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1.
Wasfi IA Abdel Hadi AA Elghazali M Boni NS Alkatheeri NA Barezaig IM Al Muharami AM Hamid AM 《Journal of veterinary pharmacology and therapeutics》2000,23(3):145-152
The pharmacokinetics of tripelennamine (T) was compared in horses (n = 6) and camels (n = 5) following intravenous (i.v.) administration of a dose of 0.5 mg/kg body weight. Furthermore, the metabolism and urinary detection time was studied in camels. The data obtained (median and range in brackets) in camels and horses, respectively, were as follows: the terminal elimination half-lives were 2.39 (1.91-6.54) and 2.08 (1.31-5.65) h, total body clearances were 0.97 (0.82-1.42) and 0.84 (0.64-1.17)L/h/kg. The volumes of distribution at steady state were 2.87 (1.59-6.67) and 1.69 (1.18-3.50) L/kg, the volumes of the central compartment of the two compartment pharmacokinetic model were 1.75 (0.68-2.27) and 1.06 (0.91-2.20) L/kg. There was no significant difference (Mann-Whitney) in any parameter between camels and horses. The extent of protein binding (mean +/- SEM) 73.6 + 8.5 and 83.4 +/- 3.6% for horses and camels, respectively, was not significantly statistically different (t-test). Three metabolites of T were identified in urine samples of camels. The first one resulted from N-depyridination of T, with a molecular ion of m/z 178, and was exclusively eliminated in conjugate form. This metabolite was not detected after 6 h of T administration. The second metabolite, resulted from pyridine ring hydroxylation, had a molecular ion of m/z 271, and was also exclusively eliminated in conjugate form. This metabolite could be detected in urine sample for up to 12 h after T administration. The third metabolite has a suspected molecular ion of m/z 285, was eliminated exclusively in conjugate form and could be detected for up to 24 h following T administration. T itself could be detected for up to 27 h after i.v. administration, with about 90% of eliminated T being in the conjugated form. 相似文献
2.
Wasfi IA Al Ali WA Agha BA Kamel AM Al Biriki NA Al Neaimi KM 《Journal of veterinary pharmacology and therapeutics》2012,35(2):155-162
The pharmacokinetics and metabolism of meloxicam was studied in camels (Camelus dromedarus) (n = 6) following intravenous (i.v.) administration of a dose of 0.6 mg·kg/body weight. The results obtained (mean ± SD) were as follows: the terminal elimination half-life (t(1/2β) ) was 40.2 ± 16.8 h and total body clearance (Cl(T) ) was 1.94 ± 0.66 mL·kg/h. The volume of distribution at steady state (V(SS)) was 92.8 ± 13.7 mL/kg. One metabolite of meloxicam was tentatively identified as methylhydroxy meloxicam. Meloxicam and metabolite were excreted unconjugated in urine. Meloxicam could be detected in plasma 10 days following i.v. administration in camels using a sensitive liquid chromatography tandem mass spectrometry (LC/MS/MS) method. 相似文献
3.
Wasfi Elghazali Boni Hadi Alhadrami Almuhrami Alkatheeri Barezaiq Agha & Wajid 《Journal of veterinary pharmacology and therapeutics》1999,22(4):255-260
The pharmacokinetics of theophylline were determined after an intravenous (i.v.) dose of 2.36 mg/kg in six camels and 4.72 mg/kg body weight in three camels. The data obtained (median and range) for the low and high dose, respectively, were as follows: the distribution half-lives (t1/2 alpha) were 1.37 (0.64-3.25) and 2.66 (0.83-3.5) h, the elimination half-lives (t1/2 beta) were 11.8 (8.25-14.9) and 10.4 (10.0-13.5) h, the steady state volumes of distribution (Vss) were 0.88 (0.62-1.54) and 0.76 (0.63-0.76) L/kg, volumes of the central compartment (Vc) were 0.41 (0.35-0.63) and 0.51 (0.36-0.52) L/kg, total body clearances (Clt) were 62.3 (39.4-97.0) and 50.2 (47.7-67.4) mL/h.kg body weight and renal clearance (Vr) for the low dose was 0.6 (0.42-0.96) mL/h.kg body weight. There was no significant difference in the pharmacokinetic parameters between the two doses. Theophylline protein binding at a concentration of 5 micrograms/mL was 32.2 +/- 3.3%. Caffeine was identified as a theophylline metabolite but its concentration in serum and urine was small. Based on the pharmacokinetic values obtained in this study, a dosage of 7.5 mg/kg body weight administered by i.v. injection at 12 h intervals can be recommended. This dosing regimen should achieve an average steady state serum concentration of 10 micrograms/mL with peak serum concentration not exceeding 15 micrograms/mL. 相似文献
4.
