Disposition and metabolism of cetrorelix, a potent luteinizing hormone-releasing hormone antagonist, in rats and dogs.

Disposition and metabolism of cetrorelix was studied in intact and bile duct-cannulated rats and dogs after s.c. injection. An s.c. dose of 0.1 mg/kg [(14)C]cetrorelix was rapidly and completely absorbed in rats. T(max) in plasma and most tissues was at 2 h. Radioactivity at the injection site in rats declined to 10% by 24 h. The extent of (14)C absorption in rats calculated from excretion until 264 h was 94%. Exposure of the target organ pituitary gland was demonstrated with a time course similar to plasma but on a higher level. Rats excreted 69.6% of radioactivity via feces and 24. 3% into urine. Excretion was nearly complete within 48 h. No enteral reabsorption was detected. In dogs t(max) in plasma was 1.3 h. (14)C- and cetrorelix-plasma levels were similar until 24 h, indicating a negligible amount of metabolites. A dose of 1 mg/kg in dogs showed an increasing influence of a slow absorption phase (flip-flop). In dogs equal amounts of the (14)C dose were found within 192 h in feces and urine, 46 and 48%, respectively. In urine of both species, only intact cetrorelix was detected. In bile and feces of both species qualitatively the same metabolites were found, characterized as truncated peptides of the parent decapeptide. The major metabolite occurring in bile of both species was the (1-7)heptapeptide. The amounts of the (1-4)tetrapeptide in feces of rats but not in that of dogs increase with time, suggesting additional degradation of the peptide in the gastrointestinal tract of rats by enteric metabolization.     

Disposition of SK&F L-190144 in rats and monkeys after oral,intravenous or ocular administration

The objective of the study was to investigate the systemic disposition of ¹⁴C-SK&F L-190144 after single intravenous (10mg kg^?1) and oral (200 mg kg^?1) doses to rats and after single intravenous and ocular doses (0.33 mg kg^?1) to monkeys. After the intravenous dose, the blood concentration-time profile of ¹⁴C-SK&F L-190144 followed a rapid triexponential decline with half-lives of 2.5, 15, and 246 min in rats and 3, 19, and 2520 min in monkeys. The ¹⁴C-label in blood was mainly the parent compound. The terminal elimination half-life detected in rats using the urinary excretion rate-time data was 700 min. The total body clearance values were 17.6 ± 2.1 (mean ± SD, n = 6) and 1.11 ± 0.41 (n=4) mlmin^?1 kg^?1 for rats and monkeys, respectively. Both species had similar values of volume of distribution at the terminal phase, 4 to 6 l kg^?1, and similar excretion patterns, approximately 60 per cent and 30 per cent of the dose were excreted in the urine and feces, respectively. ¹⁴C-SK&F L-190144 was not absorbed orally in rats with the majority of the dose recovered in the feces. Following ocular administration to monkeys, the plasma drug concentrations peaked at 8 h post-dosing but did not reach a biexponential elimination phase until 18 h post-dosing, suggesting slow systemic absorption of drug from the ocular site. The monkeys excreted 42 per cent of the dose in urine and 50 per cent in feces after ocular administration. This increase in fecal excretion compared to the intravenous route of administration may have been due to the slow absorption by the ocular and nasal tissues altering the relative proportions of drug elimination via the renal and hepatic routes, or to a proportion of the dose passing into the gastrointestinal tract and exiting unabsorbed. Study results demonstrate similar excretion patterns and volume of distribution after intravenous administration in both species. The slow terminal elimination phase in monkeys was attributed to the low body clearance. The low oral bioavailability was possibly due to the poor partitioning behavior of the drug (logarithm of partition coefficient - 2.6). A significant fraction of the dose was absorbed in the body via the ocular route.     

