Pharmacokinetics of butorphanol tartrate administered from single-dose intranasal sprayer.

PURPOSE: The pharmacokinetics and tolerability of single and multiple doses of intranasal butorphanol tartrate using a single-dose metered sprayer were studied. METHODS: In this randomized, open-label, two-way crossover study, 24 healthy subjects received either 1 or 2 mg of intranasal butorphanol as a single dose (treatment A) and 1 or 2 mg of intranasal butorphanol every six hours for seven doses (treatment B). During phase 1, 12 subjects selected at random received a single 1-mg dose and the other 12 a single 2-mg dose. During phase 2, those who received the 1-mg single dose received 1 mg every six hours for seven doses. During phase 3, those who received the 2-mg single dose received 2 mg every six hours for seven doses. Serial blood samples were collected over 12 hours. Pharmacokinetic parameters were determined using noncompartmental methods. RESULTS: Mean (coefficient of variation) values for the area under the concentration-versus-time curve (AUC) from time zero to infinity (AUC0-infinity) were 4.15 (26.4%) and 10.42 (19.6%) ng.hr/ml after single doses of 1 and 2 mg of butorphanol, respectively. At steadly state, mean values for the AUC from time zero to the dosing interval (AUC0-tau) were 4.82 (40.2%) and 10.60 (22.3%) ng.hr/mL, respectively. The accumulation indices were around 2 for both the 1- and 2-mg doses. Median time to maximum concentration values ranged from 15 to 30 minutes for each treatment. Dose-normalized parameters AUC0-infinity. AUC0-tau and maximum concentration (Cmax) were significantly larger after a single 2-mg versus 1-mg dose (p < 0.05). CONCLUSION: Intranasal butorphanol has rapid absorption and predictable accumulation after multiple doses administered with single-dose metered sprayers. Intranasal administration of butorphanol was well tolerated and adverse events were generally mild to moderate in severity and as expected for this drug.     

Multiple-dose, linear, dose-proportional pharmacokinetics of retigabine in healthy volunteers

Retigabine, a first-in-class selective M-current potassium channel opener, is a novel antiepileptic compound currently in clinical development. The purpose of this randomized placebo-controlled study was to assess retigabine oral safety and pharmacokinetics in healthy male volunteers (N = 45). Subjects received one dose on day 1 and doses every 12 hours for the next 14 days. Fixed doses were given to the first four groups (200, 400, 500, and 600 mg per day). Titrated doses were given to group 5 in 100 mg increases every 4 days, achieving 700 mg per day on day 15. Serial blood samples were collected on days 1 and 15. Pharmacokinetic parameters were compared between days and among dose groups. After administration of a single dose, retigabine was rapidly absorbed, with maximum concentrations of 387 ng/ml (normalized to a 100 mg dose) occurring within 1.5 hours. Retigabine was eliminated with a mean terminal half-life of 8.0 hours and an apparent oral clearance of 0.70 L/h/kg in white subjects. In black subjects, retigabine clearance and volume of distribution were 25% and 30% lower, respectively, after normalizing by body weight, leading to higher exposure in this population. Retigabine's pharmocokinetics was linearly dose proportional. Steady-state pharmacokinetics was in agreement with single-dose pharmacokinetics, and the accumulation ratio was about 1.5. Retigabine and AWD21-360 trough evening concentrations were significantly lower (about 30% to 35%) than morning values. The titration regimen allowed for higher doses to be tolerated compared to the fixed-dose regimen. In conclusion, the pharmacokinetics of retigabine is linearly dose proportional for daily doses of 100 to 700 mg and is not modified on multiple administrations.     

Ranitidine upon meal-induced gastric secretion: oral pharmacokinetics and plasma concentration effect relationships.