The pharmacokinetics of ketoprofen were determined after an intravenous (i.v.) and intramuscular (i.m.) dose of 2.0 mg/kg body weight in five camels (Camelus dromedarius) using gas chromatography/mass spectrometry (GC/MS). The data obtained (median and range) following i.v. administration was as follows: the elimination half-life (t(1/2beta)) was 4.16 (2.65-4.29) h, the steady state volume of distribution (Vss) was 130.2 (103.4-165.3) mL/kg, volume of distribution (area method) (Vd(area)) was 321.5 (211.4-371.0) mL/kg, total body clearance (Cl) was 1.00 (0.88-1.08) mL/min x kg and renal clearance was 0.01 (0.003-0.033) mL/min x kg. Following i.m. administration, the drug was rapidly absorbed with peak serum concentration of 12.2 (4.80-14.4) microg/mL at 1.50 (1.00-2.00) h. The systemic availability of ketoprofen was complete. The apparent half-life was 3.28 (2.56-4.14) h. A hydroxylated metabolite of ketoprofen was identified by (GC/MS) under electron impact (EI) and chemical ionization (CI) scan modes. The detection times for ketoprofen and hydroxy ketoprofen in urine after an intravenous (i.v.) dose of 3.0 mg/kg body weight was 24.00 and 70.00 h, respectively. Serum protein binding of ketoprofen at 20 microg/mL was extensive; (99.1+/-0.15%). 相似文献
5.
Elghazali M Barezaik IM Abdel Hadi AA Eltayeb FM Al Masri J Wasfi IA 《Veterinary journal (London, England : 1997)》2008,178(2):272-277
The pharmacokinetics of tramadol in camels (Camelus dromedarius) were studied following a single intravenous (IV) and a single intramuscular (IM) dose of 2.33 mg kg(-1) bodyweight. The drug's metabolism and urinary detection time were also investigated. Following both IV and IM administration, tramadol was extracted from plasma using an automated solid phase extraction method and the concentration measured by gas chromatography-mass spectrometry (GC/MS). The plasma drug concentrations after IV administration were best fitted by an open two-compartment model. However a three-compartment open model best fitted the IM data. The results (means+/-SEM) were as follows: after IV drug administration, the distribution half-life (t(1/2)(alpha)) was 0.22+/-0.05 h, the elimination half-life (t(1/2)(beta)) 1.33+/-0.18 h, the total body clearance (Cl(T)) 1.94+/-0.18 L h kg(-1), the volume of distribution at steady state (Vd(ss)) 2.58+/-0.44 L kg(-1), and the area under the concentration vs. time curve (AUC(0-infinity)) 1.25+/-0.13 mg h L(-1). Following IM administration, the maximal plasma tramadol concentration (C(max)) reached was 0.44+/-0.07 microg mL(-1) at time (T(max)) 0.57+/-0.11h; the absorption half-life (t(1/2 ka)) was 0.17+/-0.03 h, the (t(1/2)(beta)) was 3.24+/-0.55 h, the (AUC(0-infinity)) was 1.27+/-0.12 mg h L(-1), the (Vd(area)) was 8.94+/-1.41 L kg(-1), and the mean systemic bioavailability (F) was 101.62%. Three main tramadol metabolites were detected in urine. These were O-desmethyltramadol, N,O-desmethyltramadol and/or N-bis-desmethyltramadol, and hydroxy-tramadol. O-Desmethyltramadol was found to be the main metabolite. The urinary detection times for tramadol and O-desmethyltramadol were 24 and 48 h, respectively. The pharmacokinetics of tramadol in camels was characterised by a fast clearance, large volume of distribution and brief half-life, which resulted in a short detection time. O-Desmethyltramadol detection in positive cases would increase the reliability of reporting tramadol abuse. 相似文献
6.
