmacokinetics.The apparent systemic plasma clearance for both amiloride and hydrochlorothiazide was significantly reduced in the elderly when compared to the young (from 753 to 325 ml·min^–1, amiloride; and from 418 to 157 ml·min^–1, hydrochlorothiazide). The plasma concentrations at steady state for both drugs were greatly increased in the elderly patients (Amiloride: from 7 to 25 ng·ml^–1, C_ss,max; from 2 to 8 ng·ml^–1, C_ss,min; and from 4 to 14 ng·ml^–1, C_av; Hydrochlorothiazide: from 184 to 651 ng·ml^–1, C_ss,max; from 31 to 121 ng·ml^–1, C_ss,min; and from 89 to 273 ng·ml^–1, C_av).The decreased clearance of the diuretics in the elderly was believed due to deterioration of renal function, and there was a significant correlation between the plasma clearance of hydrochlorothiazide and creatinine clearance in both age groups (r=0.62, young;r=0.72, elderly).As a result of the pharmacokinetic findings caution may be indicated in the clinical dosage of the diuretics particularly when in fixed dose combination.     

Pharmacokinetics of oral salbutamol controlled-release in Asian patients with asthma

Summary Using a double blind, double dummy crossover design, single dose and steady state pharmacokinetics of oral controlled release (SCR) salbutamol 4 mg and 8 mg tablets b. d. has been studied in 8 Asian patients.Plasma salbutamol was measured over 12 h. In 8 patients the single dose mean C_max was 4.2 ng·ml^–1 and 7.7 ng·ml^–1 after 4 and 8 mg, respectively. In 5 patients the steady state mean C_max, C_min and t_max were 8.1 ng·ml^–1 and 4.7 ng·ml^–1 and 6 h for the 4 mg tablets and 14.1 ng·ml^–1 and 7.1 ng·ml^–1 and 4 h for the 8 mg tablets.It is concluded that both doses of SCR show features of controlled release and that they produced a relatively constant plasma level of salbutamol in Asian patients.     

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.     

Plasma concentrations and haemodynamic effects of nimodipine in patients resuscitated after cardiac arrest

Summary As the pharmacokinetics of a drug may be altered in haemodynamically compromised patients, the plasma concentrations and haemodynamic effects of the calcium entry blocker nimodipine have been examined in patients resuscitated after out-of-hospital cardiac arrest.In 7 patients nimodipine was infused at increasing rates up to 30 µg·kg^–1·h^–1. The plasma concentrations increased with increasing dose; at the highest dose a mean steady-state plasma concentration of 22.1 ng·ml^–1 was obtained, and the mean plasma clearance was 1.4 l·kg^–1·h^–1. There were no marked changes in mean arterial blood pressure or heart rate.In 9 other patients nimodipine was given as a bolus infusion of 10 µg·kg^–1 over 3 min, followed by a continuous infusion of 30 µg·kg^–1·h^–1. A mean steady-state plasma concentration of 17.6 ng·ml^–1 was obtained and the mean plasma clearance was 1.9 l·kg^–1·h^–1. Heart rate did not change significantly, but the mean arterial blood pressure fell.The data indicate that in patients resuscitated after cardiac arrest, the pharmacokinetics of nimodipine are not markedly different from patients with other conditions, e.g. subarachnoid haemorrhage. However, if a loading dose is given to obtain a steady-state concentration sooner, there will be a fall in arterial blood pressure.     

