Interactions among primaquine, malaria infection and other antimalarials in Thai subjects.

1. The pharmacokinetics of rac-primaquine (45 mg base) and its principal plasma metabolite, carboxyprimaquine have been investigated in healthy Thai adults prior to and following a single oral dose of mefloquine (10 mg kg-1). 2. Primaquine was rapidly absorbed, attaining peak plasma concentrations (median and range) of 167 (113-532) micrograms l-1 in 2 (1-4) h. Thereafter, concentrations declined rapidly with an apparent terminal half-life of 6.1 (1.7-16.1) h and an oral clearance (CLpo) of 33.1 (17.6-49.3) l h-1. Administration of mefloquine had no effect on the values of any of these parameters at the 5% level of significance [Cmax 229 (114-503) micrograms l-1; tmax 3 (2-4) h; t1/2,z 3.9 (1.7-13.5) h; CLpo 34.0 (21.7-49.0) l h-1]. 3. The carboxylic acid metabolite of primaquine achieved maximum concentrations (median and range) of 890 (553-3634) micrograms l-1 at 6 (3-16) h. Thereafter, plasma concentrations of carboxyprimaquine declined to 346 (99-918) micrograms l-1 at 24 h. AUC (0,24 h) was 12737 (6837-27388) micrograms l-1 h. Administration of mefloquine had no effect on the plasma concentrations of this metabolite [Cmax 1035 (174-3015) micrograms l-1; tmax 8 (2-24) h; AUC(0,24) 13471 (2132-17863) micrograms l-1 h]. 4. The effect of falciparum malaria and treatment with quinine (10 mg salt kg-1 p.o.) on the pharmacokinetics of primaquine (45 mg base p.o.) has been investigated in adult Thai patients during and after infection with falciparum malaria.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pharmacokinetics of ticlopidine during chronic oral administration to healthy volunteers and its effects on antipyrine pharmacokinetics.

1. The pharmacokinetics of ticlopidine, a novel antithrombotic agent, have been investigated in 10 healthy volunteers dosed orally with the drug (250 mg 12 hourly for 21 days), to determine the basic pharmacokinetic parameters in humans, to investigate its accumulation during repeated administration, and to assess its effects on hepatic drug-metabolizing enzymes. 2. After the first dose, peak plasma concentrations (median 0.31, range 0.08-0.80 mg/l) were generally found at 2 h. The levels decreased rapidly to a median concentration of 0.087 mg/l by 4 h then declined to 0.022 (range less than 0.005-0.128) mg/l at 12 h after administration, with apparent half-lives of approx. 4 h. The median AUC value for this first dosage interval (AUC tau) was 0.97 (range 0.41-3.49) mg h l-1. 3. Pre-dose plasma concentrations indicated that steady state was reached after 5-10 days, and then remained essentially unchanged through to the end of the study. From 30 h after the final dose, drug levels declined exponentially with a median half-life of 28.8 (range less than or equal to 20-50) h. 4. Following the final dose, the median peak concentration and AUC tau were 0.99 (range 0.22-2.12) mg/l and 4.06 (range 0.90-15.2) mg h l-1 respectively. Based on AUC values, the mean accumulation factor +/- SD was 3.73 +/- 1.14. 5. The metabolic status of subjects was assessed by administration of single doses of antipyrine (700 mg orally) 7 days before the first dose of ticlopidine and 2 days after the final dose. Treatment with ticlopidine decreased antipyrine clearance, demonstrating that it inhibited drug-metabolizing enzymes. Significant correlations (r2 = 0.84, p less than 0.01) were found between the AUC values for ticlopidine and antipyrine, indicating that the interindividual variation in the pharmacokinetics of ticlopidine are explained by differences in metabolic clearance.     

Pharmacokinetics of halofantrine in man: effects of food and dose size.

