Pharmacokinetics, blood partition and protein binding of DA-7867, a new oxazolidinone

The pharmacokinetics after single intravenous and single and consecutive 2 week oral administration, tissue distribution, in vitro tissue metabolism, stability, blood partition and protein binding of DA‐7867, a new oxazolidinone, were evaluated. After intravenous administration at a dose of 10mg/kg to rats, DA‐7867 was eliminated slowly with time‐averaged total body clearance of 0.915ml/min/kg. After consecutive 2 week oral administration at a dose of 2mg/kg/day to rats, DA‐7867 was accumulated in rats; the AUC was significantly greater (1430 versus 1880µg min/ml) than that after single oral administration at a dose of 2mg/kg. The rat tissues studied had low affinity to DA‐7867; the tissue‐to‐plasma ratios were smaller than unity after both intravenous and oral administration at a dose of 20mg/kg. The rat tissues studied had almost negligible metabolic activity for DA‐7867 based on 30min incubation of DA‐7867 with 9000 g supernatant fraction of rat tissues. DA‐7867 was stable for up to 24h incubation in various buffer solutions having pHs from 1 to 11, Sørensen phosphate buffer of pH 7.4, and rat plasma, urine and liver homogenate and 3h incubation in five human gastric juices. The binding of DA‐7867 to 4% human serum albumin was 50.6% at DA‐7867 concentrations ranging from 0.5 to 20µg/ml. The equilibrium of DA‐7867 between plasma and blood cells of rabbit blood reached fast (within 30s manual mixing), and the plasma‐to‐blood cell concentration ratios were independent of initial blood concentrations of DA‐7867, 1–20µg/ml; the values ranged from 1.39 to 1.63. Protein binding of DA‐7867 in five fresh rats plasma was 72.3%. Copyright © 2004 John Wiley & Sons, Ltd.     

Pharmacokinetics, in-situ absorption and protein binding studies of a new neuroleptic agent centbutindole in rats.

The present study reports the absorption kinetics, plasma protein binding and pharmacokinetic profile of the centbutindole (I) after i.v. and oral dosing in rats. In addition, an in-situ absorption study was carried out using a closed-loop technique at pH 2.6 and 7.4. The rate of absorption at pH 2.6 was 5-fold less compared to that observed at pH 7.4. In-vitro and in-vivo protein binding (ultra filtration technique) was independent of substrate concentration over a range of 1.25-10.0 microg/ml. Pharmacokinetic parameters of I were determined in male rats after administering a single 4 mg/kg oral dose and 2 mg/kg intravenous dose. The peak serum concentration of I was found to be 50.1 ng/ml at 30 min after oral administration followed by a secondary Cmax of 43.2 ng/ml at 180 min. For the hydroxy metabolite (II), a Cmax of 6.4 ng/ml was measured at 360 min after oral administration of I. After oral dosing an irregular concentration-time profile with secondary peaks was observed for both I and II. The terminal half-lives for I and II after oral dosing were 163 and 263 min, respectively. After intravenous dosing, the levels of I decreased biexponentially with a distribution (t(1/2) alpha) and elimination (t(1/2) beta) half-lives of 5.7 and 128 min, respectively. Comparison of the AUC after oral and intravenous dosing of I indicates that only about 24% of the oral dose reaches the systemic circulation. The limited bioavailability can either be due to the poor solubility of the compound and/or extensive first pass metabolism in the gastrointestinal (GI) tract. Co-administration of polyethylene glycol (PEG) at oral dosing improves solubilization and increases bioavailability.     

新型抗溃疡及促进伤口愈合药--重组人角质细胞生长因子-2

重组人角质细胞生长因子-2(rhKGF-2)能与人体上皮细胞内的成纤维细胞生长因子受体(FGFR)结合而发挥生理作用。研究显示，rhKGF-2可特异性地刺激上皮细胞增殖，促进表皮细胞生长和肉芽组织形成，可用于治疗因上皮细胞损伤引起的溃疡，加速伤口的愈合，耐受性好，值得临床推广。     

Stability, blood partition and plasma protein binding of ipriflavone, an isoflavone derivative