Pharmacokinetics and pharmacodynamics of thiazinamium in asthmatic patients

Summary The pharmacokinetics and pharmacodynamics of thiazinamium (Multergan) were studied after intravenous and intramuscular administration to 7 males with chronic reversible airways obstruction.Disposition after i.v. administration was described by a clearance of 0.54 l·min^–1, central compartment volume of 14.8 l, distribution rate constant 0.092 min^–1, and an elimination rate constant of 0.0044 min^–1. The corresponding estimates after i.m. administration were 0.324 l·min^–1, 34.1 l, 0.035 min^–1, and 0.0018 min^–1. The bronchodilator response (expressed as % predicted FEV1) after i.v. administration was characterized by maximum increase in FEV1 of 33.9%, with an EC₅₀ of 12.8 ng·ml^–1 and an equilibration half-time of 11 min. Corresponding parameter estimates after i.m. administration were 32.2%, 18.8 ng·ml^–1, and 9 min.Anticholinergic activity, measured by the change in heart rate after i.v. administration, showed maximum increase of 76 beats·min^–1, with an EC₅₀ of 176 ng·ml^–1 and an equilibration half-time of 1.3 min. After i.m. administration the corresponding values were 120 beats·min^–1, 250 ng·ml^–1, and 3 min.The optimal plasma concentration of thiazinamium was about 100 ng·ml^–1, which should give a near maximal bronchodilator response (over 80% of predicted normal) and a heart rate of about 100 beats·min^–1.     

Pharmacokinetics of ibuprofen in febrile children

Summary Ibuprofen may be an alternative to acetaminophen to control fever in children but little is known about its pharmacokinetics in pediatric patients. We studied 17 patients (age 3–10 yr) with fever; the most prevalent diagnoses were streptococcal pharyngitis and otitis media. Ibuprofen liquid was given as a single dose, 5 mg/kg (9 patients) or 10 mg/kg (8 patients). Multiple blood samples were collected over 8 hours and analyzed by HPLC.The maximum observed serum concentrations of ibuprofen ranged from 17–42 m·ml^–1 at 5 mg·kg^–1 and 25–53 m·ml^–1 at 10 mg·kg^–1 doses. Pharmacokinetics did not appear to be affected by ibuprofen dose. Mean t_max, oral clearance and elimination half life were 1.1 h, 1.2 ml·min^–1·kg^–1, and 1.6 h, respectively in patients at 5 mg·kg^–1 doses; the corresponding values were 1.2 h, 1.4 ml·min^–1·kg^–1, and 1.6 h in those receiving 10 mg·kg^–1 doses. There was no relationship between age and ibuprofen kinetics. No adverse effects occurred in any patients.These data suggest that ibuprofen pharmacokinetics may not be affected by dose between 5 and 10 mg/kg or age between 3 and 10 years.     

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%.     

Pharmacokinetics and dialysability of isradipine in chronic haemodialysis patients

Summary The pharmacokinetics of isradipine, a calcium-channel blocker, have been studied in eight patients on chronic haemodialysis. A single oral dose of 5 mg was administered on both a non-haemodialysis and a haemodialysis day and the plasma concentrations of isradipine were analyzed.The mean c_max, t_max, AUC, and t_1/2 in plasma on the non-haemodialysis day were 5.2 ng·ml^–1, 1.4 h, 23.8 ng·h·ml^–1, and 3.1 h, respectively. The dialysis clearance of isradipine was negligible (5.0 ml·min^–1).The t_1/2 values during haemodialysis were not significantly different from those observed during the same period post dose on the non-haemodialysis day. The study demonstrates that supplemental doses of isradipine are not necessary in these patients since isradipine is not significantly removed by haemodialysis.     