1. Plasma concentrations of halofantrine (Hf) and its putative principal plasma metabolite desbutyl halofantrine (Hfm) have been measured in two separate studies after oral administration of the hydrochloride salt. 2. Six healthy male volunteers each received single oral doses of 250, 500 and 1000 mg administered after an overnight fast. A washout period of at least 6 weeks was allowed between each dose. A further 250 mg single oral dose was administered to the same six subjects in a fasting state and after a standardised fatty meal in a randomised study, again with a washout period of at least 6 weeks. 3. AUC and maximum plasma concentration (Cmax) for Hf increased in proportion to the dose from 250-500 mg. This increase was non-proportional when the dose was increased from 500 to 1000 mg. For Hfm, in the dose range 250-500 mg, AUC but not Cmax increased in proportion in the increase in dose size. The increase in these parameters was non-proportional when the dose was increased from 500 to 1000 mg. Time to reach peak concentrations for Hf and Hfm and the elimination half-life of Hf remained unchanged across the dosage range. 4. Following a fatty meal, Cmax for Hf was increased from 184 +/- 115 micrograms l-1 (fasting) to 1218 +/- 464 micrograms l-1 (fed). AUC for Hf was increased from 3.9 +/- 2.6 mg l-1 h (fasting) to 11.3 +/- 3.5 mg l-1 h following a fatty meal.(ABSTRACT TRUNCATED AT 250 WORDS)     

Diazepam effects on the performance of healthy subjects are not enhanced by treatment with the antihistamine ebastine.

1. We have given 12 healthy subjects the H1-antihistamine ebastine (20 mg) or placebo in a randomized double-blind and crossover study for 1 week each. The subjects were tested for drug effects on day 6 of each period, and for interactions of ebastine with oral 15 mg diazepam (DZ) on day 7. On both days, the testing runs were at baseline and 1.5, 3, 4.5 and 6 h after intake. 2. The performance was evaluated both objectively (digit symbol substitution, flicker fusion, Maddox wing, simulated driving, body balance) and subjectively (visual analogue scales, questionnaires). Venous blood was sampled daily during the maintenance and during each testing round for the assay of plasma carebastine (the active metabolite of ebastine) by high pressure liquid chromatography and plasma diazepam by radioreceptor assay. Three-way ANOVA, paired t-test, Wilcoxon rank sign test and Fisher's fourfold table test were used for data analysis. 3. Plasma carebastine reached steady levels from day 3 onwards. The mean concentrations in the morning were 82 micrograms l-1 on day 6 and 85 micrograms l-1 on day 7. The rise (+ 150%) in plasma carebastine after an extra 20 mg ebastine was not modified by DZ. Ebastine did not affect performance objectively or subjectively, yet borderline drowsiness was recorded during the first 3 h. On day 7, plasma DZ concentrations peaked (mean 480 micrograms l-1) at 1.5 h after the intake. DZ produced impaired performance in various objective tests, and drowsiness, weakness, clumsiness, mental slowness and poor performance were reported on visual analogue scales.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pharmacokinetics of artemether after oral administration to healthy Thai males and patients with acute, uncomplicated falciparum malaria.

1. The pharmacokinetics of artemether were investigated (a) in six healthy male Thai volunteers after single 200 mg oral doses and (b) in eight male Thai patients with acute uncomplicated falciparum malaria after an initial 200 mg oral dose followed by 100 mg at 12 h then 100 mg daily for 4 days. 2. In the healthy subjects, median (range) maximum plasma concentrations of artemether of 118 (112-127) ng ml-1 were reached at 3 (1-10) h. Thereafter, drug concentrations declined monoexponentially with a median (range) t1/2.z of 3.1 (1.0-9.6) h. The median (range) AUC and MRT values were 1.10 (0.33-4.44) micrograms ml-1 h and 8.3 (3.5-20.8) h. The median Cmax value of dihydroartemisinin, an active metabolite, was 379 (162-702) mg ml-1 at 6 (2-12) h. Its median AUC value was 6.6 (0.83-38.7) micrograms ml-1 h; the apparent t1/2.z was 10.6 (4.7-19.2) h and the median MRT value was 16.0 (5.0-41.0) h. 3. In the patients, a higher Cmax value of parent drug than those observed in healthy subjects (median and range of 231 (116-411) ng ml-1), was reached at 3 (1-3) h after the first dose. Steady state was reached after the third dose (24 h) and concentrations fluctuated over the range of 36-60 ng ml-1. The respective median (range) values of AUC and t1/2.z were 5.8 (3.76-12.9) micrograms ml-1 h and 4.2 (2.5-5.3) h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Single dose absorption profiles and bioavailability of two different salbutamol tablets