Pharmacokinetics, metabolism and urinary detection time of flunixin after intravenous administration in camels 总被引:4,自引:0,他引:4
I.A. Wasfi N.S. Boni A.A. Abdel Hadi M. ElGhazali O. Zorob N.A. Alkatheeri & I.M. Barezaiq 《Journal of veterinary pharmacology and therapeutics》1998,21(3):203-208
The pharmacokinetics of flunixin were determined after an intravenous dose of 1.1 mg/kg body weight in six camels and 2.2 mg/kg body weight in four camels. The data obtained (mean ± SEM) for the low and high dose, respectively, were as follows:
The elimination half-lives ( t½β ) were 3.76 ± 0.24 and 4.08 ± 0.49 h, the steady state volumes of distribution ( V dss ) were 320.61 ± 38.53 and 348.84 ± 35.36 mL/kg body weight, total body clearances ( Cl T ) were 88.96 ± 6.63 and 84.86 ± 4.95 mL/h/kg body weight and renal clearances ( Cl r ) were 0.52 ± 0.09 and 0.62 ± 0.18 mL/h/kg body weight. A hydroxylated metabolite of flunixin was identified by gas chromatography/mass spectrometry (GC/MS) under electron and chemical ionization and its major fragmentation pattern was verified by tandem mass spectrometry (GC/MS/MS) using neutral loss, daughter and parent scan modes. The detection times for flunixin and its hydroxylated metabolite in urine after an intravenous (i.v.) dose of 2.2 mg/kg body weight were 96 and 48 h, respectively. 相似文献
The elimination half-lives ( t
7.
R. GAVRIELLI R. YAGIL† G. ZIV‡ C.V. CREVELD† A. GLICKMAN‡ 《Journal of veterinary pharmacology and therapeutics》1995,18(5):333-339
Concentrations of enrofloxacin equivalent activity were determined (by microbiological assay) in the serum of normal camels and camels at the end of a 14-day water-deprivation period following single intravenous (i.v.), intramuscular (i.m.) and subcutaneous (s.c.) administrations at 2.5 mg/kg. Also, normal camels were given an oral drench of the drug at 5 mg/kg. Pharmacokinetic variables were determined using compartmental and non-compartmental analytical methods. Camels lost on average 12.5% of body weight at the end of the water-deprivation period. The disposition kinetics of i.v. administered drug in normal and water-deprived camels were very similar. The t1/2β was 3.0–3.5 h; MRT was 4.0–4.5 h; Ve was 0.3 L/kg; V38 was 1.0 L/kg and Cl8 was 4.0–4.6 mL/min/kg. The effect of water deprivation on the rate of drug absorption and elimination after i.m. administration was inconsistent, and there was also a large degree of variability in the normal animals that precluded statistical significance. After s.c. administration, the mean absorption half-life (t1/2she in the water-deprived camels was significantly longer than in the normal camels. Systemic availability (F) was similar in both normal and water-deprived camels after i.m. dosing but was significantly greater (P < 0.05) in normal camels (0.92 compared with 0.65 in water-deprived camels) after s.c. treatment In normal camels, urinary recovery at 12 h after l.v. and s.c. dosing was 25% and 15%, respectively, and the extent of serum protein binding ranged between 1.7% at 1.8 μg/mL and 24% at 0.33 μg/mL. The drug was not detected in serum after oral administration. Serum and milk enrofloxacin equivalent activities were determined after i.v. (one camel) and i.m. (one camel) drug administration. Serum drug concentrations were consistently higher than in the milk. The AUCmilk/AUCserust ratios were 0.27 and 0.39 after i.v. and i.m. drug administration, respectively. An i.m. or s.c. treatment regimen of 2.5 mg/kg q. 12 h is suggested for clinical and bacteriological efficacy trials with enrofloxacin in normally hydrated and dehydrated camels. 相似文献
8.