Pharmacokinetics of biliary excretion in man. VI. Indocyanine green

Summary The pharmacokinetics of Indocyanine Green (ICG) has been studied in 15 patients given 0.5, 1.0 and 2.0 mg · kg^–1. The plasma disappearance and biliary excretion rate were measured in patients with tightly fitting catheters under slight negative pressure in order to achieve complete collection of bile. Recovery of unchanged ICG in bile over 18 h after the i.v. injection was 80% of the dose in all three dose groups.Plasma disappearance in all 3 groups was biphasic, showing an initial phase with a t_1/2 of 3–4 min and a secondary phase with a dose-dependent apparent t_1/2 of 67.6, 72.5 and 88.7 min, respectively. After 0.5 and 1.0 mg · kg^–1 the biliary excretion rate curves showed an ascending phase with a mean t_1/2 of 5 min and a descending phase with a mean t_1/2 of 72 min. It was inferred that the secondary component of the plasma-decay mainly reflected the biliary excretion rate. After 2.0 mg · kg^–1 in some patients the biliary excretion curve showed features of saturation; the t_1/2 of the descending phase ranged from 73 to 440 min, and the time of maximal excretion was increased from 1.3 to 2.7 h after injection, whilst the mean maximal excretion rate was in the same range as the excretion rate after the 1.0 mg · kg^–1 dose. The non-linear pharmacokinetics was only moderately reflected in the measured plasma disappearance patterns. Two compartment analysis of the plasma levels indicated a clearance of 230–260 ml · min^–1, whereas the clearance conventionally calculated from the initial t_1/2 was 475 ml · min^–1. The volume of the central compartment in 70 kg patients was 2.31, which is about the plasma volume. The fictive volume of distribution in the liver (V₂) was 70–90 l, indicating marked hepatic storage of ICG. This was probably due to the very low liver-to-plasma transport rate (k₂₁) of 0.006–0.10 min^–1. Thus, the biliary excretion of ICG can be quantified by 2-compartment pharmacokinetic analysis of plasma disappearance curves, including a secondary phase. The latter, slow component was apparent at very low plasma levels due to the marked hepatic storage, and it was also influenced by retention of small amounts of impurities or degradation products. Improved detectability of this phase cannot simply be obtained by increasing the dose, since at doses exceeding 1.0 mg · kg^–1 non-linear elimination may complicate the pharmacokinetic analysis.     

Effects of liver disease on the pharmacokinetics of intravenous and oral chlordesmethyldiazepam

We studied the pharmacokinetics of a single 0.5-mg i.v. dose of chlordesmethyldiazepam in 8 patients with liver disease and in 12 age-matched healthy controls. The kinetics were also studied of a single 1-mg oral dose in the patients with liver disease. After i.v. administration the kinetics of total chlordesmethyldiazepam in patients with liver disease differed from those in controls: elimination half-life was almost twice that in controls (395 and 204 h), as a consequence of a marked reduction in total clearance (0.13 and 0.25 ng·ml^–1·h^–1), whereas the apparent volume of distribution was similar in patients and controls (4.7 and 3.9 1/kg^–1). The free fraction of the drug in patients was higher (5.5%) than in controls (2.9%). Correction for differences in protein binding revealed clearance in the patients was one-fifth (1.8 and 10.5 ng ml^–1·kg^–1) and volume of distribution one-half (65.0 and 118.4 1·kg^–1) that in controls. The systemic availability of oral chlordesmethyldiazepam was high (110%) in spite of a relatively slow absorption rate. These results indicate a need for caution in the administration of chlordesmethyldiazepam to patients with liver disease.     

Pharmacokinetics of methadone and its primary metabolite in 20 opiate addicts

In a closed metabolic ward the pharmacokinetics of methadone and its primary metabolite (EDDP) were studied in 20 long-term opiate addicts. After administration of the daily oral dose of methadone HCl (mean 60 mg, range 10–225 mg) blood samples were taken and analysed, using a newly developed high-performance liquid chromatography (HPLC) method. The steady-state plasma concentrations of the 20 subjects varied from 65–630 ng·ml^–1 and from 5 to 55 ng·ml^–1, whereas the peak concentrations were 124–1255 ng·ml^–1 and 10 – 301 ng·ml^–1 for methadone and EDDP, respectively. The calculated ratios between the area under the curve (AUC_{(0–24 h)}) for methadone and the AUC_{(0–24 h)} for EDDP varied from 5.9 to 44.6, indicating interindividual differences in metabolic activity. In 19 out of 20 subjects the pharmacokinetics of methadone are best described using a two-compartment model. The mean body clearance was 1.64 ml·min^–1·kg^–1, whereas the mean elimination rate constant () and plasma half-life (t _1/2) were 0.026·h^–1 (range 0.013–0.053·h^–1) and 31.2 h (range 13–53 h), respectively. Differences of gender were also found. A poor correlation was found between the methadone dose and the steady-state level. A much better correlation was found between the normalized steady-state level and the body clearance.     