In a single dose cross-over experiment in twelve healthy adults a comparison of the absorption profiles and the relative bioavailability was made between a new salbutamol containing tablet (preparation A = Salbutax) and a commercially available and accepted formulation as reference (preparation B), both containing 4 mg salbutamol. Salbutamol plasma concentrations were measured frequently during a period of 16 h post dosing. Maximum salbutamol plasma concentrations after intake of product A and product B on an empty stomach were reached after 2.3 +/- 0.9 (= mean +/- S.D.) and 2.4 +/- 1.1 h, respectively, and accounted for 14.3 +/- 2.5 and 12.8 +/- 2.6 micrograms X l-1, respectively. The differences were not found to be significant (p greater than 0.05). The areas under the plasma concentration-time curves (AUC0----16), as obtained after administration of tablet A and tablet B, accounted for 73.5 +/- 14.0 and 65.0 +/- 11.8 micrograms X l-1 X h, respectively, the difference being marginally significant (p = 0.05). This results in a relative bioavailability of 114.3 +/- 15.7% for the product A 4-mg tablets. It is concluded that both products can be considered as having comparable bioavailability.     

Effect of lignocaine on arginine-vasopressin plasma levels: baseline or induced by frusemide.

1. To assess whether or not lignocaine influences baseline and frusemide-induced (5 mg kg-1) plasma concentrations of arginine-vasopressin (AVP), 2 groups of rabbits received an infusion of lignocaine (130 micrograms min-1 kg-1) for 6 h. Lignocaine-induced changes in AVP plasma concentrations were substantiated by measurement of diuresis and natriuresis and hepatic plasma flow, by means of an infusion of indocyanine green (ICG) (249 micrograms min-1 kg-1). 2. Baseline plasma AVP levels were 4.9 +/- 0.9 pg ml-1 (+/- s.e.), and following lignocaine, these values were reduced to 0.7 +/- 0.1 pg ml-1 (P less than 0.01). Frusemide increased AVP levels to 134.1 +/- 73.6 pg ml-1 (P less than 0.05) and lignocaine totally prevented this increase, e.g. mean AVP levels of 2.7 pg ml-1. 3. Lignocaine enhanced baseline diuresis secondary to an increase in free water clearance; none of the experimental conditions affected the diuresis and natriuresis induced by frusemide. 4. Frusemide reduced the hepatic plasma flow and this decrease was not reversed by the infusion of lignocaine. 5. It is concluded that in healthy rabbits lignocaine reduces baseline secretion of AVP and its antidiuretic effect; in addition, lignocaine prevents the rise in AVP induced by frusemide.     

Steady-state pharmacokinetics and effects of a new once-daily, slow-release theophylline capsule preparation in asthma.

Plasma and saliva theophylline concentrations were measured in 21 asthmatic subjects receiving chronic oral therapy with a new sustained-release theophylline capsule (K1B Riker) given as a once daily dose, after titration to achieve a before-dose concentration of 8 mg l-1 or greater, or to the maximum dose of 1200 mg of theophylline daily. Plasma concentrations rose from a mean +/- s.d. minimum concentration (Cmin) of 7.9 +/- 2.3 mg l-1 to a mean maximum of 13.6 +/- 3.3 mg l-1 at a median time of 10 h after dosing. Saliva theophylline concentrations were closely related to the plasma theophylline concentration both between and within subjects with a mean saliva to plasma concentration ratio between subjects (S/P ratio) of 0.62 (+/- 0.05) and a mean within subject coefficient of variation of 8.2% (+/- 4.5%). There was a significant but small (10%) change in the mean S/P ratio during the dosing interval. Peak expiratory flow rate (PEFR) changed slightly but significantly during the dosing interval but forced expiratory volume in one second (FEV1) and forced vital capacity (FVC) did not. The drug was well tolerated at the dose used (600-1200 mg once daily).     