Disposition and pharmacokinetics of naltrexone after intravenous and oral administration in rhesus monkeys

The purposes of this investigation were to determine the disposition of naltrexone (NTX) in monkeys and assess the role of first-pass metabolism and enterohepatic cycling in the disposition process. Concentrations of naltrexone and three metabolites were determined in plasma and urine as a function of time after po and iv NTX administration in six monkeys. Urinary recovery of NTX and metabolites 0-48 hr after iv administration (10 mg/kg) totaled 52% of the dose. Recovery in feces was minimal. Total urinary excretion of NTX and metabolites after po administration was 89% of that after iv administration, suggestive of good absorption of NTX from solution. However, the area under the plasma level-time curve for NTX after po administration was only 3.6% of that after iv administration, indicating a very high first-pass effect. The calculated extraction ratio was 0.96-0.99. Analysis of plasma level-time and urinary excretion rate-time data for NTX, conjugated NTX, beta-naltrexol, and conjugated beta-naltrexol after iv administration revealed that 1) the decline of plasma levels or urinary excretion rates with time for the conjugated metabolites was parallel to the decline for the apparent precursor; 2) the decline of plasma levels or urinary excretion rates for beta-naltrexol was slower than for naltrexone; and 3) there is evidence for a pronounced enterohepatic cycling of conjugated NTX and conjugated beta-naltrexol that influences the plasma level-time profile of these conjugates and the unconjugated compounds as well.     

Pharmacokinetics of clodronate after single intravenous, intramuscular and subcutaneous injections in rats.

The pharmacokinetics of clodronate was studied in rats after single intravenous, intramuscular and subcutaneous doses of a mixture of unlabelled and 14C-labelled disodium clodronate (25 mg/5 muCi/kg). The peak clodronate concentration in plasma was reached within 5 min., and the drug was eliminated with a half-life of about 1.5 hr regardless of administration route. Bioavailabilities after intramuscular and subcutaneous administration were 105% and 89%, respectively. During the 72 hr collection period, the mean share of clodronate recovered from the urine was about 53% of the dose regardless of administration route. Most of the drug was excreted during the first 24 hr. The amount of clodronate in bone (femur) was 186 micrograms/g tissue at 2 hr after intravenous administration, 188 micrograms/g after intramuscular administration and 157 micrograms/g after subcutaneous administration. It is concluded that absorption of clodronate after intramuscular and subcutaneous administration is rapid and good, and that the concentrations of the drug in bone after 2 hr are about the same as after intravenous administration.     

Pharmacokinetic study of darbepoetin alfa: absorption, distribution, and excretion after a single intravenous and subcutaneous administration to rats

KRN321 is a hyperglycosylated analogue of recombinant human erythropoietin (rHuEPO, epoetin alfa), and its absorption, distribution, and excretion have been studied after a single intravenous and subcutaneous administration of 125I-KRN321 at a dose of 0.5 microg kg-1 to male rats. The half-lives of immunoreactive radioactivity in the terminal phase after intravenous and subcutaneous administration were 14.05 and 14.36 h, respectively, and the bioavailability rate after subcutaneous administration was 47%. The total radioactivity in tissues was lower than that in the serum in all tissues excluding the thyroid gland and skin at the injection site (subcutaneous administration). The maximum concentrations were observed in the bone marrow or skin at the injection site followed by the thyroid gland, kidneys, adrenal glands, spleen, lungs, stomach and bladder. The radioactivity found in trichloroacetic acid-precipitated fractions suggested that a high-molecular weight compound, unchanged or mixed with endogenous protein, distributed to the tissues after administration. The whole-body autoradiographic findings in both groups were in agreement with the tissue distribution mentioned above. The blood cell uptake of KRN321 was low for both groups. The excretion ratios of radioactivity into urine and faeces up to 168 h were 71.4 and 14.1% after the intravenous administration and 74.9 and 12.0% after the subcutaneous administration. There was no difference in the excretion profile of radioactivity between the two groups.     

Disposition of HI-6 oxime in rats after intravenous and intramuscular administration

The pharmacokinetics of HI-6, a cholinesterase-reactivating oxime, were studied in rats, following intravenous or intramuscular administration. A two-compartment model was used to analyse the intravenous data and a one-compartment open model with first-order absorption was used for intramuscular data. Drug concentration had no influence on rate and extent of absorption of intramuscular injections, and bioavailability was 100%. Peak plasma concentrations of HI-6 occurred 15 min after intramuscular injection. No significant differences were found between mean values for half-life, plasma clearance, volume of distribution and area under the plasma concentration versus time curve for the two intramuscular doses and the intravenous dose used. Mean HI-6 plasma concentrations were 140.5 +/- 4.2 micrograms ml-1 3 min after 20 mg ml-1 i.v., with a mean elimination half-life of 65.2 +/- 21 min. Plasma clearance rate was 3.95 +/- 0.93 ml min-1 kg and the apparent volume of distribution was 0.38 +/- 0.17 litre kg-1. The oxime is rapidly distributed in and eliminated by rats when administered intravenously or intramuscularly.     