It is generally recognized that the partition between plasma and blood cells, the immediate centrifugation of blood samples after collection for the measurement of 'true' in vivo concentrations and free drug concentrations in plasma are important determinants of the pharmacokinetics and/or pharmacodynamics of drugs. Therefore, the stability, blood partition between plasma and blood cells, and factors influencing the binding of ipriflavone to 4% human serum albumin (HSA) using an equilibrium dialysis technique were evaluated. Ipriflavone was unstable in rat liver homogenate and various pH solutions ranging from 1 to 13, except pH 8, rat blood and plasma and human plasma when incubated in a water-bath shaker for 24 h kept at 37 degrees C and at a rate of 50 oscillations/min. The recoveries of spiked amounts of ipriflavone at 24 h pH solutions ranging from 1 to 12 were 67.0, 78.1, 87.9, 89.6, 84.2, 87.4, 85.5, 99.3, 88.0, 76. 6, 79.4 and 81.5%, respectively. Ipriflavone was very unstable in pH 13 solution; only 0.814% of ipriflavone was recovered after 30 min incubation. Ipriflavone was stable for up to 3 h incubation in human gastric juices. Ipriflavone reached equilibrium fast (within 30 s of being mixed manually) between plasma and blood cells and the equilibrium plasma/blood cells partition ratios were independent of the initial rabbit blood concentrations of ipriflavone: 0.2, 2, and 10 microg/mL; the values were in the range of 0.900-2.45. The binding of ipriflavone to 4% HSA was 96.6+/-0.407% at ipriflavone concentrations ranging from 2 to 100 microg/mL, but it was dependent on HSA concentrations (0.5-6%), incubation temperature (4, 22 and 37 degrees C), 'the buffer' pHs (5.8, 6.4, 7.0, 7.4 and 8.0), and addition of salicylic acid (150-300 microg/mL) and sulphisoxazole (100-300 microg/mL). However, the binding was independent of buffers containing various concentrations of chloride ion (0-0.546%), glucose (0 and 5%), alpha-1-acid glycoprotein (0-0.32%) and heparin (0-40 U/mL), and addition of its metabolites (M1 and M5, 5 microg/mL).     

PAMPA permeability, plasma protein binding, blood partition, pharmacokinetics and metabolism of formononetin, a methoxylated isoflavone

Formononetin (FMN) is a methoxylated isoflavone which is the major constituent in red clover and in commercially available extracts of this plant. In this study, we investigated the parallel artificial membrane permeability assay (PAMPA) permeability, protein binding, blood uptake characteristics, pharmacokinetics and metabolism of FMN. The permeability study samples were analyzed by HPLC-PDA method; whereas the pharmacokinetic study, protein binding and whole blood partitioning samples were analyzed by LC-MS/MS method. The PAMPA permeability of FMN was found to be high at pH 4.0 and 7.0. Plasma protein binding of FMN was found to be 93.61 ± 0.44% and 96.14 ± 0.15% at the tested concentration of 50 and 150 ng/mL, respectively. FMN reached equilibrium fast between red blood cells (RBCs) and plasma, and the partition coefficients between RBCs and plasma (K_RBC/PL) were independent of the initial rat blood concentrations of FMN. The bioavailability of unchanged/free FMN was found to be poor, i.e. approximately 3%. FMN was found to have a high clearance (5.13 L/h/kg) and a large apparent volume of distribution (14.16 L/kg). Circulating conjugates (glucuronides/sulfates) of FMN and daidzein (DZN) were quantified using enzymatic hydrolysis of plasma samples. The levels of isoflavone glucuronides/sulfates were found to be much greater than that of the corresponding aglycones.     

Serum protein binding of lomefloxacin, a new antimicrobial agent, and its related quinolones

The serum protein binding of lomefloxacin (LFLX), a new quinolone (pyridonecarboxylic acid), and its related analogues was studied by an ultrafiltration technique. The extent of binding of quinolones was independent of the concentration of quinolones below 100 micrograms/mL in rat serum; but, above this concentration, the binding decreased with increased drug concentration in the case of nalidixic acid and analogue 3. The extent of binding in rat serum differed widely among the quinolones examined [i.e., from 15% (norfloxacin) to 84% (nalidixic acid) at concentrations of 0.4-10.0 micrograms/mL]. Lomefloxacin was bound to serum proteins to the extent of 28.1, 20.1, and 20.6% in the sera of rats, dogs, and humans, respectively. The binding of nalidixic acid with rat serum albumin, which was very similar to that in rat serum, was concentration dependent. Some quinolone derivatives with a piperazinyl group or a relatively large-sized substituent at the 7-position exhibited a percentage unbound of approximately 70-80%, while some derivatives with small-sized substituents gave a low percentage unbound of 20-30%. This suggests that there is a steric effect of the substituents at the 7-position of quinolones on their binding characteristics with serum proteins. The results of the present study indicate that quinolones bind mainly with albumin among serum proteins and that the remarkable difference of the extent of binding of quinolone analogues is related to the size of the substituent at the 7-position of the molecule, possibly due to its steric effect.     