The influence of food on the pharmacokinetics of CGP 6140 (amocarzine) after oral administration of a 1200 mg single dose to patients with onchocerciasis.

Eleven male patients from Mali with Onchocerca volvulus infections received in random order a 1200 mg single oral dose of CGP 6140 after an overnight fast and after food intake. The concentrations of CGP 6140 and of its N-oxide metabolite, CGP 13231, were measured in plasma and urine. Mean (+/- s.d.) AUC CGP 6140 values were 67.0 +/- 10.8 mumol l-1 h in fed and 22.0 +/- 17.2 mumol l-1 h in fasting patients. The mean maximum concentrations (Cmax) in plasma +/- s.d. were 12.7 +/- 2.8 mumol l-1 in fed and 4.7 +/- 4.1 mumol l-1 in fasting patients. The median time to Cmax was 3 h in fed and 2 h in fasting patients. Mean (+/- s.d.) AUC of the N-oxide metabolite was 59.9 +/- 10.7 mumol l-1 h in fed and 23.4 +/- 16.2 mumol l-1 h in fasting patients. The urinary recovery was less than 0.5% of dose for CGP 6140 in both fed and fasting conditions. It was 30.1 +/- 11.5 and 11.4 +/- 8.0% of the dose for the N-oxide metabolite in fed and fasting conditions, respectively. Variability in plasma concentrations and urinary recovery of CGP 6140 and of the N-oxide metabolite was greater in fasted patients. The low solubility of CGP 6140 in aqueous solutions at neutral pH and its higher solubility at acidic pH might explain the increase in bioavailability after food intake. The administration of CGP 6140 after food intake is therefore recommended for an optimal systemic effect.     

Pharmacodynamics of lazabemide, a reversible and selective inhibitor of monoamine oxidase B.

1. The inhibition of monoamine oxidase B (MAO-B) by lazabemide was measured in platelets collected from 35 young (19-36 years) and 40 older (60-78 years) healthy volunteers after single (100-300 mg) and multiple (100-350 mg twice daily) oral doses respectively. 2. The relationship of the effect with plasma concentrations of the MAO-B inhibitor was defined by a sigmoid Imax-model using either a parametric or semi-parametric method for predicting plasma drug concentrations. Population parameter estimates were obtained by the expectation maximization method and a standard two-stage method. 3. At the lowest dose platelet MAO-B activity was almost completely inhibited for around 20 h. No time delay between plasma drug concentration and resulting inhibition of platelet MAO-B occurred. Low concentrations of the inhibitor produced 50% of maximum inhibition (IC50, estimates for population mean +/- s.d.: 0.48 +/- 0.89 microgram l-1 for young and 1.5 +/- 2.3 micrograms l-1 for elderly subjects). The maximum extent of enzyme inhibition attributable to lazabemide (Imax) was 94 +/- 5.1% and 96 +/- 4.5% in the young and older populations. There was no correlation between age and either Imax or IC50. 4. Model parameters describing the interaction of lazabemide with the enzyme did not change over the treatment period of 7 days.     

Excretion of indomethacin in breast milk.

1. The excretion of indomethacin into breast milk and subsequent exposure of infants was studied in 16 women and seven of their infants. The median milk:plasma ratio in seven patients where there were measurable drug concentrations in both milk and plasma was 0.37. 2. Total infant dose, assuming a daily milk intake of 150 ml kg-1 and 100% absorption, ranged from 0.07% to 0.98% (median = 0.18%) of the weight adjusted maternal dose. 3. Plasma samples were obtained in seven infants. In six of these, indomethacin concentrations were below the sensitivity of the assay (less than 20 micrograms l-1), while one infant had a plasma indomethacin concentration of 47 micrograms l-1. 4. No adverse effects due to indomethacin were reported in the infants.     

