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1.
The periods of time that cephalothin and cefazolin serum concentration remained above minimum inhibitory concentration (MIC) for beta hemolytic, coagulase positive staphylococcal, and Escherichia coli clinical isolates were compared. Cephalothin and cefazolin were similarly very effective in vitro against staphylococcal isolates, with an MIC90 of 0.12 μg/mL and 0.25 μg/mL, respectively. In contrast, cefazolin was more effective than cephalothin against E coli isolates; the cefazolin MIC90 for E coli was 16 μg/mL and for cephalothin 64 μg/mL. Cefazolin (20 mg/kg intravenously [IV]) serum concentration remained more than MIC90 for E coli isolates significantly longer than serum concentration of cephalothin (40 mg/kg IV) ( P <.001).  相似文献   

2.
Plasma concentrations of doramectin in 40 cattle dosed by subcutaneous (sc) or intramuscular (i.m.) injection (200 μg/kg) were compared to assess the bioequivalence of the two routes of administration. Peak concentration ( C max), and areas under the concentration curve ( AUC0– ) were determined from plasma concentrations. Animals treated by the sc route showed a mean AUC0– of 457 ± 66 ng±day/mL (± SD) and a mean C max of 27.8 ± 7.9 ng/mL. Results from the i.m. treatment group showed a mean AUC 0– of 475 ± 82 ng-day/mL and a mean C max of 33.1 ± 9.0 ng/mL Absorption constants ( k a) determined by modelling were 0.542 ± 0.336 day-1after sc administration and 0.710 ± 0.357 day-1after i.m. administration. The 90% confidence limits on the difference between mean AUC 0– values for the sc and i.m. groups fell within 20% of the mean value for the subcutaneous group. C max was somewhat greater for the i.m. route. The 90% confidence limits on the difference in mean In ( T max+1) also fell within 20% of the mean sc value. Based on this analysis, bioequivalence of the sc and i.m. formulation has been established.  相似文献   

3.
Nine male dogs (10.3–13.5 kg body weight) were randomly assigned to three groups of three dogs each and administered ceftiofur sodium subcutaneously as a single dose of 0.22, 2.2, or 4.4 mg ceftiofur free acid equivalents/kg body weight. Plasma and urine samples were collected serially for 72 h and assayed for ceftiofur and metabolites (derivatized to desfuroylceftiofur acetamide) using high-performance liquid chromatography. Urine concentrations remained above the MIC 90 for Escherichia coll (4.0 μg/mL) and Proteus mirabilis (1.0 μg/mL) for over 24 h after doses of 2.2 mg/kg (8.1 μg/mL) and 4.4 mg/kg (29.6 μg/mL), the interval between treatments for ceftiofur sodium in dogs, whereas urine concentrations 24 h after dosing at 0.22 mg/kg (0.1 mg/Ib) were below the MIC 90 for E.coli and P. mirabills (0.6 μg/mL). Plasma concentrations were dose-proportional, with peak concentrations of 1.66 ± 0.0990 μg/mL, 8.91 ± 6.42 μg/mL, and 26.7 ± 1.07 μg/mL after doses of 0.22, 2.2, and 4.4 mg/kg, respectively. The area under the plasma concentration versus time curve, when normalized to dose, was similar across all dosage groups.  相似文献   

4.
Cefixime is a unique third-generation oral cephalosporin. Its in vitro activity and pharmacokinetic properties have been studied to assess its potential for use in the therapy of newborn calf infections due to gram-negative bacteria. The minimum inhibitory concentrations of cefixime for 90% (MIC50) of field isolates of Escherichia coli. Salmonella and Pasteurella were 0.10–0.40 μg/mL. The serum disposition kinetics of cefixime following intravenous and oral administration was evaluated. The elimination half-life of cefixime after intravenous and oral administration was 3.5–4.0 h, the steady-state volume of distribution was 0.34 L/kg and approximately 90% of the drug was bound to serum proteins. Oral absorption was comparatively slow and bioavailability values for single 5 mg/kg doses were 20.2% after the administration of 200 mg of cefixime in capsules, 28.3% after dosing an aqueous solution of cefixime and 35.7% after fasted calves received the solution of cefixime. Mean serum drug concentrations 12 h after the cefixime solution was administered orally (5 mg/kg) were 1.05 μg/mL for the milk-fed calves and 1.76 μg/mL for the fasted calves. Computations showed that mean free drug concentrations equal to the MIC50 of the drug for gram-negative pathogens associated with newborn calf infections can be maintained in tissues by multiple treatments at 5 mg/kg every 12 h or 10 mg/kg every 24 h.  相似文献   