1 Ranitidine oral kinetics and plasma concentration-effect relationships upon meal-induced gastric secretion were investigated in normal subjects. Four oral doses of ranitidine (50, 100, 150 or 200 mg) and placebo were tested. 2 Oral ranitidine showed a terminal half-life of about 2 h 25 min. Maximal plasma level was about 240 ng/ml for a 100 mg dose, and occurred about 1 h after dose. From the range of 50 to 200 mg dose, no indication of non-linearity was observed in the drug kinetics. 3 Ranitidine administration resulted in a dose-related reduction in meal-stimulated acid secretion reaching, 46, 70, 82 and 92%, respectively. Mean ranitidine plasma concentrations producing 50 and 80% inhibition of acid secretion were 73 and 180 ng/ml, respectively, with great inter-individual variability. 150 and 200 mg ranitidine oral doses maintained IC50 for at least 4.5 and 5.5 h, respectively. Upon oral administration, ranitidine exerted no effect on gastric emptying of the meal but slightly decreased the gastrin response to the meal.     

Pharmacokinetics, tolerability, and safety of ACP-103 following single or multiple oral dose administration in healthy volunteers

The pharmacokinetics, safety, and tolerability of ACP-103, a selective serotonin 5-HT(2A) receptor inverse agonist, were evaluated in 2 double-blind, placebo-controlled, dose escalation studies in healthy male volunteers. Pharmacokinetic sampling was measured up to 216 hours after single oral/nasogastric doses of ACP-103 and after the last dose of once-daily oral administration of ACP-103 for 14 days. Single doses of ACP-103 (20-300 mg) resulted in dose-proportionate mean C(max) values (9-152 ng/mL) and AUC(0-infinity) (706-10 798 h x ng/mL), and multiple doses (50-150 mg) resulted in dose-proportionate mean C(max,ss) (93-248 ng/mL) and AUC(0-infinity,ss) (1839-4680 h x ng/mL). The half-life of ACP-103 was approximately 55 hours, with a t(max) at 6 hours. ACP-103 was well tolerated at single doses up to and including 300 mg and multiple doses up to 100 mg once daily for 14 days.     

Pharmacokinetic profile of glycyrrhizin in healthy volunteers by a new high-performance liquid chromatographic method.

An improved high-performance liquid chromatographic method was developed for the quantification of glycyrrhizin and its metabolites in human plasma. The improved method was selective and made it possible to determine precisely glycyrrhizin at levels as low as 500 ng/mL. The pharmacokinetic behavior of glycyrrhizin and its metabolites after oral and intravenous administration of glycyrrhizin to normal subjects was investigated. After oral administration of glycyrrhizin (100 mg) to three normal subjects, the major metabolite of glycyrrhizin (glycyrrhetic acid) appeared in plasma (less than 200 ng/mL), but glycyrrhizin was not found. On the other hand, glycyrrhizin was found in urine, and the amount excreted was 1.1-2.5% of the dose. This finding suggests that glycyrrhizin is partly absorbed in the intact form from the gastrointestinal tract. The concentration of glycyrrhizin in plasma after intravenous administration of glycyrrhizin (40, 80, and 120 mg) showed biexponential profiles during the 24-h period after administration of each dose. The glycyrrhizin metabolites, glycyrrhetic acid and glycyrrhetic acid-3-O-glucuronide, were not detected in either plasma or urine. The terminal half-life of glycyrrhizin, the apparent volume of the central compartment, the steady-state distribution volume, and the total body clearance in three dosing experiments were 2.7-4.8 h, 37-64 mL/kg, 59-98 mL/kg, and 16-25 mL/kg/h, respectively. Glycyrrhizin was not detected in plasma after oral administration of the usual therapeutic dose of glycyrrhizin, and no dose dependency of the drug was observed in the dose range of 40-120 mg.     

Azimilide pharmacokinetics and pharmacodynamics upon multiple oral dosing

This study assessed steady-state azimilide pharmacokinetics and pharmacodynamics in 119 healthy male and female volunteers. Parallel groups of 18-40-year-old subjects received doses of 35, 100, 150 or 200 mg day(-1) for up to 14 days, with 1, 2 or 3 days of loading. Another group of > 55-year-old subjects received 100 mg day(-1) with a 3-day loading regimen. There was a slight overshoot of steady-state (24%) after loading, but concentrations decreased to steady-state by day 7. Mean peak steady-state azimilide concentrations ranged from 186 to 1030 ng mL(-1) across the 35-200 mg day(-1) dose range, while mean trough steady-state azimilide concentrations ranged from 108 to 549 ng mL(-1). Azimilide pharmacokinetics were proportional to dose, except for renal clearance, and did not differ between 18-40-year-old and > 55-year-old subjects. Pharmacodynamics did not differ across dose groups. The mean maximum effect (Emax) ranged from 24 to 28% change in QTc from baseline. The concentration needed to attain one half Emax ranged from 432 to 542 ng mL(-1) across dose groups. Equilibration was rapid between blood and the biophase, with equilibration half-lives of less than 1 min.     