The novel immunosuppressant SDZ-RAD protects rat brain slices from cyclosporine-induced reduction of high-energy phosphates

1. SDZ-RAD, 40-O-(2-hydroxyethyl)-rapamycin, is a novel macrolide immunosuppressant. Because of its synergistic interaction, SDZ-RAD is under clinical investigation as immunosuppressant in combination with cyclosporine after organ transplantation. Neurotoxicity is a critical side-effect of cyclosporine. 2. We studied the effect of SDZ-RAD and its combination with cyclosporine on high-energy phosphates, phosphocreatine (PCr) and nucleoside triphosphates (NTP), in brain slices using 31P-magnetic resonance spectroscopy (MRS). 3. Cyclosporine significantly reduced high-energy phosphates after 2 h in a dose-dependent manner (100 micrograms l-1: 93 +/- 3% of control (NTP), 91 +/- 3% (PCr); 500 micrograms l-1: 84 +/- 2% (NTP), 73 +/- 2 (PCr); 5000 micrograms l-1: 68 +/- 3% (NTP), 55 +/- 5% (PCr); n = 6; P < 0.02). 4. In contrast, after perfusion for 2 h, SDZ-RAD (500 micrograms l-1 and 5000 micrograms l-1) significantly increased high-energy phosphate concentrations in the brain slices (P < 0.02). Even at the lowest concentration, SDZ-RAD protected brain energy metabolism against cyclosporine toxicity: 100 micrograms l-1 SDZ-RAD + 5000 micrograms l-1 cyclosporine: 86 +/- 3% (NTP), 83 +/- 7% (PCr), n = 3, P < 0.03 compared to cyclosporine alone. 5. As evaluated using an algorithm based on Loewe isobolograms, the effects of SDZ-RAD/cyclosporine combinations on brain energy reduction were antagonistic. Both drugs were found in mitochondria using h.p.l.c-MS analysis. 6. We conclude that cyclosporine inhibits mitochondrial high-energy phosphate metabolism, which can be antagonized by SDZ-RAD.     

Pharmacokinetics of the individual enantiomers of vigabatrin (gamma-vinyl GABA) in epileptic children.

1. The pharmacokinetics of the enantiomers of vigabatrin were investigated after oral administration of a single 50 mg kg-1 dose of the racemate to two groups of six epileptic children (I: 5 months-2 years, II: 4-14 years). 2. The mean (+/- s.d.) values of maximum plasma concentration and area under the plasma concentration-time curve of the R(-) enantiomer were significantly higher than those of S(+) vigabatrin in both groups: R(-) Cmax: 21 +/- 6.6 (I)-41.3 +/- 13.9 (II) vs S(+) Cmax: 13.9 +/- 4.5 (I)-23.8 +/- 12.2 (II) mg l-1; R(-) AUC: 106 +/- 28.5 (I)-147 +/- 34 (II) vs S(+) AUC: 90.9 +/- 27.9 (I)-117 +/- 26 (II) mg l-1 h. In group I, the half-life of the R(-) isomer was significantly shorter than that of the S(+) isomer; in group II, the half-lives were comparable. 3. For the R(-) enantiomer the area under the curve, and the elimination half-life increased linearly with age. 4. During chronic administration (50 mg kg-1 vigabatrin racemate twice a day for 4 days), the morning trough plasma drug concentrations did not increase.     

Protein binding and CSF penetration of phenytoin following acute oral dosing in man.

Prophylactic phenytoin (DPH) has been evaluated in 20 patients undergoing diagnostic myelography. DPH (0.75 g) was ingested at 20.00 h the night before and 0.5 g at 08.00 h on the morning of the procedure. Total DPH concentrations at myelography (mean +/- s.d.: 12.7 +/- 4.3 mg l-1; range 6.3-21.5 mg l-1) correlated with CSF values (1.3 +/- 0.46 mg l-1; range 0.7-2.2 mg l-1; r = 0.83, P less than 0.001). DPH protein binding at that time varied two-fold (9.2-18.5%) and free drug levels (1.7 +/- 0.6 mg l-1) correlated with CSF (r = 0.83, P less than 0.001) and total (r = 0.89, P less than 0.001) plasma DPH concentrations. There were significant negative correlations between patient weight (n = 17) and total (r = 0.57, P less than 0.05) and CSF (r = -0.55, P less than 0.05) DPH concentrations at myelography. Total plasma DPH levels 8 h (14.5 +/- 3.9 mg l-1; range 7.3-20.6 mg l-1) and 24 h (12.3 +/- 3.8 mg l-1; range 5.0-19.8 mg l-1) after myelography were largely within the 'therapeutic range' of 10-20 mg l-1 for the drug. No patient suffered a seizure although, in two, spike discharges were seen on a post-myelography electroencephalogram. A simple regime involving two doses of DPH would provide acceptable plasma CSF concentrations as a basis for controlled studies in seizure prophylaxis following neuroradiological investigations involving intrathecal contrast.     