Safety evaluation of silk protein film (a novel wound healing agent) in terms of acute dermal toxicity, acute dermal irritation and skin sensitization

Acute dermal toxicity study was conducted in rats. The parameters studied were body weight, serum biochemistry and gross pathology. The animals were also observed for clinical signs and mortality after the application of test film. The dermal irritation potential of silk protein film was examined using Draize test. In the initial test, three test patches were applied sequentially for 3 min, 1 and 4 hours, respectively, and skin reaction was graded. The irritant or negative response was confirmed using two additional animals, each with one patch, for an exposure period of 4 hours. The responses were scored at 1, 24, 48 and 72 hours after the patch removal. Skin sensitization study was conducted according to Buehler test in guinea pigs, in which on day 0, 7 and 14, the animals were exposed to test material for 6 hours (Induction phase) and on day 28, the animals were exposed for a period of 24 hours (Challenge phase). The skin was observed and recorded at 24 and 48 hours after the patch removal. In acute dermal toxicity study, the rats dermally treated with silk film did not show any abnormal clinical signs and the body weight, biochemical parameters and gross pathological observations were not significantly different from the control group. In acute dermal irritation study, the treated rabbits showed no signs of erythema, edema and eschar, and the scoring was given as "0" for all time points of observations according to Draize scoring system. In skin sensitization study, there were no skin reactions 24 and 48 hours after the removal of challenge patch, which was scored "0" based on Magnusson/Kligman grading scale.     

Promotion of skin epithelial cell migration and wound healing by a 2-benzazepine derivative

Re-epithelialization is an important event in the healing of skin wounds. We have now shown that a 2-benzazepine derivative, N-(2,2,2-trifluoroethyl)-8-methoxy-4-methyl-2-benzazepin-3-one (compound A), facilitated the migration of human keratinocyte HaCat cells in an in vitro model of wound healing and inhibited the attachment of these cells to a collagen matrix. Topical application of compound A also promoted the healing of skin wounds in mice. Our results suggest that compound A promotes the repair of skin wounds by facilitating epithelial cell migration and that this 2-benzazepine derivative is a potential new drug for the treatment of such wounds.     

Pharmacokinetics of a new beta-adrenoceptor blocking agent, LF 17-895, in man.

The pharmacokinetics of a new potent beta-adrenoceptor blocking drug, bis-4-(2-hydroxy-3-isopropylamino-propoxy)-2-methyl indole sulphate (LF 17-895), have been studied in 5 volunteers after single oral (10 mg) and intravenous (4 mg) doses in a cross-over design. Following oral administration adsorption was rapid with peak plasma concentrations recorded after 3 h. Following the intravenous dose a biphasic decline of the plasma level curve was observed. The half-life of plasma elimination during beta-phase was 4.6 +/- 0.7 (p.o.) and 4.7 +/- 0.3 (i.v.) h, respectively. Absorption of the drug was 88.3 +/- 9.6% comparing the areas under the curve. 28.4 +/- 2.2% of the dose given i.v. was excreted in urine unchanged. When the pharmacokinetic data obtained with LF 17-895 were compared with those of pindolol, which differs only in lacking one methyl group in position 2 at the indole ring, only minor differences were seen: absorption of pindolol as well as plasma elimination were slightly faster.     

Pharmacokinetics of iohexol, a new nonionic radiocontrast agent, in humans

Sixteen healthy men received iohexol intravenously at a concentration of 346 mg of iodine/mL. Doses of 500, 750, 1000, and 1500 mg of iodine/kg of body weight were administered to four volunteers each. Neither clearance nor percent of dose excreted in the urine showed any significant correlation with size of the dose. The overall mean (+/- SD) renal and total body clearances were 120 +/- 18.6 and 131 +/- 18.6 mL/min, respectively. The overall mean apparent volume of distribution was 165 (+/- 30.7) mL/kg. Urine contained 92.3 +/- 4.4% of the dose. Most of the drug (89.9%) was excreted within the first 12 h. An open three-compartment body model gave the best fit to the experimental data. The mean apparent first-order terminal elimination (gamma-phase) half-life was 12.6 h.     