Raised plasma levels of atrial natriuretic factor in cardiac allograft recipients: evidence of increased cardiac secretion and decreased renal clearance

The mechanism(s) causing high levels of plasma atrial natriuretic factor (ANF) in cardiac allograft recipients is(are) unclear. The kidney is important for the clearance of ANF and renal function may decline with cyclosporin A therapy in these patients. The relationship between plasma ANF level and renal function and also the pharmacokinetics of a continuous infusion of ANF (15.5 ng·kg^–1·min^–1 for 60 min) was examined in 6 cardiac allograft recipients on cyclosporin A therapy.Resting plasma ANF levels were significantly higher in these patients than in 8 healthy subjects (71 vs. 21 ng·l^–1). Both effective renal plasma flow (ERPF) and glomerular filtration rate (GFR) were significantly lower in these patients than in healthy subjects (215 vs. 617 ml·min^–1 and 55 vs. 102 ml·min^–1 respectively). There was a significant inverse correlation between plasma ANF and ERPF (r=-0.86) and between plasma ANF and GFR (r=-0.81). During the period of ANF infusion, steady state plasma ANF levels were significantly higher in cardiac allograft recipients. Total body clearance of ANF was marginally lower in these patients than in healthy subjects (60 vs. 10.0 l·min^–1) although this difference did not reach statistical significance. Derived endogenous secretion rate of ANF was threefold higher in patients when compared to healthy subjects (633 vs. 208 ng·min^–1).We have therefore shown that cardiac allograft recipients on cyclosporin A have elevated plasma ANF levels and also decreased renal function. Pharmacokinetic analysis have shown that this increase in plasma ANF levels is due more to increased ANF secretion than to decreased ANF clearance in these patients.     

Plasma insulin during physiological and pathophysiological changes in atrial natriuretic factor

Summary Changes in plasma insulin in response to a physiological or pathophysiological elevation in circulating atrial natriuretic factor (ANF) have been investigated.Plasma insulin, glucose, immunoreactive (ir) ANF, effective renal plasma flow (ERPF), glomerular filtration rate (GFR), absolute and fractional excretion of sodium (FENa), have been measured in 14 volunteers before and during infusion of low doses of ANF or vehicle (V). Each subject received single-blind in a randomized sequence at 2 week-intervals: V alone, or ANF 4, 8 and 16 ng·kg^–1·min^–1, indused over 90 min.Plasma irANF was increased 2.5- to 11-fold during the ANF infusion as compared to the test with the vehicle. Plasma insulin did not change during V administration (baseline vs V: 22 vs 21 U·ml^–1) and was unchanged during ANF at 4, 8 and 16 ng·kg^–1·min^–1 (19, 19, 21 U·ml^–1, respectively). Blood pressure, ERPF and GFR were not affected, and diuresis, FENa and urinary Na excretion were increased significantly and dose-dependently during ANF, but not V infusion. Compared to baseline, ANF 4, 8 and 16 ng·kg^–1·min^–1 increased urinary Na excretion by 147, 241 and 446 mol·min^–1, respectively.The findings indicate that, in normal humans, an acute increase in irANF within or slightly above the physiological range, which modified natriuresis and diuresis, did not alter circulating plasma insulin.The work was supported in part by the Swiss National Science Foundation     

The tolerability,pharmacokinetics and lack of effect on plasma cholesterol of 447C88, an AcylCoA:Cholesterol Acyl Transferase (ACAT) inhibitor with low bioavailability,in healthy volunteers