5.
The pharmacokinetics of sulphadiazine (SDZ) (100 mg/kg, body weight) were investigated in six camels ( Camelus dromedarius ) after intravenous (i.v.) and oral (p.o.) administration. Following i.v. administration, the overall elimination rate constant (β) was 0.029±0.001/h and the half-life ( t ½β) was 23.14±1.06 h. The apparent volume of distribution ( V d(area)) was 0.790±0.075 L/kg and the total body clearance ( Cl B) was 23.29±2.50 mL/h/kg. After p.o. administration, SDZ reached a peak plasma concentration ( C max(cal.)) of 62.93±2.79 μg/mL at a post injection time of ( T max(cal.)) 22.98±0.83 h. The elimination half-life was 19.79±1.22 h, not significantly different from that obtained by the i.v. route. The mean absorption rate constant (Ka) was 0.056±0.002 h−1 and the mean absorption half-life ( t ½Ka) was 12.33±0.37 h. The mean availability ( F ) of sulphadiazine was 88.2±6.2%.
  To achieve and maintain therapeutically satisfactory plasma SDZ levels of 50 μg/mL, the priming and maintenance doses would be 80 mg/kg and 40 mg/kg intravenously and 90 mg/kg and 45 mg/kg orally, respectively, to be repeated at 24 h intervals.  相似文献   

6.
The pharmacokinetic properties of pradofloxacin and doxycycline were investigated in serum, saliva, and tear fluid of cats. In a crossover study design, six cats were treated orally with a single dose of pradofloxacin (Veraflox® Oral Suspension 2.5%) and doxycycline (Ronaxan® 100 mg) at 5 mg/kg body weight. Following administration, samples of serum, saliva, and tear fluid were taken in regular intervals over a period of 24 h and analysed by turbulent flow chromatography/tandem mass spectrometry. All values are given as mean ± SD. Pradofloxacin reached a mean maximum serum concentration ( C max) of 1.1 ± 0.5 μg/mL after 1.8 ± 1.3 h ( t max). In saliva and tear fluid, mean C max was 6.3 ± 7.0 and 13.4 ± 20.9 μg/mL, respectively, and mean t max was 0.5 ± 0 and 0.8 ± 0.3 h, respectively. Doxycycline reached a mean C max in serum of 4.0 ± 0.8 μg/mL after 4.3 ± 3.2 h. Whilst only at two time-points doxycycline concentrations close to the limit of quantification were determined in tear fluid, no detectable levels were found in saliva. The high concentrations of pradofloxacin in saliva and tear fluid are promising to apply pradofloxacin for the treatment of conjunctivitis and upper respiratory tract infections in cats. As doxycycline is barely secreted into these fluids after oral application the mechanisms of its clinical efficacy remain unclear.  相似文献   

7.
Pharmacokinetics of valacyclovir in the adult horse   总被引:1,自引:0,他引:1  
Recent outbreaks of equine herpes virus type-1 infections have stimulated renewed interest in the use of effective antiherpetic drugs in horses. The purpose of this study was to investigate the pharmacokinetics of valacyclovir (VCV), the prodrug of acyclovir (ACV), in horses. Six adult horses were used in a randomized cross-over design. Treatments consisted of 10 mg/kg ACV infused intravenously, 5 g (7.7–11.7 mg/kg) VCV delivered intragastrically (IG) and 15 g (22.7–34.1 mg/kg) VCV administered IG. Serum samples were obtained at predetermined times for acyclovir assay using high-performance liquid chromatography. Following the administration of 5 g VCV, the mean observed maximum serum ACV concentration ( C max) was 1.45 ± 0.38 (SD) μg/mL, at 0.74 ± 0.43 h. At a dose of 15 g VCV, the mean C max was 5.26 ± 2.82 μg/mL, at 1 ± 0.27 h. The mean bioavailability of ACV from oral VCV was 60 ± 12% after 5 g of VCV and 48 ± 12% after 15 g VCV, and did not differ significantly between dose rates ( P  > 0.05). Superposition suggested that a loading dose of 27 mg/kg VCV every 8 h for 2 days, followed by a maintenance dose of 18 mg/kg every 12 h, will maintain effective serum ACV concentrations.  相似文献   