Pharmacokinetics of midaglizole, a new hypoglycaemic agent, in healthy subjects

The objective of this study was to evaluate the pharmacokinetics of midaglizole, a new orally effective hypoglycaemic agent, in healthy male subjects. In Study I, volunteers were given single oral doses of 150, 200, 300, and 500 mg of midaglizole 20 min before breakfast. In Study II, 200 mg of midaglizole was given 30 min after breakfast. In Study III, multiple oral administration study was carried out at a dose of 200 mg t.i.d. 20 min before meals for 7 days. The disposition of midaglizole was adequately described by a one-compartment open model with first order absorption. It was essentially dose-dependent up to 500 mg given orally. The pharmacokinetic parameters calculated by employing this model indicated that the disposition of this drug was characterized by good absorption from the intestine, a wide distribution in the body, and a rapid excretion via the kidneys. The absorption rate of midaglizole from the intestine was definitely slowed by the presence of food, probably due to a decrease in the rate of gastric emptying. No clinical significant accumulation of midaglizole in the body was observed during or after multiple doses. A linear correlation was found between the area under the curve of plasma concentration of midaglizole versus time and the area calculated from the curve of change in blood glucose level versus time after oral administration of midaglizole.     

MMP-2、MMP-9在大鼠皮肤创面愈合过程中的表达

目的探讨基质金属蛋白酶2(MMP-2)、MMP-9在大鼠皮肤创面愈合过程中表达的动态及其相关性。方法 42只大鼠制作大鼠背部皮肤创面模型后按取创面皮肤时间随机均分为七组,即在创面形成后1、12、24h及3、7、14、21d切取背部皮肤创面标本,采用免疫组化法检测标本中MMP-2及MMP-9的表达。另取3只正常大鼠背部皮肤标本作为对照。结果正常大鼠皮肤中MMP-2、MMP-9几无表达;背部皮肤创面形成后,MMP-2逐渐升高,14d达峰,21d仍高于正常水平;MMP-9迅速升高,在24h-7d呈高水平表达,后逐渐降至较低水平;MMP-2与MMP-9的表达水平在12h,3、7、14、21d时呈正相关,在24h时呈负相关。结论在大鼠创面愈合过程中MMP-2和MMP-9的表达有一定规律,并且二者相互影响。     

Anti-inflammatory properties of a novel wound healing and immunomodulating agent, tetrachlorodecaoxygen complex (TCDO)

The first phase of the healing process is characterized by the development of an inflammatory reaction involving migration of inflammatory cells and release of inflammatory mediators. In a previous study, we have demonstrated that the water soluble tetrachlorodecaoxygen complex (TCDO), first synthetized to promote wound healing, inhibits polymorphonuclear (PMN) migration. The aim of the present study was to investigate the activity of TCDO on the progression of an acute non-specific inflammatory reaction, on the release of 6-keto-PGF1 alpha and PGE2 and on PMN oxidative metabolism in the rat. Injected in the pleural cavity, TCDO (15 mumoles/rat) significantly decreased the number of exudative cells while 1.5 mumoles/rat inhibited PMN oxidative metabolism ex vivo (assessed by chemiluminescent assay and measurement of O2- generation) after stimulation of the cells by opsonized zymosan. Similar observations were made in vitro after incubation of PMNs with various concentrations of TCDO (300 to 3 microM). The effect was dose-related and highly significant up to the concentration of 3 microM. In parallel, TCDO decreased the amounts of 6-keto-PGF1 alpha and PGE2 in exudates harvested 1 hour after the intrapleural injection of isologous serum. Effects were significantly different from control levels, from 1.5 to 0.03 mumoles/rat for 6-keto-PGF1 alpha and from 1.5 to 0.01 mumoles/rat for PGE2. This effect was observed when TCDO was injected at the same time or 1 hour before the isologous serum but not later. TCDO also inhibited LTB4 generation in vitro after PMN stimulation by calcium ionophore A23187, at concentrations up to 150 microM. The effects of TCDO in vivo and in vitro on rat PMN functions and inflammatory mediator release mimic certain activities of anti-inflammatory drugs. These properties may be beneficial in the very early stages of the wound healing process.     

