scholarly journals Interaction between Grapefruit Juice and Praziquantel in Humans

2002 ◽  
Vol 46 (5) ◽  
pp. 1614-1616 ◽  
Author(s):  
Nelly Castro ◽  
Helgi Jung ◽  
Roberto Medina ◽  
Dinora González-Esquivel ◽  
Mario Lopez ◽  
...  
Keyword(s):  
Water Treatment ◽  
Oral Dose ◽  
Single Oral Dose ◽  
Half Life ◽  
Maximum Concentration ◽  
Grapefruit Juice ◽  
Time Curve ◽  
Elimination Half Life ◽  
Concentration Time ◽  
Elimination Half

ABSTRACT After a single oral dose of praziquantel with 250 ml of grapefruit juice, the area under the concentration-time curve and the maximum concentration in plasma of praziquantel (C max) were significantly increased (C max for water treatment, 637.71 ± 128.5 ng/ml; and C max for grapefruit juice treatment, 1,037.65 ± 305.7 ng/ml, P < 0.05). No statistically significant differences were found in the time to maximum concentration of drug in plasma or elimination half-life.

Pharmacokinetics and penetration into inflammatory fluid of trovafloxacin (CP-99,219).

1996 ◽  
Vol 40 (1) ◽  
pp. 47-49 ◽  
Author(s):  
R Wise ◽  
D Mortiboy ◽  
J Child ◽  
J M Andrews
Keyword(s):  
Oral Dose ◽  
Half Life ◽  
Maximum Concentration ◽  
Healthy Male ◽  
Elimination Half Life ◽  
Concentration Time ◽  
Elimination Half ◽  
The Mean ◽  
Systemic Infections ◽  
Mean Time

A single 200-mg oral dose of trovafloxacin (CP-99,219) was given to each of eight healthy male volunteers, and the concentrations of the drug were measured in plasma, cantharides-induced inflammatory fluid, and urine over the subsequent 36 h. The mean maximum concentration observed in plasma was 2.9 micrograms/ml at a mean time of 0.75 h postdose. The mean maximum concentration observed in inflammatory fluid was 1.2 micrograms/ml at 4.0 h postdose. The mean elimination half-life in plasma was 7.8 h. The overall penetration into inflammatory fluid was 64%, as assessed by determining the ratio of the area under the concentration-time curves. Recovery of the dose in urine within the first 36 h postdose was 5.0% of the administered dose. Our results indicate that trovafloxacin, at a dosage of 200 mg once or twice daily, should be adequate for the treatment of systemic infections caused by most common bacterial pathogens.

Diet-induced modulation of pharmacokinetics of albendazole in Sahiwal cattle

2015 ◽  
Vol 90 (5) ◽  
pp. 555-560 ◽  
Author(s):  
P.K. Sanyal ◽  
D. Rawte ◽  
A.E. Kerketta ◽  
N.K. Kumbhakar ◽  
D. Kumar ◽  
...  
Keyword(s):  
Half Life ◽  
Maximum Concentration ◽  
Active Metabolite ◽  
Time Curve ◽  
Active Moiety ◽  
Concentration Time ◽  
Elimination Half ◽  
Green Fodder ◽  
Pre Treatment ◽  
Diet Type

AbstractThe influence of diet type and pre-treatment fasting on the kinetic disposition of albendazole was evaluated in Sahiwal heifers following oral and intra-ruminal administration of the drug. The anthelmintically active moiety albendazole sulphoxide appeared early and was eliminated early in cattle offered green fodder, with decreased maximum concentration (Cmax) and area under concentration–time curve (AUC) when the drug was administered both through oral and intra-ruminal routes. Further, the elimination half-life (t½β) revealed significantly increased values for albendazole sulphoxide in cattle administered albendazole through the intra-ruminal route. An increased AUC and t½β is reflective of increased bioavailability of albendazole in animals offered dry fodder. Increased values (P <  0.05) of Cmax, time to Cmax (Tmax), AUC and t½β for albendazole sulphoxide occurred in cattle with a pre-treatment 24-h fast, resulting in its increased bioavailability. Extrapolation of data of the active metabolite albendazole sulphoxide levels in terms of drug–parasite contact revealed increased exposure of parasites to the drug in cattle administered albendazole through the intra-ruminal route and with 24-h pre-treatment fasting.