8.
Oxytetracycline (OTC) pharmacokinetics were studied in the red pacu ( Colossoma brachypomum ) following intravenous (i.v.) and intramuscular (i.m.) administration at a dose of 5 mg/kg body weight. OTC plasma concentrations were determined by high-performance-liquid-chromatography (HPLC). A non-compartmental model was used to describe plasma drug disposition after OTC administration. Following i.m. administration, the elimination half-life ( t ½) was 62.65 ± 1.25 h and the bioavailability was 49.80 ± 0.01%. After i.v. administration the t ½ was 50.97 ± 2.99 h, the V d was 534.11 ± 38.58 mL/kg, and CI b was 0.121 ± 0.003 mL/min.kg. The 5 mg/kg i.v. dose used in this experiment resulted in up to 48 h plasma concentrations of OTC above the reported MIC values for some strains of fish pathogens such as Aeromonas hydrophila , A. liquefaciens , A. salmonicida , Cytophaga columnaris , Edwardsiella ictaluri , Vibrio anguillarium , V. ordalii , V. salmonicida and Yeersinia ruckeri . These MIC values are below the susceptible range (4 μg/mL) listed by the National Committee for Clinical Laboratory Standards (NCCLS) as determined by the NCCLS susceptibility interpretive criteria.  相似文献   

9.
The purpose of the study was to compare the pharmacokinetics of amikacin administered i.v., to Greyhound and Beagle dogs and determine amikacin pharmacokinetics administered subcutaneously to Greyhounds. Amikacin was administered i.v. at 10 mg/kg to six healthy Greyhounds and six healthy Beagles. The Greyhounds also received amikacin, 10 mg/kg s.c. Plasma was sampled at predetermined time points and amikacin concentrations determined by a fluorescence polarization immunoassay (FPIA).
The volume of distribution was significantly smaller in Greyhounds (mean = 176.5 mL/kg) compared to Beagles (234.0 mL/kg). The C 0 and AUC were significantly larger in Greyhounds (86.03 μg/mL and 79.97 h·μg/mL) compared to Beagles (69.97 μg/mL and 50.04 h·μg/mL). The plasma clearance was significantly lower in Greyhounds (2.08 mL/min/kg) compared to Beagles (3.33 mL/min/kg). The fraction of the dose absorbed after s.c. administration to Greyhounds was 0.91, the mean absorption time was 0.87 h, and the mean maximum plasma concentration was 27.40 μg/mL at 0.64 h.
Significant differences in the pharmacokinetics of amikacin in Greyhounds indicate it should be administered at a lower dose compared to Beagles. The dose in Greyhounds to achieve a C max: AUC  ≥ 8 for bacteria (with an MIC  ≤ 4 μg/mL) is 12 mg/kg q24 h compared to 22 mg/kg q24 in Beagles.  相似文献   

10.
Laber, G. Investigation of pharmacokinetic parameters of tiamulin after intramuscular and subcutaneous administration in normal dogs. J. vet. Pharmacol. Therap. 11 , 45–49.
Kinetic variables for tiamulin in the normal dog have been determined. Serum concentrations of tiamulin were compared after intramuscular (i.m.) and subcutaneous (s.c.) administration of a single dose of tiamulin. Following a single i.m. dose of 10 mg/kg body weight, the compound was calculated to have a Cmax= 0.61 ± 0.15 μg/ml, a T max= 6 h and a t ½= 4.7 ± 1.4 h. Tiamulin showed dose-dependent pharmacokinetics when given as a single s.c. dose of either 10 mg or 25 mg/kg body weight. For the lower dose, the values Cmax= 1.55 ± 0.11 μg/ml, T max= 8 h and 1 max= 4.28 ± 0.18 h were obtained. For the higher dose C max= 3.14 ± 0.04 μg/ml, T max= 8 h and t ½= 12.4 ± 3.4 h were calculated. When tiamulin was administered subcutaneously at a dose rate of 10 mg/kg body weight, higher and better maintained serum levels were achieved than those following i.m. administration. After repeated s.c. doses no significant accumulation of tiamulin occurred. Assuming that a continuous effective serum concentration is necessary throughout the course of therapy, these data would indicate that tiamulin should be given every 24 h.  相似文献   