Wasfi IA Abdel Hadi AA Elghazali M Alkateeri NA Hussain MM Hamid AM 《Veterinary research communications》2003,27(6):463-473
The pharmacokinetics of diphenhydramine (DPHM) was compared in camels (n = 8) and horses (n = 6) following intravenous (i.v.) administration of a dose of 0.625 mg/kg body weight. In addition, the metabolism and urinary detection time of DPHM was evaluated in camels. The data obtained (median and range in brackets) in camels and horses, respectively, were as follows. The terminal elimination half lives (h) were 1.58 (1.13–2.58) and 6.11 (4.80–14.1), and the total body clearances (L/h per kg) were 1.42 (1.13–1.74) and 0.79 (0.66–0.90). The volumes of distribution at steady state (L/kg) were 2.38 (1.58–4.43) and 5.98 (4.60–8.31) and the volumes of the central compartment of the two compartment pharmacokinetic model were 1.58 (0.80–2.54) and 2.48 (1.79–3.17). All the pharmacokinetic parameters in camels were significantly different from those of horses. Five metabolites of DPHM were tentatively identified in the camel's urine. Two metabolites, diphenylmethoxyacetic acid and 1-(4-hydroxyphenyl)-phenylmethoxyacetic acid, were present in the acid fraction. Two metabolites, desamino-DPHM and diphenylmethanol, were identified in the basic fraction, in addition to DPHM itself, which was present mainly as a conjugate. Even after enzymatic hydrolysis, DPHM could be detected for up to 24 h in camels after an i.v. dose of 0.625 mg/kg body weight. 相似文献
9.
The pharmacokinetics and pharmacodynamics of dexamethasone were studied in six male and six female camels after a single intravenous dose (0.05 mgkg(-1) body weight) of dexamethasone. The pharmacokinetic parameters of the two-compartment pharmacokinetic model for female and male camels, respectively (mean+/-SEM) were as follows: terminal elimination half-lives were 8.02+/-1.15 and 7.33+/-0.80 h, total body clearances were 95.5+/-16.0 and 124.5+/-11.9 ml h(-1) per kg, volumes of distribution at steady state were 0.72+/-0.08 and 0.87+/-0.14 litre kg(-1), and the volumes of the central compartment were 0.12+/-0.02 and 0.17+/-0.02 litre kg(-1). There was no significant difference in any pharmacokinetic parameter between female and male camels. Pharmacodynamic effects were evaluated by measuring endogenous plasma cortisol, circulating lymphocytes and neutrophils numbers and were analysed using indirect pharmacokinetic/pharmacodynamic models. The estimated IC50 of dexamethasone for cortisol and lymphocytes for female and male camels were 3.74+/-0.99 and 2.28+/-1.09 and 2.63+/-0.71 and 2.41+/-0.79 ng ml(-1), respectively. The EC50 for neutrophils for female and male camels were 24.5+/-5.83 and 20.2+/-3.82 ng ml(-1), respectively. There was no significant difference in any pharmacodynamic parameter between female and male camels. Dexamethasone in urine could be detected for 4-5 days by enzyme-linked immunosorbent assay and for 3-4 days by liquid chromatography/mass spectrometry after an intravenous dose of 0.05 mg kg(-1) body weight. 相似文献
10.
Wasfi IA Hussain MM Elghazali M Alkatheeri NA Abdel Hadi AA 《Veterinary journal (London, England : 1997)》2003,166(3):563-283
The pharmacokinetics of diclofenac was studied in camels (Camelus dromedarus) (n=6) following intravenous (i.v.) administration of a dose of 2.5 mg kg(-1) body weight. The metabolism and urinary detection time were also studied. The results obtained (median and range) were as follows: the terminal elimination half-life (t(1/2beta)) was 2.35 (1.90-2.73)h, total body clearance (Cl(T)) was 0.17 (0.16-0.21)lh kg(-1). The volume of distribution at steady state (V(SS)) was 0.31 (0.21-0.39)l(-1)kg(-1), the volume of the central compartment of the two compartment pharmacokinetic model (V(C)) was 0.15 (0.11-0.17)l kg(-1). Five metabolites of diclofenac were tentatively identified in urine and were excreted mainly in conjugate form. The main metabolite was identified as hydroxy diclofenac. Both diclofenac and hydroxy diclofenac, appear to be the main elimination route for diclofenac when administered i.v. in camels. Diclofenac could be identified up to 4 days following i.v. administration in camels using a sensitive gas chromatography/mass spectrometry (GC/MS) method. 相似文献
11.