scholarly journals Absorption, Metabolism, and Excretion of [14C]Viramidine in Humans

2006 ◽  
Vol 50 (7) ◽  
pp. 2368-2373 ◽  
Author(s):  
Chin-chung Lin ◽  
Christine Xu ◽  
Nanqun Zhu ◽  
Li-Tain Yeh
Keyword(s):  
Carboxylic Acid ◽  
Oral Dose ◽  
Oral Administration ◽  
Single Oral Dose ◽  
Blood Cells ◽  
Maximum Concentration ◽  
Metabolic Profile ◽  
Total Radioactivity ◽  
Time Curve ◽  
Concentration Time

ABSTRACT Absorption, metabolism, and excretion of [14C]viramidine, a prodrug of ribavirin, were studied in humans following a single oral dose (600 mg). Viramidine was rapidly absorbed, with a time to maximum concentration of the drug in plasma of 1.5 h. Viramidine and ribavirin accounted for only 4.3% and 42% of plasma area under the concentration-time curve (AUC) for radioactivity, respectively, indicating extensive conversion of viramidine to ribavirin, followed by further metabolism of ribavirin. The drug was largely trapped in red blood cells (RBC), with an RBC-to-plasma radioactivity AUC0-∞ ratio of 108. Excretion of total radioactivity in urine and feces accounted for 50.8% and 26.1% of the dose, respectively. The metabolic profile in urine (0 to 24 h) indicated that viramidine was excreted primarily as triazole carboxamide (TCONH2), triazole carboxylic acid nucleoside (TCOOH), and ribavirin with a small amount of unchanged viramidine, which each accounted for 64.1%, 17.0%, 15.7%, and 3.2% of urinary radioactivity, respectively. The amounts of unchanged viramidine (3.4% of dose) and ribavirin (10% of dose) in urine were small after oral administration of viramidine.

Efficacy of pharmacokinetic interactions between piperonyl butoxide and albendazole against gastrointestinal nematodiasis in goats

2015 ◽  
Vol 90 (5) ◽  
pp. 624-629 ◽  
Author(s):  
N.K. Kumbhakar ◽  
P.K. Sanyal ◽  
D. Rawte ◽  
D. Kumar ◽  
A.E. Kerketta ◽  
...  
Keyword(s):  
Body Weight ◽  
Half Life ◽  
Maximum Concentration ◽  
Piperonyl Butoxide ◽  
Time Curve ◽  
Concentration Time ◽  
Elimination Half ◽  
Concentration Maximum ◽  
Faecal Egg Count ◽  
Minimum Residence Time

AbstractTo test the hypothesis that modulation of hepatic microsomal sulphoxidation and sulphonation by the cytochrome P450 inhibitor piperonyl butoxide could increase bioavailability of albendazole, the present study was undertaken to understand the pharmacokinetics of albendazole in goats at a dose of 7.5 mg kg− 1 body weight with and without co-administration with piperonyl butoxide at 63.0 mg kg− 1 body weight. Plasma albendazole sulphoxide metabolite, the anthelmintically active moiety, reached its maximum concentration of 0.322 ± 0.045 μg ml− 1 and 0.384 ± 0.013 μg ml− 1 at 18 h and 24 h after administration of albendazole alone and co-administration of albendazole with piperonyl butoxide, respectively. Analysis of the data revealed statistically increased albendazole sulphoxide levels at 24 (P <  0.001), 30 (P <  0.001) and 36 h (P <  0.01) after administration of albendazole with piperonyl butoxide, with statistically increased levels of albendazole sulphone at 24, 30 and 48 h after administration. No significance difference (P > 0.05) in values of maximum concentration (normal and calculated) could be observed between groups of goats. However, values of time to reach the concentration maximum (normal and calculated), area under the concentration–time curve (0–∞ and calculated), minimum residence time, distribution half-life, elimination half-life and total area under the first movement of plasma drug concentration–time curve were significantly higher (P <  0.05) in plasma levels of albendazole sulphoxide in goats following single oral co-administration of albendazole with piperonyl butoxide. The faecal egg count reduction and lower 95% confidence limit for the group treated with albendazole alone were 97 and 68%, while for co-administration of albendazole and piperonyl butoxide the values were 99 and 97%, respectively. The ED50 for egg hatch was 0.196, indicating suspected resistance to benzimidazole anthelmintics. The drug combination proved efficacious against an albendazole-resistant nematode parasite population in goats.