447C88 (N-Heptyl-N-(2,4 difluoro-4-6-(2(-4-(2,2 dimethylpropyl)phenyl)ethyl)phenyl)urea) is an inhibitor of human microsomal AcylCoA:Cholesterol acyltransferase (ACAT) with an IC₅₀ of 10.2 ng·ml^–1 (23 nM). It is poorly absorbed but 5 mg·kg^–1·day^–1 completely abolishes the rise in plasma cholesterol in cholesterol-fed rats.In this study, twelve healthy, male volunteers received single, oral doses of 25, 50, 100, 200, 400 and 800 mg of 447C88 (n+8) or placebo (n+4) with food in a double-blind study with at least a week between occasions. The 400 mg dose was repeated after an overnight fast. Subsequently, fourteen different volunteers received a single 200 mg dose of 447C88 (n+8) or placebo (n+6) with food and, a week later, the same dose twice daily for 10 days; all doses were given with food.All doses were well tolerated with no significant changes in vital signs, full blood counts or plasma biochemical profiles. Plasma concentrations of 447C88 were unquantifiable after the fasting dose and low after all other doses. Mean C_max and AUC were 1.8 ng·ml^–1 and 9.0 ng·ml^–1·h after 200 mg rising to 5.4 ng·ml^–1 and 23.8 ng·ml^–1·h respectively after 800 mg; t_1/2 was 1.3 to 5.2 h. After 10 days dosing, plasma 447C88 concentrations were higher in the evening than the morning probably due to administration of the evening dose with more food. There were no significant changes in plasma triglcerides or total, LDL- or HDL-cholesterol after dosing with 447C88.     

Comparison of verapamil and bepridil,two slow channel inhibitors,in protection against calcium-induced arrhythmias

Summary Verapamil and bepridil share the common property of antagonizing the slow inward calcium-mediated current, but bepridil has some additional antiarrhythmic properties. The efficacy of these two compounds against CaCl₂-induced arrhythmias has been compared in rats. CaCl₂ was administered i.v. by continuous infusion until death (25 mg·kg^–1·min^–1 or 40 mg·kg^–1·min^–1) or by bolus injection (160 mg·kg^–1). Bepridil (5, 10 mg·kg^–1) or verapamil (2.5,5 mg·kg^–1) were injected 10 min before CaCl₂. Bepridil (10 mg·kg^–1) or verapamil (5 mg·kg^–1) prolong the survival time during CaCl₂ infusion. After pretreatment, the injection of 160 mg·kg^–1 CaCl₂ is less toxic: 25% of animals are protected by bepridil (5 mg·kg^–1), 41% by bepridil (10 mg·kg^–1) or verapamil (5 mg·kg^–1).At death the myocardial Ca²⁺ level is not different in controls and pretreated animals, thus, the ratio myocardial Ca²⁺/total injected Ca²⁺ is significantly lowered by bepridil (10 mg·kg^–1) or verapamil (5 mg·kg^–1). The efficacy of the two drugs on this model appears related solely to inhibition of slow inward current despite the additional antiarrhythmic profile of bepridil.     

The postoperative pharmacokinetics of codeine

Summary The metabolism and systemic availability of codeine have been studied in 12 patients after cholecystectomy. They were given 20 mg codeine as an IV bolus dose on the first day after surgery and 50 mg codeine as a single oral on the fourth day after surgery. Codeine had a medium to high extraction ratio and a total plasma clearance of 10.8 (4.3) ml·min^–1·kg^–1. The clearance varied fourfold between subjects. All the patients were extensive metabolizers with regard to the debrisoquine/sparteine polymorphism, as tested using dextromethorphan as the probe drug. Nevertheless, the formation of morphine from codeine was very small and plasma morphine concentrations were below the detection limit of 3.3 nmol·1^–1 (1 ng·ml^–1). As a corollary, the morphine/codeine ratio in the the concentration-time curves was less than 3% in all the patients.The systemic availability of codeine varied extensively between subjects (range 12–84%). This might partly explain differences in the dose of codeine required as an analgesic.     

Pharmacokinetics of thiopental after single and multiple intravenous doses in critical care patients