Elsheikh HA Ali BH Zahurin M Mustafa AM Alhadrami G Bashir AK 《Journal of veterinary medicine. A, Physiology, pathology, clinical medicine》2001,48(10):581-586
A comparative randomized crossover study was conducted to determine the pharmacokinetics of theophylline in male and female camels (Camelus dromedarius) and goats (Caprus hircus). Theophylline is an established 'probe drug' to evaluate the drug metabolizing enzyme activity of animals. It was administered by the intravenous (i.v.) route and then intramuscularly (i.m.) at a dose of 2 mg/kg. The concentration of the drug in plasma was measured using a high-performance liquid chromatography (HPLC) technique on samples collected at frequent intervals after administration. Following i.v. injection, the overall elimination rate constant (lambda z,) in goats was 0.006 +/- 0.00076/min and in camels was 0.0046 +/- 0.0008/min (P < 0.01). The elimination half-life (t 1/2 lambda z) in goats (112 .7 min) was lower than in camels (154.7 min) (P < 0.01). The apparent volume of distribution (Vz) and the total body clearance (Cl) in goats were 1440.1 +/- 166.6 ml/kg and 8.9 +/- 1.4 ml/min/kg, respectively. The corresponding values in camels were 1720.3 +/- 345.3 ml/kg and 6.1 +/- 1.0 ml/min/kg, respectively. After i.m. administration, theophylline reached a peak plasma concentration (Cmax) of 1.8 +/- 0.1 and 1.7 +/- 0.2 microg/ml at a post-injection time (Tmax) of 67.5 +/- 8.6 and 122.3 +/- 6.7 min in goats and camels, respectively. The mean bioavailability (T) in both goats and camels was 0.9 +/- 0.2. The above data suggest that camels eliminate theophylline at a slower rate than goats. 相似文献
12.
Ismail M 《Journal of veterinary pharmacology and therapeutics》2005,28(6):499-503
The pharmacokinetics of cefepime were studied following i.v. and i.m. administration of 20 mg/kg in 10 ewes. Following i.v. administration of a single dose, the plasma concentration-time curves of cefepime were best fitted using a two-compartment open model. The elimination half-life (t(1/2beta)) was 1.76 +/- 0.07 h, volume of distribution at steady-state [V(d(ss))] was 0.32 +/- 0.01 L/kg and total body clearance (Cl(B)) was 2.37 +/- 0.05 mL/min.kg. Following i.m. administration, the drug was rapidly absorbed with an absorption half-life (t(1/2ab)) of 0.49 +/- 0.05 h, maximum plasma concentration (Cmax) of 31.9 +/- 1.5 mug/mL was attained at (tmax) 1.1 +/- 0.2 h and the drug was eliminated with an elimination half-life (t(1/2el)) of 2.06 +/- 0.11 h. The systemic bioavailability (F) after i.m. administration of cefepime was 86.8 +/- 7.5%. The extent of plasma protein binding measured in vitro was 14.8 +/- 0.54%. The drug was detected in urine for 36 h postadministration by both routes. 相似文献
13.
Wasfi IA Boni NS Elghazali M Abdel Hadi AA Almuhrami AM Barezaig IM Alkatheeri NA 《Research in veterinary science》2000,69(1):69-74
The pharmacokinetics of caffeine were determined in 10 camels after an intravenous dose of 2.35 mg kg(-1). The data obtained (median and range) were as follows. The elimination half-life (t(1/2)) was 31.4 (21.2 to 58.9) hours, the steady state volume of distribution (V(SS)) was 0.62 (0.51 to 0.74) litre kg(-1)and the total body clearance (Cl(T)) was 14.7 (8.70 to 19.7) ml kg(-1)per hour. Renal clearance estimated in two camels was 0.62 and 0.34 ml kg(-1)per hour. In vitro plasma protein binding (mean +/-SEM, n = 10) to a concentration of 2 and 8 microg ml(-1)was 36.0 +/- 0.24 and 39.2 +/- 0.36 per cent respectively. Theophylline and theobromine were identified as caffeine metabolites in serum and urine. The terminal elimination half-life of the former, estimated in two camels, was 70. 4 and 124.4 hours. Caffeine could be detected in the urine for 14 days. 相似文献
14.