Pharmacokinetic study of darbepoetin alfa: Absorption,distribution, and excretion after a single intravenous and subcutaneous administration to rats

KRN321 is a hyperglycosylated analogue of recombinant human erythropoietin (rHuEPO, epoetin alfa), and its absorption, distribution, and excretion have been studied after a single intravenous and subcutaneous administration of ¹²⁵I-KRN321 at a dose of 0.5?µg?kg^?1 to male rats. The half-lives of immunoreactive radioactivity in the terminal phase after intravenous and subcutaneous administration were 14.05 and 14.36?h, respectively, and the bioavailability rate after subcutaneous administration was 47%. The total radioactivity in tissues was lower than that in the serum in all tissues excluding the thyroid gland and skin at the injection site (subcutaneous administration). The maximum concentrations were observed in the bone marrow or skin at the injection site followed by the thyroid gland, kidneys, adrenal glands, spleen, lungs, stomach and bladder. The radioactivity found in trichloroacetic acid-precipitated fractions suggested that a high-molecular weight compound, unchanged or mixed with endogenous protein, distributed to the tissues after administration. The whole-body autoradiographic findings in both groups were in agreement with the tissue distribution mentioned above. The blood cell uptake of KRN321 was low for both groups. The excretion ratios of radioactivity into urine and faeces up to 168?h were 71.4 and 14.1% after the intravenous administration and 74.9 and 12.0% after the subcutaneous administration. There was no difference in the excretion profile of radioactivity between the two groups.     

Disposition kinetics of sparfloxacin in healthy, hepatopathic, and nephropathic conditions in chicken after single intravenous administration

Objective:

To study the variation of disposition kinetic values of sparfloxacin in healthy, hepatopathic, and nephropathic chickens after a single intravenous administration.

Materials and Methods:

Hepatotoxicity was induced by the administration of paracetamol (500 mg / kg / day, p.o. for seven days) and nephrotoxicity by uranyl nitrate (2.0 mg / kg / day dissolved in distilled water, i.v. for four days) in chickens. Disposition kinetic studies of sparfloxacin were investigated in healthy as well as hepatopathic and nephropathic birds after a single intravenous administration at 40 mg / kg body weight.

Results:

Maximum plasma concentration detected at 0.16 hour was 31.25 ± 2.95, 61.95 ±1.85, and 99.86 ± 2.21 μg / ml in healthy, hepatopathic, and nephropathic group, respectively. The drug could not be detected in the plasma of healthy birds beyond 12-hour period, while the same was detectable for 72 hour in the plasma of hepatopathic and nephropathic birds. The concentration of sparfloxacin was significantly (P < 0.01) higher in all the samples of hepathopathic and nephropathic birds compared to healthy birds. All the kinetic values were increased (P < 0.01) in the hepatopathic and nephropathic birds, except Vd_area and Cl_B values in hepatopathic Birds; while β and Cl_B values nephropathic birds were decreased significantly than that of healthy birds.

Conclusions:

The dose of sparfloxacin may be reduced in hepatopathic as well as nephropathic birds.     

Disposition of a new diacid angiotensin-converting enzyme inhibitor after intravenous administration of drug or prodrug to monkeys and dogs.