Pharmacokinetics and pharmacodynamics of terbogrel, a combined thromboxane A2 receptor and synthase inhibitor, in healthy subjects

AIMS: To characterize the pharmacokinetics of terbogrel, a new combined thromboxane A2 (TxA2) receptor and synthase inhibitor, in healthy human subjects after single or multiple oral administration. METHODS: Forty-eight healthy male subjects received a single oral dose (10, 25, 50, 100, 150 or 200 mg) of terbogrel or placebo and 32 different subjects received one of the following treatments twice daily for 7 days: 50, 100 or 150 mg terbogrel, placebo, or once-a-day 330 mg acetylsalicylic acid. RESULTS: Terbogrel was well tolerated without obvious adverse effects following either a single oral dose or administration over 7 days. Plasma drug concentrations were dose-linear and there was no accumulation over 7 days. There was a dose-dependent blockade of TxA2 receptors and of inhibition of thromboxane synthase activity with values for IC50 of 12 ng ml(-1) and 6.7 ng ml(-1), respectively. At the highest dose tested (150 mg) there was almost complete inhibition of thomboxane synthase and thromboxane receptor occupancy. Even at trough concentrations, receptor occupancy remained above 80% and thromboxane synthase was still completely inhibited. These two activities were associated with a dose-dependent inhibition of platelet aggregation (>80% at the 150 mg dose of terbogrel) and enhanced prostacyclin production. CONCLUSIONS: Terbogrel is a potent agent having two distinct, complimentary pharmacodynamic actions, namely inhibition of thromboxane synthase and antagonism of the TxA2 receptor. The antithrombotic effect of terbogrel was dose-dependent and was associated with enhanced prostacyclin production. Terbogrel is an attractive candidate for long-term antithrombotic therapy.     

Antitumor efficacy of AG3340 associated with maintenance of minimum effective plasma concentrations and not total daily dose, exposure or peak plasma concentrations

Oral administration of AG3340, a novel metalloprotease (MMP) inhibitor, suppresses the growth of human colon adenocarcinoma (COLO-320DM) tumors in vivo (Proc Am Assoc Cancer Res 39: 2059, 1998). In this report, we tested the hypothesis that the growth inhibition of these tumors is associated with maintaining minimum effective plasma concentrations of AG3340. Nude mice were given a total oral daily dose of 25 or 200 mg/kg; 6.25 mg/kg was given four times per day (QID) (25 mg/kg/day), and 100 mg/kg was given in two daily doses (BID) (200 mg/kg/day). Peak plasma concentrations (Cmax) of 83 +/- 43 (mean +/- SD) and 1998 +/- 642 ng/ml were detected 30 min after a single dose with 6.25 mg/kg and 100 mg/kg AG3340, respectively. AUC(0-24 h) values estimated from dosing with 25 and 200 mg/kg/day AG3340 were 672 and 10882 ng*h/ml, respectively. Importantly, both regimen inhibited tumor growth equivalently (74 to 82%). Efficacy was also compared at a total daily dose of 25 mg/kg by giving AG3340: QID (6.25 mg/kg per dose), BID (12.5 mg/kg per dose), and once daily (25 mg/kg per dose). The Cmax of these regimens was 83 +/- 43, 287 +/- 175 and 462 +/- 495 ng/ml, respectively. AG3340 did not inhibit tumor growth with the latter two regimens. The efficacy of 6.25 mg/kg QID (25 mg/kg/day) was superior to the efficacy of 25 mg/kg BID (50 mg/kg/day), substantiating the independence of efficacy from the total daily dose and Cmax. Expectedly, peak to trough fluctuations were significantly smaller with the QID regimen than with BID and QD dosing. After 24 h, the trough was greater than 1 ng/ml with QID dosing but was less than 1 ng/ml after QD and BID dosing. These results suggest that the antitumor efficacy of AG3340 was associated with maintaining minimum effective plasma concentrations of AG3340 and demonstrate that the antitumor efficacy of AG3340 was independent of the total daily dose, peak plasma concentration, and drug exposure in this tumor model.     