Pharmacokinetics and Inflammatory Fluid Penetration of Clinafloxacin

1998 ◽  
Vol 42 (2) ◽  
pp. 428-430 ◽  
Author(s):  
R. Wise ◽  
S. Jones ◽  
I. Das ◽  
J. M. Andrews
Keyword(s):  
Half Life ◽  
Maximum Concentration ◽  
Healthy Male ◽  
Elimination Half Life ◽  
Concentration Time ◽  
Healthy Male Volunteers ◽  
Elimination Half ◽  
The Mean ◽  
Fluid Penetration ◽  
Mean Time

ABSTRACT A single 200-mg dose of clinafloxacin was given orally to each of nine healthy male volunteers, and the concentrations of the drug were measured in plasma, cantharidin-induced inflammatory fluid, and urine over the following 24 h (48 h in the case of urine). The mean maximum concentration in plasma was 1.34 μg/ml at a mean time of 1.8 h postdose. The mean maximum concentration in the inflammatory fluid was 1.3 μg/ml at 3.8 h postdose. The mean elimination half-life of clinafloxacin in plasma was 5.65 h. The overall penetration into the inflammatory fluid was 93.1%, as assessed by determining the ratio of area under the concentration-time curves. Recovery of clinafloxacin in urine was 58.8% by 24 h and 71.8% by 48 h postdose.

scholarly journals Safety, toleration, and pharmacokinetics of intravenous azithromycin.

1996 ◽  
Vol 40 (11) ◽  
pp. 2577-2581 ◽  
Author(s):  
D R Luke ◽  
G Foulds ◽  
S F Cohen ◽  
B Levy
Keyword(s):  
Half Life ◽  
Active Drug ◽  
Slow Release ◽  
Volume Of Distribution ◽  
Pharmacokinetic Parameters ◽  
Time Curve ◽  
Concentration Time ◽  
Elimination Half ◽  
The Mean ◽  
Male Subjects

To date, the clinical pharmacology of large intravenous doses of azithromycin has not been described. In the present study, single 2-h intravenous infusions of 1, 2, and 4 g of azithromycin were administered to three parallel groups (in each group, six received active drug and two received placebo) of healthy male subjects. Toleration (assessed by scores of subject-administered visual analog scale tests spanning 0 [good] to 10 [poor]), safety, pharmacokinetics, and serum motilin levels were monitored for up to 240 h after the start of each intravenous infusion. Mean nausea scores of 0.0, 0.0, 1.0, and 0.5 and abdominal cramping scores of 0.0, 0.0, 0.4, and 0.4 for 12-h periods after doses of 0, 1, 2, and 4 g of azithromycin, respectively, suggested that azithromycin was well tolerated. Because of the standardized 1-mg/ml infusates, all subjects in the 4-g dosing group complained of an urgent need to urinate. There were no consistent trends in endogenous motilin levels throughout the study. The maximum concentration of azithromycin in serum (10 micrograms/ml after a 4-g dose) and the area under the concentration-time curve (82 micrograms.h/ml after a 4-g dose) were dose related. The mean pharmacokinetic parameters were an elimination half-life of 69 h, total systemic clearance of 10 ml/min/kg, and a volume of distribution at steady state of 33.3 liters/kg. The pharmacokinetic results suggest that the long half-life of azithromycin is due to extensive uptake and slow release of the drug from tissues rather than an inability to clear the drug. Single intravenous doses of up to 4 g of azithromycin in healthy subjects are generally well tolerated, and quantifiable concentrations may persist in serum for 10 days or more.

scholarly journals Interspecies Comparison of Pharmacokinetics of the Novel Triazole Antifungal Agent SYN-2869 and Its Derivatives