The disposition of [4S-[4 alpha,7 alpha,(R*),12b beta]]-7- [S-(1-carboxy-3-phenylpropyl)amino]-1,2,3,4,6,7,8,12b-octahydro-6- oxo- pyrido[2,1-a][2]benzazepine-4-carboxylic acid (MDL 27,088), a new a new angiotensin-covering enzyme inhibitor, was studied in cynomolgus monkeys and beagle dogs given intravenous (iv) doses of MDL 27,088 or its prodrug, MDL 27,210. Although in both species iv-administered MDL 27,210 was extensively (> 99.9%) metabolized and excreted in the urine and feces as MDL 27,088, the disposition of MDL 27,088 appeared to be significantly influenced by its mode of administration. For example, the mean terminal half-life of MDL 27,088 in plasma was longer when MDL 27,088 was given as its prodrug (3.65 and 2.23 h in monkeys and dogs, respectively) than when it was administered directly (0.84 and 1.05 h in monkeys and dogs, respectively). The renal excretion of MDL 27,088 also increased (from 33 to 73% of the dose in monkeys and from 9 to 17% of the dose in dogs) when MDL 27,088 was administered directly versus when it was given as its prodrug. These and other results of this study suggest that the disposition of MDL 27,088 can be significantly altered by iv administration of its prodrug form. Such changes in disposition also suggest that iv administration of prodrug may influence the pharmacological activity of MDL 27,088.     

Pharmacokinetics of progesterone in ovariectomized rats after single dose intravenous administration.

The pharmacokinetics of progesterone were characterized in ovariectomized female rats. Progesterone was administered intravenously at a dose of 500 micrograms kg-1. Serum progesterone concentrations were determined by radioimmunoassay. Serum concentrations of progesterone were best described by a two-compartment model with elimination from the central compartment. The distribution and elimination phase half-lives were 0.13 +/- 0.024 (mean +/- SD) and 1.21 +/- 0.21 h, respectively. Elimination of the steroid was rapid with a total clearance of 2.75 +/- 0.42 l h-1 kg-1. Progesterone was widely distributed in the rat with a steady state volume of distribution of 2.36 +/- 0.23 l kg-1, a volume of the central compartment of 0.86 +/- 0.24 l kg-1 and a volume of the peripheral compartment of 1.50 +/- 0.19 l kg-1. The results of this study suggest that the ovariectomized female rat is a suitable animal model for examining the pharmacokinetics of progesterone.     

Distribution, metabolism and excretion of 14C-MT-141 in rats. II. Distribution and excretion after multiple intravenous administration in male rats and after single intravenous administration in female rats

The distribution and tissue accumulation of the radioactivity were studied in male rats after the multiple intravenous administration of 14C-MT-141. The distribution and the placental transfer were also studied using pregnant rats or lactating rats after the single intravenous administration of 14C-MT-141. The radioactive concentration in the fetus was low and the radioactivity was distributed almost uniformly through the fetus body. The peak time of the milk level was 2 hours after the administration and the radioactivity in milk decreased gradually thereafter. The milk levels decreased more slowly than the blood levels did. The blood level after the last dose administered daily for 7 days tended to decrease more slowly, when compared with the single administration. However the blood concentration at 48 hours after the last administration was less than 3 times as high as that after the single administration.     

Antidiarrheal effects of zaldaride maleate after oral, intravenous and subcutaneous administration to rats

The antidiarrheal action of zaldaride maleate (ZAL) after oral, intravenous and subcutaneous administration was examined to determine whether ZAL acts systemically or locally in the intestine of rats. Oral administration of ZAL inhibited castor oil- and 16,16-dimethyl prostaglandin E2-induced diarrhea; however, intravenous or subcutaneous administration of ZAL was ineffective. When ZAL was orally administered, the area under the plasma concentration time curve of the compound was lower than that of ZAL following intravenous or subcutaneous administration at the maximum doses studied. The antidiarrheal effect of ZAL was not dependent on its plasma concentration level. These results suggest that ZAL acts locally in the intestinal tract in rats.     

Effect of manganese on luteinizing hormone-releasing hormone secretion in adult male rats.