Al Katheeri NA Wasfi IA Lambert M Saeed A Khan IA 《Journal of veterinary pharmacology and therapeutics》2000,23(3):137-143
The pharmacokinetics of ketoprofen (KP) enantiomers were studied in ten female and eight male camels after a single intravenous dose (2.0 mg/kg) of racemic KP. A high performance liquid chromatographic (HPLC) method was developed for the quantitation of the R- and S-enantiomers without derivatization of the samples using a S,S-Whelk-01 chiral stationary phase column. The data collected (median and range) were as follows: the areas under the curve to infinity (AUC) (microg/mL per h) were 22.4 (13.5-29.7) and 19.8 (13.8-22.1) for R- and S-KP, respectively, in female camels while the corresponding values in male camels were 16.0 (12.9-22.4) and 14.4 (11.0-19.3). In both sexes, the AUC for the R-enantiomer was significantly larger than that of the S-enantiomer. Total body clearances (Cl(t)) were 44.6 (33.7-74.1) and 50.6 (45.2-72.4) mL/kg per h for R- and S-KP, respectively, in female camels and were 62.8 (44.6-77.8) and 69.6 (51.8-91.1) mL/kg per h for R- and S-KP, respectively, in male camels. In both sexes of camels, the Cl(t) values for R-KP were significantly lower than its corresponding antipode. The steady-state volumes of distribution (Vss) were 97.9 (82.8-147.2) and 102.0 (90.1-169.0) mL/kg for R- and S-KP, respectively, in female camels and were significantly different from each other, while the respective values in male camels were 151.5 (105.3-222.3) and 154.0 (114.7-229.0) mL/kg but were not significantly different from each other. The volumes of distribution (area) followed a similar pattern, where the values for R- and S-KP in female camels were 118.5 (95.6-195.2) and 137.6 (115.8-236.2) mL/kg, respectively, and the respective values in male camels were 215.6 (119.1-270.1) and 229.1 (143.3-277.4) mL/kg. The elimination half-lives (t1/2beta) were 1.88 (1.42-2.34) h and 1.83 (1.67-2.26) h for R- and S-KP, respectively, in female camels and were significantly different from each other, while the corresponding values in male camels were 2.11 (1.50-4.20) and 2.33 (1.52-3.83) h for R and S-KP, respectively, but were not significantly different from each other. The mean residence time followed a similar pattern. All pharmacokinetic parameters for R- and S-KP in female camels were significantly different from their corresponding values in male camels. The extent of protein binding for R- and S-KP was evaluated in vitro by ultrafiltration. The extents of protein binding for R- and S-KP were not significantly different from each other when each enantiomer was supplemented separately. However, when the enantiomers were supplemented together, protein binding of R-KP was significantly higher than that of S-KP in female but not in male camels. 相似文献
15.
G. ZIV C.V. CREVELD† Z. BEN-ZVI† A. GLICKMAN R. YAGIL† 《Journal of veterinary pharmacology and therapeutics》1995,18(4):299-305
The disposition kinetics of tylosin tartrate administered intravenously (i.v.) at 10 mg/kg and intramuscularly (i.m.) at 20 mg/kg were studied in normal camels and in the same camels at the end of a 14 day water-deprivation period. After i.v. treatment, serum tylosin concentrations in the water-deprived camels were significantly higher, rate of drug elimination was slower, the volume of distribution was significantly smaller, and total body clearance was significantly slower than in the normal camels. On the other hand, serum drug concentrations were lower in the water deprived camels after i.m. dosing, the mean absorption time was significantly shorter and the i.m. availability was significantly smaller than in the normal camels. Water-deprivation was thought to cause reduced rate of tylosin elimination by the liver, as was shown for antipyrine—a drug which is eliminated from the body exclusively by the liver. Redistribution of tylosin in tissues concomitant with a greater proportion of drug in blood and extracellular fluid of water-deprived camels was suggested as a partial explanation for the higher serum drug levels seen after i.v. dosing. The low i.m. availability observed in the water-deprived camels implies that i.v. is the route of choice for tylosin administration to ill, dehydrated camels. 相似文献
16.