Pharmacokinetics of ABT-773, a new semi-synthetic ketolide in neutropenic lung-infected mice: a population approach

ABT-773 is an investigational ketolide antimicrobial agent with an in-vitro bactericidal activity against macrolide-susceptible and -resistant Streptococcus pneumoniae. The pharmacokinetics of this drug candidate were evaluated in lung-infected (108 CFU mL 1 starting inoculum) mice following a single dose (25, 50, 100 or 200 mg kg(-1)) oral administration as a solution in 10% of 95% ethanol and 90% of 0.1 M pH 6.5 phosphate buffer solution. Serum ABT-773 concentrations were measured using a validated HPLC assay with fluorescence detection (excitation at 324 nm and emission at 364 nm). Population pharmacokinetic analysis was performed using the NONMEM computer program. Results from data analysis showed non-linear pharmacokinetics of ABT-773, noted by the increases in half-life (3.1 to 27.2 h) and AUC/dose (23.7 to 149 mg h(-1) L(-1) mg(-1)), with doses from 25 to 200 mg kg(-1). A non-linear one-compartment model with parallel capacity-limited and linear first-order elimination best described the pharmacokinetics of ABT-773 in the mouse. The total volume of distribution was 0.316 L. The clearance for the linear first-order elimination was 0.0027 L h(-1). The Vm and Km were 0.0385 L h(-1) and 0.141 mg L(-1), respectively, for the capacity-limited elimination.     

Pharmacokinetics of diphenhydramine after dose ranging in nonpregnant ewes

Studies were conducted to characterize the pharmacokinetics of diphenhydramine in nonpregnant ewes after iv administration of 25-, 50-, 100-, and 200-mg doses of diphenhydramine hydrochloride on a crossover basis. Plasma drug concentration versus time data exhibited multiexponential characteristics. The initial distribution half-life increased from 5 to 9 min and the elimination half-life from 34 to 68 min as the dose was increased. There was also an increase in the volume of distribution (from 3 to 6 L/kg) with increasing dose. The elimination half-life and the volume of distribution after a 200-mg dose were significantly greater than after a 25-mg dose. There was, however, a linear increase in AUC0 infinity as dose was increased. The average total body clearance (approximately 5 L/h/kg) remained unchanged regardless of dose. The free fraction of diphenhydramine determined by equilibrium dialysis averaged 0.229 +/- 0.080, and the extent of drug binding to plasma protein was independent of the drug concentrations encountered (30-780 ng/mL) in the nonpregnant sheep in vivo. Concentration-independent binding of the drug was also confirmed by in vitro binding studies over the drug concentration range 10-2000 ng/mL. Therefore, it appears that changes in the volume of distribution are likely to be a result of changes in tissue uptake or binding of the drug as a function of dose.     

A double-blind, placebo-controlled study to assess tolerability, pharmacokinetics and preliminary pharmacodynamics of single escalating doses of Z13752A, a novel dual inhibitor of the metalloproteases ACE and NEP, in healthy volunteers