The plasma concentrations of isosorbide 5-mononitrate (5-ISMN) administered in an extended-release form to patients with acute myocardial infarction.

Eighteen patients with acute myocardial infarction (AMI) followed the same extended-release isosorbide 5-mononitrate dosage regimen as was used in the Fourth International Study of Infarct Survival (ISIS-4). Plasma drug concentrations, blood pressure and heart rate were measured over 5 to 7 days following acute and repeated administrations. After the initial 30 mg dose on the first day of infarction, mean +/- standard deviation Cmax was 1237 +/- 284 nmol l-1 with a median tmax of 4 h (range 1 to 10 h). Following the last 60 mg dose, Cmax was 2685 +/- 497 nmol l-1 with a median tmax of 4 h (2 to 7 h). The plasma concentrations of this extended-release 5-ISMN in patients with acute myocardial infarction were similar to those seen in studies with healthy volunteers. However, drug absorption following the acute dose was protracted in some patients, possibly due to the concomitant administration of morphine. The kinetics of 5-ISMN at steady state were similar for all patients, and none showed protracted 5-ISMN absorption.     

Effect of RP 67580, a non-peptide neurokinin1 receptor antagonist, on facilitation of a nociceptive spinal flexion reflex in the rat.

1. In order to examine the contribution of neurokinin1 (NK1) receptors to facilitation of a spinal nociceptive reflex in the rat, we have investigated the effects of RP 67580 (3aR, 7aR)-7,7-diphenyl-2(1-imino-2-(2-methoxyphenyl/ethyl)perhydrois oindole)), a non-peptide neurokinin1 (NK1) receptor antagonist, selective for the rodent receptor sub-type, on the activity of individual motorunits. These results were compared with the effects of RP 68651, the inactive 3aS, 7aS enantiomer of RP 67580, as a control for non-specific activity. 2. Experiments were performed on 15 rats anaesthetized with a continuous i.v. infusion of alphaxalone/alphadalone and spinalized at T9-10. Single unit recordings of motorunit activity from biceps femoris/semitendinosus were made with a concentric needle electrode. In each experiment, a vehicle dose followed by 4 sequential rising doses of either RP 67580 or RP 68651 were given at 15 min intervals. High intensity electrical stimuli were applied to the hindlimb receptive field of the motorunit at a rate of 1 per 60 s throughout the experiment to establish a baseline. A conditioning stimulus (20 of these stimuli at 1 Hz) was delivered 5 min after each dose and the effect of the size of the baseline response examined. 3. The conditioning stimulus evoked a facilitation of the baseline at the start of all experiments (mean increase +/- s.e. mean = 151 +/- 20%). RP 67580 attenuated this facilitation, with an ID50 (+/- s.e. mean) of 2.5 +/- 4.2 micrograms kg-1, i.v., whereas RP 68651 at doses of up to 3 mg kg-1, i.v. did not.(ABSTRACT TRUNCATED AT 250 WORDS)     

A pharmacokinetic and tolerance study of Ro13-9904, a new cephalosporin antibiotic.

1 Six healthy male volunteers received a total of 2500 mg of a new cephalosporin antibiotic Ro13-9904 by intramuscular injection in five divided doses at intervals of 12 h. 2 No significant systemic side-effects were observed and this was confirmed haematologically and biochemically. 3 The drug was distributed following intramuscular injection reaching a mean peak plasma concentration of 55 micrograms ml-1 (range 46-66) 1 to 2 h after the first injection. 4 Monoexponential elimination of drug was demonstrated. No significant difference was recorded in the plasma half-life after the initial dose (mean 6.7 h) and at steady state (mean 6.7 h). The half-life is long compared with other cephalosporin antibiotics. 5 On the basis of the observed half-life, steady state should be reached within 48 h. A mean peak plasma concentration of 74 micrograms ml-1 (range 65-87) was recorded at steady state. Steady state plasma concentrations of Ro13-9904 with a dose of 500 mg every 13 h may be predicted from the pharmacokinetics of a single dose.     