G M Michels F D Boudinot D C Ferguson M Hoenig 《American journal of veterinary research》1999,60(6):738-742
OBJECTIVE: To determine the pharmacokinetics of metformin in healthy cats after single-dose IV and oral administration of the drug. ANIMALS: 6 healthy adult ovariohysterectomized cats. PROCEDURE: In a randomized cross-over design study, each cat was given 25 mg of metformin/kg of body weight, IV and orally. Blood and urine samples were collected after drug administration, and concentrations of metformin in plasma and urine were determined by use of high-performance liquid chromatography. RESULTS: Disposition of the drug was characterized by a three-compartment model with a terminal phase half-life of (mean +/- SD) 11.5+/-4.2 hours. Metformin was distributed to a small central compartment of 0.057+/-0.017 L/kg and to 2 peripheral compartments with volumes of distribution of 0.12+/-0.02 and 0.37+/-0.38 L/kg. Steady-state volume of distribution was 0.55+/-0.38 L/kg. After IV administration, 84+/-14% of the dose was excreted unchanged in urine, with renal clearance of 0.13+/-0.03 L/h/kg; nonrenal clearance was negligible (0.02+/-0.02 L/kg). Mean bioavailability of orally administered metformin was 48%. CONCLUSIONS: The general disposition pattern of metformin in cats is similar to that reported for humans. Metformin was eliminated principally by renal clearance; therefore, this drug should not be used in cats with substantial renal dysfunction. CLINICAL RELEVANCE: On the basis of our results, computer simulations indicate that 2 mg of metformin/kg administered orally every 12 hours to cats will yield plasma concentrations documented to be effective in humans. 相似文献
17.
J. V. Kitzman J. H. Holley W. G. Huber G. D. Koritz L. E. Davis C. A. Neff-Davis R. F. Bevill C. R. Short S. A. Barker L. C. Hsieh 《Veterinary research communications》1990,14(3):217-226
Fenbendazole (FBZ) was administered intravenously (1 mg/kg) and orally (5 mg/kg) to catheterized, confined channel catfish. Blood samples were collected for 72 h, and resulting FBZ plasma concentrations were pharmacokinetically modelled. Following intravenous administration t1/2 was 0.51 h, t1/2 was 16.8 h, body clearance (C1b) was 0.0598 L/kg/h, and Vd (area) was 1.45 L/kg. After oral administration the t1/2 (abs) was 1.47 h, the t1/2 was 20.1 h, and the tlag was 0.1 h.Following oral administration of 5 mg FBZ/kg body weight, the following tissues and body fluids were sampled for concentrations of FBZ, oxfendazole (FBZ-SO), sulphone metabolite (FBZ-SO2) and hydroxy metabolite (FBZ-OH): liver, posterior kidney, fat, muscle, bowel contents and urine. Fenbendazole was detected in the highest concentrations in abdominal fat, whereas oxfendazole was found primarily in the kidney, liver and abdominal fat. The sulphone metabolite was detected only in urine and bowel contents, while the hydroxy metabolite was found most often in the liver and abdominal fat samples. 相似文献
18.