Recently studies have demonstrated that low doses of (Mn(+2)) in the form of manganese chloride can stimulate specific puberty-related hormones and advance signs of pubertal development in immature female and male rats. In the present study, we used an in vitro system to evaluate the ability of 0, 50, 250, and 500 microM doses of Mn(+2) to stimulate luteinizing hormone-releasing hormone (LHRH) secretion and to assess the hypothalamic mechanism of this action in adult male Sprague-Dawley rats. We demonstrated that Mn(+2) at 500 microM, but not the lower doses, increased LHRH release, nitric oxide (NO) synthase (NOS) activity, and the content of cyclic cGMP in the medial basal hypothalamus. Inhibition of NOS with a competitive inhibitor (Nomega-nitro-L-arginine methyl ester hydrochloride) prevented the Mn-induced increase in LHRH release. Additionally, methylene blue and KT5823, specific inhibitors of guanylyl cyclase and protein kinase G (PKG), respectively, also blocked the stimulatory effect of Mn(+2) on LHRH release. These in vitro studies demonstrated that the hypothalamic mechanism of Mn(+2) action in adult males is by activation of the NOS/NO system, resulting in increases in cGMP and PKG and thus the secretion of LHRH from the nerve terminals. These results indicate Mn(+2) can cause LHRH release in adult males, and this action is discussed in relation to age, gender, as well as mechanistic and functional differences between adult and immature animals.     

Pharmacokinetics and pharmacodynamics of hirudin in man after single subcutaneous and intravenous bolus administration

The pharmacokinetics (half-life time of absorption and elimination, total clearance, distribution volume etc.), effects on hemostasis (clotting times, blood cell counts) and renal excretion of hirudin were investigated on healthy volunteers after single subcutaneous (600, 800 or 1000 antithrombin units (AT-U)/kg; n = 3 per each dose) or intravenous (1000 AT-U/kg; n = 3) injections. Hirudin concentrations in citrated plasma and urine were determined by means of a radioimmunobioassay, whereby the inhibitor is detected by its thrombin binding capacity. Plasma profiles were adequately described by the Bateman equation (subcutaneous injection) and by an open two-compartment model (intravenous injection), respectively. Within 24 h about half of the applied hirudin dose was renally excreted in active form. The prolongation of clotting times (thrombin time, partial thromboplastin time (PTT), Quick) was dependent on the hirudin plasma level. The PTT proved to be the most reliable test for representation of the actual inhibitor plasma concentrations. Generally, the blood cell counts were unchanged by the hirudin administration. All test subjects tolerated the hirudin injection without visible or measurable side effects.     

Pharmacokinetics of imipramine after single and multiple intravenous administration in rats

Plasma and brain levels of imipramine (IMI) and desmethylimipramine (DMI) in rats after single and multiple iv administration were estimated. IMI accumulated only in plasma, while DMI accumulated in plasma and brain of rats. The brain level of IMI and DMI was higher than plasma level. After multiple administration plasma DMI concentration was significantly greater than IMI concentration. It seems that IMI was obtained steady-state plasma concentration already at fifth day of multiple administration. High dose of IMI (10 mg/kg) caused that the relationship between steady-state concentration and dose of IMI cannot be expressed as a linear function.     

Developmental toxicity of alprostadil in rats after subcutaneous administration or intravenous infusion

Timed-pregnant Upj:TUC(SD)spf (Sprague-Dawley) rats were dosed with alprostadil (prostaglandin E1), either subcutaneously on Days 6-15 of gestation at 0.0, 0.5, 1.0, or 2.0 mg/kg/day or by iv infusion into the jugular vein (24 hr/day) on Days 7-15 at 0.0, 0.5, 1.0, 2.0, 4.0, or 6.0 mg/kg/day. Maternal toxicity was observed in all dams receiving alprostadil subcutaneously, the severity of which increased in a dose-related manner. Toxicity also was evident in the offspring in the 2.0 mg/kg/day group as evidenced by a significant increase in the percentage of resorptions and a significant decrease in the percentage of live fetuses. Mean fetal weight was significantly depressed in all three alprostadil-treated groups and several skeletal and visceral variations were significantly higher in the 1.0 and 2.0 mg/kg/day groups than in the vehicle control group; in addition, there were two instances of significantly increased frequencies of skeletal variations in the 0.5 mg/kg/day group. Gross, visceral, and skeletal malformations were significantly increased in the high-dose group. During iv infusion of alprostadil more than 50% of the dams in the 6.0 mg/kg/day group died and there was one death in the 4.0 mg/kg/day group. Significant decreases in maternal weight gain between Days 7 and 11 of gestation were observed at doses of 1.0 mg/kg/day and above. However, continuous iv infusion of this prostaglandin, at dosages which were not severely toxic to the dams, was judged not to be teratogenic or otherwise embryotoxic in rats. The increase in uterine contractions, observed at 1.0 and 2.0 mg/kg after sc administration to rats implanted with chronic uterine microballoons, was consistent with the hypothesis that the developmental toxicity observed after bolus sc administration was the consequence of decreased blood flow in the uterus and/or placenta and/or embryos.     