11.
Plasma pharmacokinetics and urine concentrations of meropenem in ewes   总被引:1,自引:0,他引:1  
The pharmacokinetics of meropenem was studied in five ewes after single i.v. and i.m. dose of 20 mg/kg bw. Meropenem concentrations in plasma and urine were determined using microbiological assay method. A two-compartment open model was best described the decrease of meropenem concentration in plasma after an i.v. injection. The drug was rapidly eliminated with a half-life of elimination ( t 1/2 β ) of 0.39 ± 0.30 h. Meropenem showed a small steady-state volume of distribution [ V d(ss)] 0.055 ± 0.09 L/kg. Following i.m. injection, meropenem was rapidly absorbed with a t 1/2ab of 0.25 ± 0.04 h. The peak plasma concentration ( C max) was 48.79 ± 8.83  μ g/mL was attained after 0.57 ± 0.13 h ( t max). The elimination half-life ( t 1/2el) of meropenem was 0.71 ± 0.12 h and the mean residence time ( MRT ) was 1.38 ± 0.26 h. The systemic bioavailability (F) after i.m. injection was 112.67 ± 10.13%. In vitro protein-binding percentage of meropenem in ewe's plasma was 42.80%. The mean urinary recoveries of meropenem over 24 h were 83% and 91% of the administered dose after i.v. and i.m. injections respectively. Thus, meropenem is likely to be efficacious in the eradication of many urinary tract pathogens in sheep.  相似文献   

12.
The plasma pharmacokinetics, lung tissue to plasma concentration ratios, and depletion profiles in edible tissue (liver, muscle, kidney, fat and injection site) for a single subcutaneous dose of a novel macrolide antibiotic, CP-163505 (20-[3-dimethylaminopropyl(L-alanyl)amino]-20-deoxo-repromicin), were investigated in crossbred beef cattle. Mean peak plasma concentration of 2.5 ± 0.4 μg/mL, occurring at 0.5 h, was found for CP-163505 following a 5 mg/kg dose ( n  = 5). The pharmacokinetic profile consisted of a distribution phase, followed by an extended terminal elimination phase (t1/2 of 19 h). The disposition of CP-163505 was characterized by distribution from the plasma into the tissue resulting in lung to plasma ratios of 103 and 87 at 72 h following a single 5 or 10 mg/kg dose, respectively. The depletion of CP-163505 from edible tissues was determined following administration of tritiated CP-163505 at a dose of 10 mg/kg. On day 42, the liver contained the highest mean concentration of total tritium residues, 5.9 ± 3.4 μg/g. CP-163505 was determined to be a significant component of the total residues in liver with 72% on day 3 and 50% on day 42. Three metabolites of CP-163505 were identified by liquid chromatography with mass spectrometry (LC/MS/MS) in liver samples: loss of alanine, formation of an hydroxyl derivative, and sulfate addition to the lactone ring.  相似文献   

13.
The pharmacokinetics of indomethacin (1mg/kg) was determined in six adult sheep after intravenous (i.v.) and intramuscular (i.m.) injection. Plasma concentrations were maintained within the therapeutic range (0.3–3.0 μg/mL) from 5 to 50 min after i.v. and from 5 to 60–90 min after i.m. administration. After two trials, indomethacin best fitted an open two-compartment model. The mean (±SD) volumes of distribution at steady state ( V dss) were 4.10 ± 1.40 and 4.21 ± 1.93 L/kg and the mean clearance values ( C lB) were 0.17 ± 0.06 and 0.22 ± 0.12 L/h.kg for i.v. and i.m. routes, respectively. The elimination phase half-lives did not show any significant difference between routes of injection ( t ½β = 17.4 ± 4.6 and 21.25 ± 4.44 h, i.v. and i.m. respectively). After i.m. administration, plasma maximum concentration ( C max =  1.10 ± 0.68 μg/mL) was reached 10 min after dosing; the absorption phase was fast ( K ab = 26 ± 18 h-1) and short ( t ½ab = 2.33 ± 1.51 min) and the mean bioavailability was 91.0 ± 32.8%, although there was considerable interanimal variation. In some individuals, bioavailability was higher than 100%. This fact combined with the slower elimination phase after i.m. than after i.v. administration, could be related with enterohepatic recycling.  相似文献   