Goudah A Shin HC Shim JH Abd El-Aty AM 《Journal of veterinary pharmacology and therapeutics》2006,29(4):307-312
The present study was planned to investigate the serum disposition kinetics and the pattern of ceftriaxone elimination in milk and urine of lactating ewes (n = 6) following i.v. and i.m. administration. A crossover study was carried out in two phases separated by 15 days. Ceftriaxone was administered at a dosage of 10 mg/kg b.w. in all animals. Serum, milk and urine samples were collected between 0 and 72 h and a modified agar diffusion bioassay method was used to determine the percentage of protein binding and to measure serum, urine and milk concentrations of ceftriaxone. The drug was detected between 5 min and 48 h postdosing. Concentrations of 0.56 (10 h) and 0.52 (12 h), 0.22 (10 h) and 0.19 (12 h), and 2.18 (24 h) and 2.11 (48 h) mug/mL were measured in serum, milk and urine following i.v. and i.m. administration, respectively. Individual pharmacokinetic parameters were determined by fitting a two-compartment model to the serum and one-compartment open model to the milk concentration-time profiles. After i.v. dosing, the elimination rate constant and elimination half-life were 0.4 +/- 0.05/h and 1.75 +/- 0.02 h, respectively. The volume of distribution at steady state (V(dss)) of 0.28 +/- 0.15 L/kg reflected limited extracellular distribution of the drug with total body clearance (Cl(tot)) of 0.14 +/- 0.10 L/h/kg. Following i.m. administration, the mean T(max obs), C(max obs), t(1/2el) and AUC values for serum data were: 0.75 h, 23.16 +/- 2.94 microg/mL, 1.77 +/- 0.24 h and 67.55 +/- 6.51 microgxh/mL, respectively. For milk the data were: 1.0 h, 8.15 +/- 0.71 mug/mL, 2.2 +/- 0.34 h and 26.6 +/- 5.14 microgxh/mL, respectively. The i.m. bioavailability was 83.6% and the binding percentage of ceftriaxone to serum protein was 33%. Concentrations of ceftriaxone in milk produced by clinically normal mammary glands of ewes were consistently lower than in serum; the kinetic value AUC(milk)/AUC(serum) and C(max milk)/C(max serum) ratios was<0.4. These low values indicated poor distribution and penetration of ceftriaxone from the bloodstream to the mammary gland of lactating ewes following both routes. 相似文献
19.
Single-dose disposition kinetics of difloxacin (5mg/kg bodyweight) were determined in clinically normal male dromedary camels (n=6) following intravenous (IV) and intramuscular (IM) administration. Difloxacin concentrations were determined by high performance liquid chromatography with fluorescence detection. The concentration-time data were analysed by compartmental and non-compartmental kinetic methods. Following a single IV injection, the plasma difloxacin concentration-time curve was best described by a two-compartment open model, with a distribution half-life (t(1/2alpha)) of 0.22+/-0.02h and an elimination half-life (t(1/2beta)) of 2.97+/-0.31h. Steady-state volume of distribution (V(dss)) and total body clearance (Cl(tot)) were 1.02+/-0.21L/kg and 0.24+/-0.07L/kg/h, respectively. Following IM administration, the absorption half-life (t(1)(/)(2ab)) and the mean absorption time (MAT) were 0.44+/-0.03h and 1.53+/-0.22h, respectively. The peak plasma concentration (C(max)) of 2.84+/-0.34microg/mL was achieved at 1.42+/-0.21h. The elimination half-life (t(1/2el)) and the mean residence time (MRT) was 3.46+/-0.42h and 5.61+/-0.23h, respectively. The in vitro plasma protein binding of difloxacin ranged from 28-43% and the absolute bioavailability following IM administration was 93.51+/-11.63%. Difloxacin could be useful for the treatment of bacterial infections in camels that are sensitive to this drug. 相似文献
20.
Atef M el-Banna HA Abd El-Aty AM Goudah A 《DTW. Deutsche tier?rztliche Wochenschrift》2002,109(7):320-323
The pharmacokinetic properties of difloxacin following intravenous (i.v.) and intramuscular (i.m.) administration in goats were investigated. Difloxacin was administered in a single dose of 5 mg/kg body weight for both routes and was assayed in biological fluids (serum and urine) to determine its concentrations, kinetic behaviour and systemic availability. Following a single i.v. injection, the serum difloxacin level was best approximated to follow a two-compartment open model using weighted non-linear regression analysis. The elimination half-life (t1/2 beta) was 6.3 +/- 0.11 h. The volume of distribution at steady-state (Vdss) was 1.1 +/- 0.012 L/kg and the total body clearance (Cltot) was 0.13 +/- 0.001 L/kg/h. Following a single i.m. administration, difloxacin was rapidly absorbed and the mean peak serum concentration (4.1 +/- 0.23 micrograms/ml) was achieved 1 h post administration. The extent of serum protein binding of difloxacin in goats was 13.79 +/- 1.02% and the systemic availability was 95.4 +/- 1.17%. Following i.m. injection of difloxacin at a dose rate of 5 mg/kg b.wt for 5 consecutive days, the drug could not be detected in serum and urine at 4th day from the last injection. 相似文献