AIMS: The objective of this study was to evaluate the tolerability of a novel dual ACE-NEP inhibitor, Z13752A, after the oral administration of rising single doses in healthy volunteers. This study was also a preliminarily investigation of Z13752A pharmacodynamics (PD) and pharmacokinetics (PK). METHODS: In this randomized, placebo-controlled, sequential study, two alternating panels of eight healthy male volunteers each (six subjects receiving the active treatment + two subjects receiving placebo) were treated with increasing oral doses of Z13752A: 10, 50, 200, and 600 mg were given to panel I and 20, 100, 400 and 800 mg were given to panel II. The study was double-blind relative to placebo or active treatment, and was open with respect to the dose levels. The same volunteer received placebo only once. RESULTS: Single oral doses of Z13752A, as high as 800 mg, were well tolerated. Only six mild-to-moderate adverse events mainly headache, were reported and appeared to be of little clinical relevance. After administration of 200, 400, 600 and 800 mg of Z13752A, a nonsignificant fall in diastolic blood pressure was detected, in both the standing and supine position. After single oral doses of Z13752A, ACE inhibition appeared to be significant at all the doses tested, linearly correlated with the dose and was almost complete at doses > or = 100-200 mg. NEP inhibition was indicated by elevation of ANP and cGMP plasma concentrations in almost all subjects. In the 200-800 mg dose range, Z13752A produced a 50-100% increase of plasma cGMP levels and a 50-80% elevation in urinary cGMP concentrations. Detectable plasma levels of Z13752A were found in all the treated subjects. Z13752A was well and rapidly absorbed, with peak concentrations reached approximately 2.5 h after administration. The mean apparent elimination half-life from plasma was approximately 12 h. The pharmacokinetics of Z13752A after single oral doses were characterized by low intersubject variability and appeared to be dose-independent. CONCLUSIONS: Z13752A showed a good single dose tolerability profile at doses up to 800 mg. The pharmacokinetic data indicate that Z13752A administered orally is rapidly absorbed and available to the systemic circulation in humans. The relatively slow clearance indicates that a once-a-day dose regimen could be considered for Z13752A.     

Clinical pharmacokinetics and tolerability of alpidem in healthy subjects given increasing single doses

Summary In a double-blind, placebo-controlled, crossover experiment in 21 healthy male volunteers, aged 19 to 27 y, the pharmacokinetics and tolerance of the new anxiolytic drug alpidem (SL80.0342) and its three major metabolites were studied after single doses of 25, 50, 100 and 200 mg. Plasma concentrations of alpidem (in 20 subjects) and metabolites (in 6 subjects) were measured by HPLC over a period of 54 h after dosing.C_max, t_max and AUC(0–54) and, when possible, t1/2 were determined for alpidem and metabolites and the dose linearity of the parameters was investigated. The time to peak of alpidem was dose independent in most subjects and was short (1–4 h); the mean values at the four dosing levels were 1.9, 1.7, 1.6 and 1.8 h. The peak concentration increased with the dose, the mean values being 17, 34, 88 and 115 ng · ml^–1, respectively. In 50% of the subjects c_max tended to stabilize between the 100 and 200 mg dose. Dose linearity was also present for the AUC, which plateaued between the 100 and 200 mg dose in only 3 out of 20 subjects; the mean AUC was 119, 281, 669 and 1117 ng · ml^–1 · h, respectively. The apparent half-life of elimination appeared to be dose independent, mean values at the increasing dosing levels being 18.7, 19.9, 18,1 and 17.9 h.A similar relationship between the kinetics parameters and dose of the alpidem was observed for the metabolites SL83.0912, SL80.0522 and SL83.0725. The formation of metabolites was not saturated as their AUCs relative to corresponding alpidem AUCs were not dose related.Thus the kinetics of alpidem and its three major metabolites were linear after doses of 25 to 200 mg.The drug was well tolerated by most of the subjects. Sedation and dizziness occurred mainly after the 100 and 200 mg doses.     

Plasma concentrations of isosorbide dinitrate after administration of increasing doses of a sustained-release formulation to human subjects

Plasma concentrations of isosorbide dinitrate have been measured after administration of increasing doses in the range 20--100 mg as sustained-release tablets (Isoket retard) containing 20 mg to human subjects. Means of peak concentrations of 4.2 ng/ml, 13.1 ng/ml, 20.7 ng/ml, 36.8 ng/ml, and 34.9 ng/ml were measured after doses of 20 mg, 40 mg, 60 mg, 80 mg and 100 mg, respectively. In the plasma of individual subjects, peak concentrations of isosorbide dinitrate increased in proportion to the dose administered. Areas under the plasma isosorbide dinitrate concentration-time curves also increased in proportion to the dose administered. Bioavailability parameters were better correlated to the dose over the range 20--60 mg than over the range 20--100 mg.     