2000 ◽  
Vol 44 (4) ◽  
pp. 910-915 ◽  
Author(s):  
Jehangir K. Khan ◽  
Hashem Montaseri ◽  
Marzena Poglod ◽  
Hai-Zhi Bu ◽  
Zhong Zuo ◽  
...  
Keyword(s):  
Oral Dose ◽  
Single Oral Dose ◽  
Half Life ◽  
Animal Species ◽  
Intravenous Dose ◽  
Single Intravenous Dose ◽  
Sprague Dawley ◽  
Time Curve ◽  
Toxicological Evaluation ◽  
Significant Difference

ABSTRACT The pharmacokinetics and distribution in tissue of several novel triazole antifungal agents were studied in different animal species in order to select an appropriate lead compound. The purpose of the study was also to determine species differences in pharmacokinetics for SYN azoles to select the most appropriate species for secondary efficacy and toxicological evaluation of the selected compound. SYN-2836, SYN-2869, SYN-2903, and SYN-2921 were rapidly absorbed into the systemic circulation and reached maximum concentrations (C maxs) of 7.31 ± 2.53, 6.29 ± 0.85, 6.16 ± 0.39, and 3.41 ± 0.34 μg/ml, respectively, in BALB/c mice after administration of an oral dose of 50 mg/kg of body weight, with bioavailability being greater than 45% in all mice. The areas under the concentration-time curve from time zero to infinity (AUC0–∞s) after administration of a single intravenous dose of 20 mg/kg to mice varied between 25.0 and 63.6 μg · h/ml. The half-life was in the range of 4.5 to 6 h. In Sprague-Dawley rats there was no significant difference in AUC0–∞ after administration of a single intravenous dose of 20 mg/kg, but on oral administration, the bioavailability of SYN-2836 was extremely low, while that of SYN-2869 was only 14.7%. In New Zealand White rabbits the C max and the time to reach C max for SYN-2836 and SYN-2869 after administration of a single oral dose of 50 mg/kg were similar. There were significant differences in AUC0–∞ and half-life between SYN-2836 and SYN-2869. On the other hand, in beagle dogs theC max and AUC0–∞ of SYN-2836 after administration of a single oral dose of 30 mg/kg were 4.82 ± 1.54 μg/ml and 41.8 ± 15.7 μg · h/ml, respectively, which were threefold higher than those of SYN-2869. The concentrations of the SYN compounds in tissue indicated that the AUC0–∞s of SYN-2836, SYN-2869, SYN-2903, and SYN-2921 in mouse lungs were significantly different from each other. The ratios of the concentrations of the SYN azoles in lungs to those in plasma were also significantly different from those for itraconazole. Among the SYN azoles the highest concentration in the lungs was found for SYN-2869. The higher level of distribution of SYN-2869 into lung tissue was considered to contribute to the potent efficacy in respiratory tract infection models compared with the potency of itraconazole. Significant differences in the pharmacokinetics of these compounds were observed in different animal species, and selection of an animal model for further evaluation was based on results obtained from these studies.

Phase I and Pharmacokinetic Study of Temozolomide on a Daily-for-5-Days Schedule in Patients With Advanced Solid Malignancies

1999 ◽  
Vol 17 (8) ◽  
pp. 2604-2604 ◽  
Author(s):  
Lisa A. Hammond ◽  
John R. Eckardt ◽  
Sharyn D. Baker ◽  
S. Gail Eckhardt ◽  
Margaret Dugan ◽  
...  
Keyword(s):  
Oral Dose ◽  
Single Oral Dose ◽  
Hematologic Toxicity ◽  
Targeted Therapeutics ◽  
Time Curve ◽  
Concentration Time ◽  
Solid Malignancies ◽  
Cumulative Rate ◽  
Heavily Pretreated ◽  
Higher Doses