Pharmacokinetics of SUN 1165, a new antiarrhythmic agent,in renal dysfunction

Summary The pharmacokinetics of a new Class I antiarrhythmic agent, SUN 1165, has been studied in 32 patients with varying degrees of renal impairment following a single oral dose of 50 mg.The apparent volume of distribution at steady state was 1.48 1 · kg^–1, the absorption rate constant was 2.2 h^–1, and plasma protein binding was 26.8% in subjects with normal renal function.These variables were not altered with renal impairment. More than 60% of SUN 1165 given orally was excreted unchanged via the kidney, both by tubular secretion and glomerular filtration.The elimination rate constant, the apparent total body clearance and the apparent renal clearance were linearly correlated with the endogenous creatinine clearance. The half-time of elimination was 3.4 h in normal subjects and it was prolonged to 23.7 h in severe renal failure (creatinine clearance below 20 ml · min^–1 · 1.48 m^–2).Dosage adjustment of SUN 1165 is necessary in renal failure.     

Pharmacokinetics and metabolism of 14C-levetiracetam, a new antiepileptic agent, in healthy volunteers

The absorption, disposition and metabolism of levetiracetam, a new antiepileptic drug, have been investigated after a single oral dose of the ¹⁴C-labelled molecule administered to male healthy volunteers. As chiral inversion can occur during drug metabolism, the chiral inversion of levetiracetam and/or of its major metabolite produced by hydrolysis (the corresponding acid) was also investigated. Finally, the in vitro hydrolysis of levetiracetam to its major metabolite and the inhibition of this reaction in human blood have been studied. Levetiracetam was very rapidly absorbed in man, with the peak plasma concentration of the unchanged drug occurring at 0.25–0.50 h. The unchanged drug accounted for a very high percentage of plasma radioactivity (97–82%) at all the times measured, i.e. until 48 h after administration. The apparent volume of distribution of the compound was close (0.55–0.62 l/kg) to the volume of total body water. Total body clearance (0.80–0.97 ml/min/kg) was much lower than the nominal hepatic blood flow. The plasma elimination half-life of the unchanged drug varied between 7.4 h and 7.9 h. Plasma to blood ratio of total radioactivity concentrations was 1.1–1.3, showing that radioactivity concentrations were similar in blood cells and plasma. The balance of excretion was very high in all four volunteers. The predominant route of excretion was via urine, accounting for a mean of 95% of the administered dose after 4 days. Two major radioactive components were present in urine, the unchanged drug and the acid obtained by hydrolysis, accounting for 66% and 24% of the dose after 48 h, respectively. Hydrolysis of levetiracetam in human blood followed Michaelis-Menten kinetics with Km and V_max values of 435 µM and 129 pmol/min/ml blood, respectively. Among the inhibitory agents investigated in this study, only paraoxon inhibited levetiracetam hydrolysis (92% inhibition at 100 µM). Oxidative metabolism occurred in man, although it accounted for no more than 2.5% of the dose. There was no evidence of chiral inversion.     

Pharmacokinetics of E-6087, a new anti-inflammatory agent, in rats and dogs.

The pharmacokinetics of E-6087, a newly developed cyclooxygenase-2 inhibitor, was studied in rats and dogs after single oral and intravenous doses. In both animal species, E-6087 was characterized by a long elimination half-life (20-35 h), a low plasma clearance (0.10-0.22 l h(-1) kg(-1)) and a relatively large volume of distribution (2-6 l kg(-1)). Oral bioavailability was lower in dogs than in rats whereas a faster elimination was found in rats. Multiple peaks were present regardless of administration route and animal species, suggesting the existence of enterohepatic circulation. Gender effect on the pharmacokinetics of E-6087 was only found in rats, with greater exposure and longer elimination in females than in males. Food intake reduced the bioavailability (approximately 22%) with no apparent changes in the absorption rate. After oral dosing of 1, 5 and 25 mg kg(-1) to rats, linearity was lost at the highest dose due to the low aqueous solubility of E-6087. Drug absorption was improved by micronization. E-6087 and E-6132, (a pharmacologically active metabolite), showed different pharmacokinetics. The higher percentage of E-6087 at early times suggests that E-6087 is the main compound responsible for in vivo activity, although E-6132 would contribute to the activity at later times.     