Pharmacokinetics of ranitidine in patients with renal failure

The pharmacokinetics of ranitidine were studied in ten patients with renal failure (creatinine clearance, 6-54 mL/min) after intravenous (IV) (50 mg) and oral doses (150 mg). After oral administration, peak plasma concentrations of 378-808 ng/mL were obtained in two to six hours. Plasma concentrations declined very slowly and concentrations greater than 100 ng/mL were obtained for 16 to 20 hours after the dose. The elimination half-life following oral administration was 8.5 +/- 2.8 hours (standard deviation [SD]), and the bioavailability of ranitidine was 43.3% +/- 10.5%. After IV administration, the elimination half-life, plasma clearance, renal clearance, and volume of distribution were 7.0 +/- 1.0 hours, 170 +/- 38 mL/min, 36.0 +/- 25.0 mL/min, and 1.3 +/- 0.4 L/kg, respectively. About 20% of the IV dose and 9% of the oral dose were recovered unchanged in urine. There was a significant correlation between the renal clearance of ranitidine and creatinine clearance (r = .74, P less than .05) after IV administration. The elimination half-life in patients with renal insufficiency is about three times greater than that reported in the literature for healthy subjects. Similarly, the plasma clearance in these patients is about 20% of that reported in healthy subjects. The results indicate that ranitidine elimination is appreciably reduced in renal failure and that an adjustment of dose in patients with renal failure is warranted. A dose of 75 mg bid may be adequate in maintaining the therapeutic plasma concentrations that are required for adequate H2-blocking activity.     

Liquid chromatographic analysis of enviradene, a new antiviral agent, in plasma and its application in bioavailability studies in the dog

A rapid and specific high-performance liquid chromatographic (HPLC) assay has been developed for the determination of enviradene, 1, at concentrations of 2-5 ng/mL in plasma. The drug was extracted from the samples using benzene. The benzene extract was evaporated and the residue dissolved in the mobile phase. The HPLC system consisted of a reversed-phase column and a 75% methanol:25% 0.2 M sodium acetate mobile phase. Either a UV detector set at 268 nm or an electrochemical (EC) detector set at a potential of +0.9 V (versus Ag/AgCl/3 M NaCl) was used to monitor the drug. A column-switching system was used to remove late-eluting plasma constituents that interfered in subsequent chromatograms. The limit of sensitivity was 2 ng/mL for the HPLC-EC procedure and 5 ng/mL for the HPLC-UV procedure. Recovery from plasma was approximately 97%; the procedure had a relative error of approximately 3% and a relative standard deviation of 4.5% over the range of 20-200 ng of 1/mL of plasma. Following intravenous administration of 1 or 2 mg/kg of 1 to dogs, the parent drug was quantitated in plasma for 24 h using this procedure. The terminal phase half-life in plasma was calculated to be 10 h. Oral administration to dogs of single 8 mg/kg doses of 1, formulated with povidone-30 or polysorbate 80 and microcrystalline cellulose, produced high and persistent plasma concentrations of drug. At doses below 2 mg/kg, plasma concentrations were found to be nonlinearly related to the amount of the dose administered. The bioavailability of the drug in dogs was found to be increased by the concomitant administration of food.     

Pharmacokinetics and safety of JTE-522, a novel selective cyclooxygenase-2 inhibitor,in healthy male volunteers