PURPOSE: To determine the principal toxicities, characterize the pharmacokinetics (PKs) and pharmacodynamics (PDs) of temozolomide (TMZ) on a daily-for-5-days schedule, and recommend a dose for subsequent disease-directed studies in both minimally pretreated (MP) and heavily pretreated (HP) patients. PATIENTS AND METHODS: Patients received TMZ as a single oral dose daily for 5 consecutive days every 28 days. TMZ doses were escalated from 100 to 150, and 150 to 200 mg/m2/d in separate cohorts of MP and HP patients. PK plasma was sampled on days 1 and 5. TMZ concentrations were analyzed and pertinent PK parameters were related to the principal toxicities of TMZ in PD analyses. RESULTS: Twenty-four patients were treated with 85 courses of TMZ. Thrombocytopenia and neutropenia were the principal dose-limiting toxicities (DLTs) of TMZ on this schedule. The cumulative rate of severe myelosuppressive effects was unacceptably high at TMZ doses exceeding 150 mg/m2/d in both MP and HP patients. TMZ was absorbed rapidly with maximum concentrations achieved in 0.90 hours, on average, and elimination was rapid, with a half-life and systemic clearance rate (ClS/F) averaging 1.8 hours and 115 mL/min/m2, respectively. When clearance was normalized to body-surface area (BSA), interpatient variability in ClS/F was reduced from 20% to 13% on day 1 and from 16% to 10% on day 5. Patients who experienced DLT had significantly higher maximum drug concentration (median 16 v 9.5 μg/mL, P = .0084) and area under the concentration-time curve (median 36 v 23 μg-h/mL, P = .0019) values on day 5. CONCLUSION: Prior myelosuppressive therapy was not a determinant of toxicity. TMZ 150 mg/m2/d administered as a single oral dose daily for 5 days every 4 weeks is well tolerated by MP and HP patients, with higher doses resulting in unacceptably high rates of severe hematologic toxicity. TMZ doses should be individualized according to BSA rather than use of a prespecified oral dose for all individuals. TMZ is an optimal agent to develop in combination with other cytotoxic, biologic, and targeted therapeutics for patients with relevant malignancies.

Clarithromycin Elevates the Plasma Concentration of Lenalidomide Via Inhibition of MDR1

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 3479-3479 ◽  
Author(s):  
Naoki Takezako ◽  
Masatomo Miura ◽  
Akihisa Nagata ◽  
Naohiro Sekiguchi ◽  
Takenori Niioka ◽  
...  
Keyword(s):  
Small Intestine ◽  
Plasma Concentration ◽  
Blood Concentration ◽  
Half Life ◽  
Maximum Concentration ◽  
The Other ◽  
Efflux Transporter ◽  
Elimination Half Life ◽  
Other Hand ◽  
Elimination Half

Abstract Background: Multiple myeloma is still lethal disease. However, the prognosis of this disease has been improving according to the administration of novel agents. Among of these novel agents, lenalidomide is confirmed the validity of consolidation-maintenance setting by a randomized controlled study. The combination of clarithromycin, lenalidomide and dexamethasone (BiRd) has led to highly durable responses in newly diagnosed myeloma (Rossi A et al 2013). However, mechanism of clarithromycin against myeloma cells is not still clear. It is believed that clarithromycin increases the area under the curve and maximum concentration levels of corticosteroids. On the other hand, clarithromycin has an ability to interact with human MDR1 (ATP-binding Cassette Sub-family B Member 1 (ABCB1), P- glycoprotein). Furthermore, lenalidomide is a substrate of MDR1, a membrane efflux transporter ubiquitously expressed in human tissues, such as the small intestine, whose activity could decrease the bioavailability of lenalidomide. Therefore, we examined whether blood concentration of lenalidomide would change with the existence of clarithromycin. Aim: To investigate whether blood concentration of lenalidomide would change with the existence of clarithromycin. Method: Lenalidomide 15 mg (Revlimid; Celgene Corporation, Tokyo, Japan) was orally administered once daily at 08:00 hours according to the recommendations (day1-21) of a 28-day cycle. Dexamethasone (20mg) was administrated on day 1,8,15, and 22. Orally, from day 8 to 21, Clarithromycin 400mg was administrated twice daily. On day 7and 14 of Bird therapy, whole-blood samples were collected just before oral lenalidomide administration, and at 1, 2, 4, and 6 hours thereafter. Pharmacokinetic analysis of lenalidomide was carried out using the standard non-compartmental method using WinNonlin (version 5.2; Pharsight Co, Mountain View, CA). The elimination half-life was calculated from the log-linear regression of the terminal phase of the concentration–time curve using at least 3 sampling points (elimination half-life = ln2/ke; ke = elimination rate constant). The total AUC was calculated using the linear trapezoidal rule. Results: Twenty five patients, who were obtained written informed consent, were enrolled in this study from April 2012 to June 2014. Mean plasma lenalidomide concentrations are shown in Figure 1. According to administration of clarithromycin, plasma concentrations of lenalidomide elevated at 2, 3, and 4 hour, respectably (p=0.045, p=0.039, p=0.042). Furthermore, baseline plasma concentration of lenalidomide was not affected by administration of clarithromycin (p=0.132). On the other hand, AUC24 were not affected by addition of clarithromycin (p=0.213) (Figure 2). In some patients, blood concentration of lenalidomide extremely increased administration of clarithromycin. These patients had wild type of ABCB1, C3435T genotype (C/C) (p=0.036). The other patients who were moderate affected to clarithromycin administration were mutated types (C/T or T/T). Nineteen patients obtained at least VGPR (sCR (9), VGPR (10)). The major adverse event (AE) was skin rush; however, it was manageable, except one patient (Grade 3). Hematological AEs were well tolerable (i.e. Grade 1 or 2, thrombocytopenia). No patient died during BiRd therapy. Discussion: In MM-001 trial, lenalidomide led anti-MM response according to dose dependent manner (Richardson P, et al. 2002). In addition, hematological AEs, especially thrombocytopenia were significant related to AUC24 (p<0.001). Our trial revealed that administration of clarithromycin led to elevate the maximum concentration of lenalidomide acceding to raising the absorption via inhibition of MDR1. On the other hand, administration of clarithromycin did not affect to the baseline plasma concentration of lenalidomide, so we considered that administration of clarithromycin did not affect to renal excretion. For this reason, if the renal function was sufficient, lenalidomide was excreted immediately to urine, so, AUC24 might not rise and toxicities might be tolerable. In conclusion, clarithromycin inhibits MDR1 which is a membrane efflux transporter expressed in the small intestine and raise absorption of lenalidomide. Further studies are warranted. Figure 1 Figure 1. Figure 2 Figure 2. Disclosures No relevant conflicts of interest to declare.