14.
Intravenous (IV) levetiracetam (LEV) is available for humans for bridge therapy when the oral route is unavailable. We investigated the safety and pharmacokinetics of LEV administered intramuscularly (IM), IV, and orally to dogs.
Six Hound dogs received 19.5–22.6 mg/kg of LEV IM, IV and orally with a wash-out period in between. All dogs received 500 mg LEV orally and 5 mL of 100 mg/mL LEV IM. Three dogs received 500 mg of LEV IV and three dogs received 250 mg LEV IV with 250 mg given perivascularly to approximate extravasation. Safety was assessed using a pain scale at time of IM administration and histopathological examination 24 h to 5 days after injection.
Intravenous LEV half-life was 180 ± 18 min. Bioavailability of IM LEV was 100%. Mean time to Tmax after IM was 40 ± 16 min. The mean Cmax IM was 30.3 ± 3 μg/mL compared to the C0 of 37 ± 5 μg/mL for IV. Mean inflammation score (0–4 scale) for IM LEV was 0.28 and for saline 0.62. Extravasation did not cause tissue damage.
Parenteral LEV is well tolerated and appears safe following IM and IV injections in dogs. Parenteral LEV should be evaluated for use in dogs with epilepsy.  相似文献   

15.
Salivary output in sheep is large enough to be considered a physiologic body fluid compartment. The hypothesis for this work was that pharmacokinetics of sulfamethazine in saliva was similar to that in plasma. A reliable technique was developed to measure parotid salivary output. Mean output of saliva was 3.18 ± 1.04 L from a single parotid gland per day with a mean flow of 2.21 ± 0.43 mL/min. Using concentrations of sulfamethazine in parotid saliva made it possible to calculate the total passage of sulfamethazine to parotid saliva, which was calculated to be 3.5% of the total dose. Pharmacokinetic variables obtained for sulfamethazine in plasma and in saliva were closely related ( AUC 1408 μg.h/mL and AUC 1484 μg.h/mL; V darea 0.434 L/kg and V d area 0.374 L/kg; t ½β 4.30 h and 3.46 h, respectively) and no substantial differences were observed. The convenience of using salivary concentrations of sulfamethazine for drug monitoring is discussed.  相似文献   

16.
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 ( t ½β) 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   

17.
Hens were given single intravenous or oral doses (30 mg/kg body weight) of metronidazole and the plasma concentrations of the drug were determined by high-performance liquid chromatography (HPLC) at intervals from 10 min to 24 h after drug administration. Pharmacokinetic variables were calculated by the Lagrange algorithm technique. The elimination half-life ( t 1/2β) after the intravenous injection was 4.2 ± 0.5 h, the volume of distribution ( V d(ss)) 1.1±0.2 L/kg and the total body clearance ( Cl B) 131.2 ± 20 mL/h.kg. Oral bioavailability of the metronidazole was 78 ± 16%. The plasma maximum concentration ( C max) 31.9 ± 2.3 μg/mL was reached 2 h after the oral administration and the oral elimination half-life ( t 1/2β) was 4.7 ± 0.2 h. The binding of metronidazole to proteins in hen plasma was very low (less than 3%). Whole body autoradiography of [3H] metronidazole in hens and quails showed an even distribution of labelled material in various tissues at short survival intervals (1-4 h) after oral or intravenous administration. A high labelling was seen in the contents of the small and large intestines. In the laying quails a labelling was also seen in the albumen and in a ring in the periphery of the yolk at long survival intervals. Our results show that a concentration twofold above the MIC is maintained in the plasma of hens for at least 12 h at an oral dose of 30 mg/kg metronidazole.  相似文献   