The relationship between the pharmacokinetics of amrinone in the marmoset and platelet effects

The pharmacokinetic characteristics of amrinone have been studied in six female marmosets following oral administration of 1, 12.5, 25, 50 and 75 mg.kg-1 and an intravenous dose of 1mg.kg-1. The mean plasma AUC0 infinity was determined at each dose level; the values obtained were 2.5, 18.7, 33.9, 103 and 312 micrograms.h.ml-1 for the oral doses of 1, 12.5, 25, 50 and 75 mg.kg-1 respectively and 1.9 micrograms.h.ml-1 for the intravenous dose of 1mg.kg-1. Mean maximum observed plasma concentrations were 0.6, 7.1, 11.7, 23.7 and 40.0 micrograms.ml-1 respectively following oral doses. Over the range 1 to 50 mg.kg-1 the AUC0 infinity was linear; at 75 mg.kg-1 the AUC0 infinity was disproportionately greater. Elimination appeared to be first order over the dose range 1 to 50 mg.kg-1 and the t1/2 in the marmoset was approximately 1 to 3 hours over this dose range. The plasma levels achieved are discussed in relation to the observed effects on the platelet population in this species following chronic administration at high dose levels.     

Pharmacokinetics of GM1 ganglioside following parenteral administration

The pharmacokinetic parameters of monosialotetrahexosylganglioside (GM1) have been determined in healthy volunteers at 3 dose levels: 100, 200, 300 mg. Each dose was administered to separate groups of 12 volunteers. GM1 levels were determined in plasma, urine, and faeces by a method based on the property of the cholera toxin beta subunit to react specifically with GM1 ganglioside. A non-compartmental model was applied to determine standard pharmacokinetic parameters. The average AUC increased with dose (1002 +/- 121.2, 1306 +/- 146.1, 3155 +/- 121.6 micrograms mL-1 h after 100, 200, 300 mg, respectively). Plasma clearance was less than 3 mL min-1 and the distribution volume was close to the plasma volume (on average between 4.3 and 7.2 L). Mean residence time was about 43 h for all doses. GM1 was not detected in urine, while in faeces the amount of GM1 determined was similar to the baseline values obtained before dosing.     

Effects and pharmacokinetics of bolus injections of atrial natriuretic factor in normal volunteers

The aim of this study was to examine the hemodynamic, renal, and endocrine effects of exogenous human atrial natriuretic factor (ANF), together with its pharmacokinetics, in healthy volunteers. Ten subjects participated in this study, in which the effects of a single bolus dose of ANF and of a matched vehicle injection were compared under a 135 mmol/day sodium intake. Doses of 3, 12.5, and 25 micrograms of ANF were given to 1 subject each, and doses of 50 and 100 micrograms were given to 4 and 3 subjects, respectively. Significantly, hemodynamic changes occurred at the 100 micrograms dose, when mean blood pressure decreased by 15% and heart rate increased reciprocally. Diuresis and natriuresis tended to increase following 50 micrograms but increased significantly and in a prolonged fashion following 100 micrograms of ANF. Atrial natriuretic factor did not cause significant changes in plasma catecholamine, renin activity, and aldosterone levels at any dose, although aldosterone tended to decrease. Plasma arginine-vasopressin concentrations decreased significantly following 100 micrograms. Plasma cyclic GMP levels increased in all subjects and in a dose-dependent fashion. Plasma ANF concentrations peaked 3-5 min following the bolus injection and returned toward baseline values within 10-60 min. Although with doses of less than or equal to 50 micrograms plasma ANF levels increased up to 8 to 50-fold, compared to baseline values, the only significant change was the increase in plasma cyclic GMP levels, perhaps because the effects of ANF were successfully masked by counter-regulatory mechanisms.(ABSTRACT TRUNCATED AT 250 WORDS)