scholarly journals Pharmacokinetics of Tinidazole in Chinese subjects: Comparison of Mongolian, Korean, Hui, Uighur and Han nationalities

2009 ◽  
Vol 12 (2) ◽  
pp. 175 ◽  
Author(s):  
Xin-Yu Chang ◽  
Tao Guo ◽  
Dong-Ya Xia
Keyword(s):  
Oral Dose ◽  
Single Oral Dose ◽  
Half Life ◽  
Peak Plasma ◽  
Peak Plasma Concentration ◽  
Elimination Rate ◽  
Area Under The Curve ◽  
Elimination Half ◽  
Pharmacokinetic Properties ◽  
Chinese Subjects

ABSTRACT - Purpose. This study investigated the pharmacokinetics of tinidazole in subjects of five different Chinese nationalities (Han, Mongolian, Korean, Hui, and Uighur). Methods. Fifty healthy subjects (five male and five female of each nationality) were recruited for the study, and each received 1 g tinidazole. A total of 14 blood samples were collected over a 72-hour period after administration. Results. Pharmacokinetic profiles, including area under the curve from time zero to infinity (AUC0-inf), peak plasma concentration (Cmax), time to reach Cmax (tmax), oral clearance (CL/F), elimination rate constant (Ke), and elimination half-life (t1/2), were determined following a single oral dose of tinidazole. The respective pharmacokinetic properties of Han, Mongolian, Korean, Hui, and Uighur nationalities were: half-life (h): 16.94±2.40, 16.40±1.79, 16.63±1.82, 16.81±1.56, 14.34±1.92; Cmax (μg/mL): 19.04±2.42, 19.22±4.93, 20.83±3.33, 20.25±4.05, 18.81±3.10; AUC0-inf (h•μg/mL): 483.13±65.65, 479.70±99.74, 511.07±53.47, 514.25±130.78, 388.58±37.37. The t1/2 and AUC0-inf of Uighur subjects were significantly lower (p =0.023, 0.011) and the CL/F and Ke were significantly higher (p = 0.003, 0.013) than those of other nationalities. After normalization by weight, the differences in AUC0-inf and CL/F between Uigur subjects and those of other races were still significant. Conclusions. The results indicate that ethnicity had significant impact on the pharmacokinetics of tinidazole after a single oral dose in healthy volunteers of different nationalities in China.

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