Temporal characteristics of appetitive stimulus effects of luteinizing hormone-releasing hormone in male rats.

Conditioned place preference, induced by intraperitoneal injections of 5 micrograms/kg luteinizing hormone-releasing hormone (LHRH), was studied by varying the interval between the injection of LHRH and the conditioning sessions. Place preference was investigated for five presession intervals (0, 15, 45, 75, and 120 min) in separate groups of gonadectomized male rats provided with a subcutaneous testosterone implant. It was shown that the presession interval is an important parameter in the development of LHRH-induced conditioned place preference. Place preference was not observed after conditioning with intervals of 0, 75, and 120 min. With 15 and 45 min, however, a reliable preference was induced by LHRH. This study provides insight into the onset and offset of the appetitive stimulus properties of LHRH in male rats.     

Disposition of chloroquine in man after single intravenous and oral doses.

1 Chloroquine was given in 300 mg single doses as an i.v. infusion, an oral solution and as tablets at intervals of at least 56 days to 11 healthy volunteers. Concentrations of chloroquine and its metabolite desethylchloroquine were measured in plasma, erythrocytes and urine using h.p.l.c. 2 Chloroquine was detectable in all plasma samples up to 23 days and occasionally up to 52 days after dosage. Urinary concentrations were monitored up to 119 days. The disposition pattern was multiexponential reflecting extensive tissue binding of the drug. 3 After i.v. dosing the volume of distribution ranged from 116 to 285 l/kg and the apparent terminal half-life from 146 to 333 h. Total plasma clearance +/- s.d. was 712 +/- 166 ml/min and renal clearance 412 +/- 139 ml/min. The mean estimated urinary recovery of chloroquine was 47%, 42% and 46% after i.v., oral solution and tablets indicating nearly complete bioavailability. The corresponding figures for the metabolite were 7%, 10% and 12%. 4 The disposition of chloroquine in erythrocytes was parallel to that in plasma. The concentrations in erythrocytes were consistently 2 to 5 times higher than in plasma. 5 Subjective side effects like difficulties with swallowing and accommodation, diplopia and fatigue occurred during intravenous infusion and were closely related to plasma concentrations. No effect was seen on the electrocardiogram, mean arterial blood pressure and pulse rate. No adverse reactions were observed after the oral doses. High frequency audiometry did not reveal any significant hearing impairment for the group as a whole.     

Muscle distribution of antimicrobial agents after a single intravenous administration to rats

The purpose of this study was to evaluate the distribution of three fluoroquinolones (pazufloxacin, ciprofloxacin and ofloxacin) and a beta-lactam, ceftazidime in the tissue interstitial and intracellular spaces after a single intravenous administration to rats based on muscle microdialysis. The unbound concentration in the tissue interstitial fluid (C(isf,u)) after administration was estimated from the concentration in the dialysate by muscle microdialysis, the in vitro permeability rate constant, and the previously reported effective dialysis coefficient. The C(isf,u)s of pazufloxacin, ciprofloxacin, ofloxacin and ceftazidime in the muscle were close to their unbound concentrations in the venous plasma. These results were consistent with ones previously obtained at steady state. Based on these results, the total concentration in the tissue interstitial fluid (C(isf)) was calculated from the ratio of plasma protein binding, the plasma concentration, and previously reported interstitial-to-plasma albumin ratio in muscle of rats. The calculated C(isf) was compared with the muscle concentration (C(m)) obtained using the homogenized tissue. The C(isf) of ceftazidime was higher than the C(m). The C(isf) of pazufloxacin was found to be almost equal to its C(m). The C(isf)s of ciprofloxacin and ofloxacin were lower than their C(m)s with the exception of the values at 5 min after administration. These results indicate that ceftazidime is mainly distributed in the interstitial space of the muscle, that pazufloxacin is distributed equally in both the interstitial space and the tissue cells, and that ciprofloxacin and ofloxacin are mainly distributed in the tissue cells rather than the interstitial space.