Pharmacokinetics and metabolism of tomoxiprole, a new analgesic antiinflammatory agent, in the rat

The pharmacokinetics and the metabolic profile of tomoxiprole, a new analgesic antiinflammatory agent belonging to the class of 3-alkyl-2-aryl-3H-naphth (1,2-d)imidazoles, were studied in the rat. After oral administration (5 mg/kg) to male rats, tomoxiprole was rapidly absorbed, mostly by the gut, and reached maximum plasma levels of about 0.5 microgram/ml in 0.25-2 h. A metabolic first pass reduced the extent of oral bioavailability of the parent compound to about half, while absorption (total 14C data) was estimated to be complete. After intravenous injection (2.5 mg/kg), the plasma kinetics of tomoxiprole in male rats showed a bi-exponential profile, and the terminal elimination half-life was 4.2 h. The apparent volume of distribution was high, suggesting a wide distribution of the drug. Increasing the oral dose by ten times (50 mg/kg), resulted in linear kinetics with a proportional increase of the C max and AUC values and the same value of terminal elimination half-life. In females given a 5 mg/kg dose, the plasma levels of 14C, tomoxiprole and AUC values were somewhat higher than in males. The plasma levels of total 14C after iv or po treatments were higher and more sustained than those of tomoxiprole. The kinetic profile after iv administration was described by a three exponential terms equation and the terminal elimination half-life was 38.7 h. Upon iv administration, total 14C was rapidly distributed in highly vascularized tissues while in others, like the bone, fat, gonads, pancreas and skin the equilibrium with the central compartment was attained later. Target organs were the adrenals, liver, lungs, pancreas, thyroid, stomach and above all the fat tissue. Elimination from tissues was almost complete 48 h after the treatment. 14C was eliminated mainly in the feces (80% of dose) as metabolites. In the bile, five polar metabolites were detected; one of them, desmethyl tomoxiprole glucuronide, accounting alone for more than 80% of the total biliary radioactivity; was purified and its structure assigned.     

Pharmacokinetics and protein binding of trichothecene mycotoxins, T-2 toxin and HT-2 toxin, in dogs

The pharmacokinetics of T-2 toxin, following i.m. and i.v. administration (0.4 mg/kg), were investigated in five dogs. Following i.m. administration, the mean pharmacokinetic parameters for T-2 and HT-2 toxins were, respectively: apparent half-life 21 +/- 5 and 73 +/- 7 min; peak plasma concentration 182 +/- 42 and 74 +/- 16 ng/ml; time to reach peak plasma concentration 9.4 +/- 6.4 and 49 +/- 11 min. Mean residence time calculation, using moment analysis, showed that the terminal slope of T-2 toxin plasma levels following i.m. administration corresponds to the absorption rate constant of the toxin due to the flip-flop phenomenon. T-2 toxin was completely absorbed following i.m. administration and its absolute bioavailability was 1.17 +/- 0.25. A plasma protein binding study showed that in a concentration range of 70-500 ng/ml, T-2 and HT-2 toxins have a mean free fraction of 30.6 +/- 3.1% and 32.6 +/- 3.6% with no concentration dependency. At physiological conditions (temperature and pH), both T-2 and HT-2 toxins were unstable in whole blood and their in vitro stability half-lives were 6.9 and 0.84 hr, respectively. However, under similar conditions, these toxins were stable in plasma for 7 hr. Their instability in whole blood, therefore, may be related to enzymes present in the blood cells.     

Pharmacokinetics of pipecurium bromide, a new non-depolarizing neuromuscular blocking agent, in humans

The pharmacokinetics of 2 beta, 16 beta-bis-(4'-dimethyl-1'-piperazino)-3 alpha, 17 beta-diacetoxy-5 alpha-androstane dibromide (pipecurium bromide, Arduan), a new non-depolarizing neuromuscular blocking agent, was studied in surgical patients. Plasma concentration-time curves of pipecurium bromide were evaluated by fitting the data to a bi-exponential equation. The average half-lives were T 1/2 alpha = 4.1 +/- 1.4 (n = 8) and T 1/2 beta = 44 +/- 7 (n = 8) min. The pharmacokinetic parameters of pipecurium bromide were found as follows: apparent distribution volume V beta = 261 +/- 28 (n = 8) ml/kg, plasma clearance Cl = 320 +/- 55 (n = 8) ml/min. The microconstants of two-compartment open models were also calculated.