AIMS: The pharmacokinetics and safety profile of JTE-522, 4-(4-cyclohexyl-2 methyloxazol-5-yl)-2-fluorobenzensulphonamide, a novel selective cyclooxygenase-2 inhibitor were investigated in healthy male volunteers. METHODS: Initially, as a pilot study, five groups of two subjects were given oral doses of 3-100 mg of JTE-522. After safety assessment, subjects were given 150 and 200 mg of JTE-522. The effect of food-intake on the pharmacokinetics of JTE-522 at a dose of 150 mg was examined. In the multiple-dose study, subjects were given 150 mg of JTE-522 once a day for 7 days. Concentrations of unchanged JTE-522 in plasma, blood and urine were determined by high performance liquid chromatography (h.p.l.c.). Concentrations of metabolites were estimated with h.p.l.c. chromatograms and calibration curves for quantification of unchanged JTE-522. RESULTS: In the course of this study, no serious abnormality attributable to the test drug was observed, suggesting that JTE-522 was well tolerated in healthy subjects. In a single-dose study, the concentrations of JTE-522 in blood were much higher than the corresponding concentrations in plasma. JTE-522 was readily distributed to blood cells and percentage distribution into blood cells was more than 99.0%. However, the values of Cmax in blood at doses of 100, 150, 200 mg JTE-522 were 15241, 20445 +/- 3918 (16333-24556), 20965 +/- 3260 (17544-24386) ng ml-1, respectively. These findings suggest that JTE-522 has a high affinity for blood cells and the distribution into blood cells is limited at the higher doses of over 100 mg. In a multiple dose study, pharmacokinetic parameters including t1/2 and AUC after the fourth administration were comparable with that of the seventh administration. Thus, these findings suggest the absence of accumulation on the multiple-dosing of JTE-522. CONCLUSIONS: These results indicate that JTE-522 has an acceptable pharmacokinetic profile for clinical use without any serious adverse events as we verified in healthy young male volunteers.     

Pharmacokinetics of Subcutaneous Recombinant Methionyl Human Leptin Administration in Healthy Subjects in the Fed and Fasting States

BACKGROUND: Recombinant methionyl human leptin (r-metHuLeptin) has demonstrated efficacy in improving hormonal and metabolic parameters in leptin-deficient states, and it has been suggested that leptin replacement may reverse metabolic adaptations during weight loss interventions. The pharmacokinetics of subcutaneously administered r-metHuLeptin have been recently published, but whether pharmacokinetic parameters are altered by short-term fasting, adiposity and/or gender has not yet been evaluated. OBJECTIVE: The objective of this study was to characterize pharmacokinetic parameters following subcutaneous r-metHuLeptin administration at doses in the physiological to supra-physiological to pharmacological range in the fed state and during 3-day complete fasting in lean and obese subjects, including both men and women. METHODS: We analysed pharmacokinetic profiles in five lean men, five obese men and five lean women following subcutaneous administration of physiological (0.01 mg/kg), supra-physiological (0.1 mg/kg) and pharmacological (0.3 mg/kg) doses of r-metHuLeptin given once in the fed state and once daily during 3-day complete caloric deprivation (fasting). RESULTS: With r-metHuLeptin administration at 0.01 mg/kg, leptin concentrations ranged up to approximately 7 ng/mL in lean men, approximately 20 ng/mL in obese men and approximately 30 ng/mL in lean women in the fed state. There was a significant effect of 3-day fasting: it decreased baseline leptin concentrations, peak serum concentration (C(max)) and area under the serum concentration-time curve from time zero to infinity (AUC(infinity)) [all p < 0.0001] and increased clearance (p < 0.001), most prominently in lean men (p < 0.0001 across the groups). Administration of r-metHuLeptin at 0.1 mg/kg resulted in leptin concentrations up to approximately 70 ng/mL in lean men, approximately 100 ng/mL in obese men and approximately 150 ng/mL in lean women in the fed state. At this dose, there was a similar effect of fasting on the pharmacokinetic parameters as well as a decrease in the terminal-phase elimination half-life (p = 0.02), consistent with increased clearance, but the effect of fasting was less pronounced overall than with the 0.01 mg/kg dose. With r-metHuLeptin administration at 0.3 mg/kg, leptin concentrations ranged up to approximately 150 ng/mL in lean men, approximately 300 ng/mL in obese men and approximately 400 ng/mL in lean women in the fed state. At this dose, fasting increased clearance to a lesser degree (p = 0.046), mainly in lean men, suggesting that the fasting-induced increase in leptin clearance by the kidneys can plateau. Within each group, the subjects lost approximately 3-4 kg of bodyweight after 3 days of fasting (all p < 0.0001), but the amount and time course of weight loss did not differ according to the dose of r-metHuLeptin administered or the circulating leptin concentrations achieved. CONCLUSIONS: Short-term fasting in healthy individuals results in increased clearance of leptin; this contributes to hypoleptinaemia, which may serve as a signal to increase energy intake in the setting of caloric restriction. Obese individuals with greater energy stores at baseline have a blunted response to the fasting-induced increase in leptin clearance. Also, women have a differential response to fasting, with primarily decreased leptin production rather than increased clearance. These findings and the resulting formulas for calculating doses for r-metHuLeptin administration have important implications for future therapeutic use of r-metHuLeptin in conjunction with hypocaloric diets for the treatment of obesity.     