18.
Gonadotropin-releasing hormone (GnRH) antagonists are particularly useful when a rapid inhibitory effect on the gonadal axis is required. The aim of this study was to test the efficacy and clinical safety of a low and high dose of the third generation GnRH antagonist, acyline, on pregnancy termination in female dogs. The effect of the antagonist on the progesterone (P4) serum concentration was also described. Twenty-one mid-pregnant bitches were randomly assigned to a single subcutaneous (SC) dose of a placebo (PLACE; n = 7), a low (ACY-L; 110 μg/kg; n = 6) or high (ACY-H; 330 μg/kg; n = 8) dose of acyline. The animals were followed up for 15 days. All ACY treated but no placebo-treated animals terminated their pregnancy by abortion (p < 0.01). The ACY-L and ACY-H groups interrupted their pregnancy 7 ± 1.9 and 6.4 ± 1.3   days after treatment, respectively (p = 0.7). A significant interaction between treatment and day was found (p < 0.01) for P4 serum concentrations when PLACE was compared with both ACY groups. No difference was found for this hormone between both ACY groups (p > 0.05) where P4 diminished throughout the study. The decreasing rate varied among animals and was closely related to the time of abortion when P4 reached basal concentrations. In PLACE animals, gestation progressed normally and P4 did not change throughout the study (p > 0.05). None of the bitches presented side effects. It was concluded that acyline safely terminated mid-pregnancy by permanently decreasing P4 serum concentrations.  相似文献   

19.
Pain associated with castration in cattle is an animal welfare concern in beef production. This study examined the effect of oral aspirin and intravenous (i.v.) sodium salicylate on acute plasma cortisol response following surgical castration. Twenty bulls, randomly assigned to the following groups, (i) uncastrated, untreated controls, (ii) castrated, untreated controls, (iii) 50 mg/kg sodium salicylate i.v. precastration and (iv) 50 mg/kg aspirin (acetylsalicylic acid) per os precastration, were blood sampled at 3, 10, 20, 30, 40, 50 min and 1, 1.5, 2, 4, 6, 8, 10 and 12 h postcastration. Samples were analyzed by competitive chemiluminescent immunoassay and fluorescence polarization immunoassay for cortisol and salicylate, respectively. Data were analyzed using noncompartmental analysis, a simple cosine model, anova and t -tests. Intravenous salicylate V d(ss) was 0.18 L/kg, Cl B was 3.36 mL/min/kg and t 1/2 λ was 0.63 h. Plasma salicylate concentrations above 25  μ g/mL coincided with significant attenuation in peak cortisol concentrations ( P  = 0.029). Peak salicylate concentrations following oral aspirin administration was <10  μ g/mL and failed to attenuate cortisol response. Once salicylate concentrations decreased below 5  μ g/mL, cortisol response in the castrated groups was significantly higher than uncastrated controls ( P  = 0.018). These findings have implications for designing drug regimens to provide analgesia during routine animal husbandry procedures.  相似文献   

20.
The purpose of this study was to determine the pharmacokinetics and physicochemical characteristics of orbifloxacin in the horse. Six healthy adult horses were administered oral and intravenous orbifloxacin at a dose of 2.5 mg/kg. Plasma samples were collected and analyzed by high-pressure liquid chromatography with ultraviolet detection. Plasma protein binding and lipophilicity were determined in vitro . Following i.v. administration, orbifloxacin had a terminal half-life ( t 1/2) of 5.08 h and a volume of distribution (Vd(ss)) of 1.58 L/kg. Following oral administration, the average maximum plasma concentration ( C max) was 1.25  μ g/mL with a t 1/2 of 3.42 h. Systemic bioavailability was 68.35%. Plasma protein binding was 20.64%. The octanol:water partition coefficient (pH 7.4) was 0.2 ± 0.11. No adverse reactions were noted during this study. Dosage regimens were determined from the pharmacokinetic–pharmacodynamic parameters established for fluoroquinolone antibiotics. For susceptible bacteria, an oral dose of approximately 5 mg/kg once daily will produce plasma concentrations within the suggested range. This dose is suggested for further studies on the clinical efficacy of orbifloxacin for treatment of susceptible bacterial infections in the horse.  相似文献   

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