Thiopental was administered to neurosurgical patients for cerebral protection and its pharmacokinetic parameters were determined after a single bolus of 540, 1000 or 1500 mg (3 subjects) or after multiple doses of 250 mg (5 subjects) and 500 mg (2 subjects) every two hours for up to 7 days. The data were analysed by a two- or three- compartment model and linear kinetics. After a single IV bolus, the mean initial volume of distribution (V1) was 0.4811·kg^–1, and the steady-state volume of distribution (V_ss) was 2.16 1·kg^–1. The distribution (t_1/2) and elimination (t_1/2) half-lives were 0.590 and 5.89 h, respectively, and the mean residence time (MRT) was 7.44 h. The clearance was 5.41 ml·min^–1·kg^–1. With repeated injections, the pharmacokinetic parameters for each patient were estimated taking into account all administered doses and blood samples, which were taken whenever possible daily at steady state and after the last dose. The variability observed in the pharmacokinetic parameters of thiopental reflected by the coefficient of variation (CV%) was wide but was of similar magnitude within patients (CV_intra) as it was between patients (CV_inter). The steady-state trough plasma concentration (C_min obs) ranged from 4.8 to 30 mg·1^–1 (mean 16.0 mg·1^–1 and median 14.3 mg·1^–1). Peak concentrations (C_max obs) ranged from 8.35 to 45 mg·1^–1 (25.4 mg·1^–1, and median 23.3 mg·1^–1). The values of V1 and V_ss were similar to those obtained after a single dose. For V1, the mean was 0.333 1·kg^–1. The mean V_ss was 2.68 1·kg^–1, with a CV_intra of 12.6 to 56% and a CV_inter of 13.2%. A shorter distribution half-life t_1/2 was noted on multiple dosing; the mean value was 0.122 h. The elimination half-life t_1/2 and the mean residence time became longer due to a decrease in clearance. For t_1/2 the mean value was 16.3 h. The mean MRT was 21.9 h, CV_intra 9.19 to 48.5%, and the CV_inter 35.3%. The mean clearance was 2.16 ml·min^–1·kg^–1, CV_intra 7.28 to 25.5%, and the CV_inter 20.4%. This value is 50% lower than after a single dose.Identification of the kinetic parameters of thiopental allows simulation of the effects of doses on subsequent plasma levels and will permit a priori prediction of day to day adjustment of drug dosage.     

Studies on hydralazine

Summary Following a single 50 mg dose of hydralazine (Apresoline®) in 13 patients with impaired renal function, a decrease in glomerular filtration rate (GFR) was correlated with an increase in serum half-life (T1/2) of the drug (r=–0.69; p<0.01). The T1/2 was 15.8 h in one patient with a GFR of 16 ml·min^–1, as compared to a T1/2 of 1.7–3.0 h found previously in 16 healthy volunteers. In 49 patients on long-term antihypertensive treatment with hydralazine, the ratio between the minimum steady-state drug concentration and the daily dose of hydralazine (C _SS ^min : Dose) increased as the GFR decreased. This accumulation of the drug was particularly evident in patients with a GFR less than 30 ml·min^–1 (r=–0.63; p<0.01; n=19). As renal excretion of unchanged hydralazine is generally regarded as unimportant, the slower elimination rate in chronic renal failure was probably caused by a slower rate of metabolic conversion. It was found, however, that the renal excretion of hydralazine could easily have been underestimated, as only 12.7% of an initial hydralazine concentration of 200 ng·ml^–1 in urine could be recovered after storage of the samples at room temperature for 24 h.     

Flumazenil kinetics in the elderly

Summary In an open design, randomised, two-way cross-over study, a single 2 mg i.v. dose and a single 30 mg oral dose of flumazenil were each administered to a group of healthy young (n=6) and elderly (n=12) volunteers (male: female 2/1). Plasma samples were collected at intervals and intact drug was assayed.Both the IV and oral doses of flumazenil were very well tolerated by both age groups and no severe or unexpected adverse effects were observed. The main complaints were dizziness and headache, mainly after oral dosing, probably due to the higher C_max and AUC following this route of administration. After 2 mg i. v. the disposition parameters in the two age groups (elderly/young) were very similar: volume of distribution (V_ss): 0.88/0.901·kg^–1; total body clearance (Cl_PL): 0.86/0.99 l·min^–1; terminal elimination half-life (t_1/2): 1.02/0.91 h. After the 30 mg oral dose the mean C_max of 87.6 ng·ml^–1 (elderly) and 78.4 ng·ml^–1 (young) were generally reached within 0.5 to 1 h. In 26% (elderly) and 23% (young), the absolute bioavailability of flumazenil was very similar.It is concluded that the absorption and disposition paramters of flumazenil were not significantly affected by aging.