Sedative and anticonvulsant activities of styrax after oral and intranasal administration in mice

Context: Styrax, resin of Liquidambar orientalis Mill. (N.O. Hamamelaceae), belongs to resuscitation-inducing aromatic herbs in traditional Chinese medicine and functions in inducing resuscitation and restoring conscientiousness.

Objective: The possible sedative and anticonvulsant activities of styrax on CNS were investigated. The onsets of action of two different routes (oral and intranasal administration) were compared.

Materials and methods: Styrax was tested for sedative, hypnotic, and anticonvulsant effects using locomotor activity evaluation, pentobarbital-induced sleeping time, and pentylenetetrazol (PTZ)-induced convulsion, respectively.

Results: After oral administration (25, 50, 100?mg/kg), styrax prolonged the sodium pentobarbital-induced sleeping time. In comparison with oral administration, intranasal administration (12.5, 25, 50?mg/kg) prolonged the sleeping time at lower dosage. Moreover, styrax (100 and 200?mg/kg) promoted a significant protection against PTZ-induced seizures and mortality 30?min after oral administration. In contrast, 5?min after intranasal administration, styrax promoted significant protection at lower dosages (25 and 50?mg/kg). These data show that styrax had faster onset of action (5 vs. 30?min) and better anticonvulsant efficacy (25, 50 vs. 100, 200?mg/kg) by intranasal route in comparison with that by intragastric route. Styrax decreased the spontaneous locomotor movements at 100?mg/kg during 5–60?min interval after oral administration.

Discussion and conclusion: Styrax has sedative and anticonvulsant activities. Furthermore, styrax has faster onset of action as well as more potent efficacy after intranasal administration at lower dosage than by intragastric route. This result illustrates that intranasal administration may act as a promising alternative to conventional routes of administration.     

Pharmacokinetics of sumatriptan nasal spray in adolescents

Sumatriptan is a potent and selective vascular 5-HT1 receptor agonist effective for the treatment of migraine. In adults, intranasal sumatriptan is well absorbed and tolerated. The authors evaluated the pharmacokinetics and tolerability of a single dose of 20 mg intranasal sumatriptan in healthy adolescent migraineurs ages 12 to 17 years, administered outside of migraine attack. Serum sumatriptan levels were measured by high-performance liquid chromatography (HPLC) with electrochemical detection in serial samples collected over 8 hours. Physical exam, vital signs, clinical laboratory tests, and electrocardiogram measurements were monitored to assess safety and tolerability. A total of 16 subjects (10 males and 6 females) had pharmacokinetic data that could be analyzed, 2 withdrew from the study 30 and 60 minutes after dosing following the loss of venous access for blood sampling, and a bioanalysis failure resulted in loss of data from 3 subjects. Noncompartmental pharmacokinetic parameters (geometric mean and 95% confidence interval) for the remaining 16 subjects were as follows: Cmax was 13.9 (11.0, 17.6) ng/mL, AUC infinity was 57.3 (47.6, 69.0) ng/mL.h, and t1/2 was 2.0 (1.8, 2.3) hours. Population pharmacokinetic analysis for all subjects (n = 21) showed that clearance and volume of distribution increase slightly with age and body size, but the changes were minimal and would not warrant dose adjustment: CL/F was 316 L (coefficient of variance [CV] = 25%) and Vd/F was 1070 L (CV = 46%). Sumatriptan was well tolerated with only minor adverse events reported, which all resolved spontaneously. The pharmacokinetic parameters in these adolescent subjects were similar to those previously reported in adults, suggesting that adolescents should be dosed similar to adults.