Comparative disposition kinetics of oral deracoxib in sheep and goats.

This study investigates the pharmacokinetics (PK) of deracoxib (DX), a selective COX-2 inhibitor, in sheep and goats following a single oral dose. DX, approved for dogs, holds potential as an alternative NSAID in small ruminants, particularly in light of heightened concern regarding abomasal ulceration. The study employed an oral administration of DX at a dose of 150 mg/head (sheep and goats), and plasma concentrations were determined after validating a high-performance liquid chromatography method, coupled to a UV detector. The PK parameters, including maximum plasma concentration (Cmax), time to reach Cmax (Tmax), elimination half-life (t1/2), and area under the curve (AUC), were evaluated through non-compartmental analysis. Results showed detectable DX in plasma up to 48 h, with no observed adverse effects. No significant differences in any PK parameters were noted between sheep and goats. Notably, t1/2 values were relatively long, at 16.66 h for sheep and 22.86 h for goats. Despite the fact that both species exhibited comparable drug exposure, high individual variability was noted within each species, suggesting to take into account individual variations in response to DX treatment, rather than species-specific considerations. Additional research involving pharmacodynamics and multiple-dose studies is warranted to comprehensively assess the profile of DX in these species.

Pharmacokinetics and antibacterial activity of tiamulin after single and multiple oral administrations in geese.

Tiamulin is an antibiotic approved exclusively in veterinary medicine, active against G-positive bacteria as well as Mycoplasma spp. and Leptospirae spp. The study was aimed to establish its pharmacokinetics and to evaluate drug effects on resistance in cloacal flora in vivo in geese. Eight healthy geese underwent to a two-phase longitudinal study (60 mg/kg single oral administration vs 60 mg/kg/day for 4 days) with a two-week wash-out period. Blood samples and cloacal swabs were collected at pre-assigned times. Minimal inhibitory concentration (MIC) has been evaluated for each isolated bacterial species. The pharmacokinetic parameters that significantly differed between the groups were Cmax (p = 0.024), AUC0-t (p = 0.031), AUC0-inf (p = 0.038), t1/2kel (p = 0.021), Cl/F (p = 0.036), and Vd/F (p = 0.012). Tiamulin exhibited a slow to moderate terminal half-life (3.13 h single; 2.62 h multiple) and a rapid absorption (1 h single; 0.5 h multiple) in geese, with an accumulation ratio of 1.8 after multiple doses. An in-silico simulation of multiple dosing did not reflect the results of the in vivo multiple dosage study. In both treatments, the MIC values were very high demonstrating a resistance (> 64 µg/ml) against tiamulin that can be present prior the drug administration for some strains, or emerge shortly after the commencing of treatment for some others.

Disposition kinetics of robenacoxib following intravenous and oral administration in geese (Anser anser domesticus).

Robenacoxib (RX) is a veterinary cyclooxygenase-2 selective inhibitor drug. It has never been tested on birds and is only labelled for use in cats and dogs. The purpose of this study was to assess its pharmacokinetics in geese after single intravenous (IV) and oral (PO) administrations. Four-month healthy female geese (n = 8) were used. Geese were subjected to a two-phase, single-dose (2 mg/kg IV, 4 mg/kg PO), open, longitudinal study design with a four-month washout period between the IV and the PO phases. Blood was collected from the left wing vein to heparinized tubes at 0, 0.085 (for IV only), 0.25, 0.5, 0.75, 1, 1.5, 2, 4, 6, 8, 10, and 24 h. Plasma RX concentrations were measured using HPLC coupled to an UV detector, and the data were pharmacokinetically analysed using ThothPro™ 4.3 software in a non-compartmental approach. Following IV administration, terminal elimination half-life, volume of distribution, and total clearance were 0.35 h, 0.34 L/kg, and 0.68 L/h/kg, respectively. For the PO route, the mean peak plasma concentration was 6.78 µg/mL at 0.50 h. The t1/2λz was very short and significantly different between the IV and PO administrations (0.35 h IV vs. 0.99 h PO), suggesting the occurrence of a flip-flop phenomenon. The Cl values corrected for the F% were significantly different between IV and PO administrations. It might have been a consequence of the longitudinal study design and the altered physiological and environmental conditions after a 4-month washout period. The absolute oral F% computed with the AUC method surpassed 150%, but after normalizing it to t1/2λz, it was 46%. In conclusion, the administration of RX might not be suitable for geese, due to its short t1/2λz.

Pharmacokinetics of robenacoxib following single intravenous, subcutaneous and oral administrations in Baladi goats (Capra hircus).

The purpose of this study was to assess the pharmacokinetics of robenacoxib (RX), a COX-2 selective non-steroidal anti-inflammatory drug, in goats after single intravenous (IV), subcutaneous (SC) and oral (PO) administrations. 5-month-old healthy female goats (n = 8) were used. The animals were subjected to a three-phase, two-dose (2 mg/kg IV, 4 mg/kg SC, PO) unblinded, parallel study design, with a four-month washout period between the IV and SC treatment, and a one-week period between the SC and PO treatment. Blood was drawn from the jugular vein in heparinized vacutainer tubes at 0, 0.085 (for IV only), 0.25, 0.5, 0.75, 1, 1.5, 2, 4, 6, 8, 10 and 24 h. Plasma RX concentrations were measured using HPLC coupled to a UV multiple wavelength detector, and the data were pharmacokinetically analysed using ThothPro™ 4.3 software in a non-compartmental approach. Following IV administration, terminal elimination half-life, volume of distribution and total clearance were 0.32 h, 0.24 L/kg and 0.52 L/h/kg, respectively. For SC and PO, the mean peak plasma concentrations were 2.34 and 3.34 µg/mL at 1.50 and 0.50 h, respectively. The t1/2λz was significantly different between the IV and the extravascular (EV) administrations (0.32 h IV vs 1.37 h SC and 1.63 h PO), suggesting the occurrence of a flip-flop phenomenon. The significant difference in Vd values between IV (0.24 L/kg) and EV (0.95 L/kg SC and 1.71 L/kg; corrected for F %) routes might have also triggered the t1/2λz difference. The absolute average SC and PO bioavailability were high (98% and 91%, respectively). In conclusion, the IV administration of RX might not be suitable for goats, due to its short t1/2λz. The EV routes, however, appear to be convenient for the drug's occasional use.

Robenacoxib pharmacokinetics in sheep following oral, subcutaneous, and intravenous administration.

The aim of this study was to evaluate the pharmacokinetics (PK) of robenacoxib (RX), a COX-2 selective non-steroidal anti-inflammatory drug, in sheep after single subcutaneous (SC), oral (PO), and intravenous (IV) administration. Five healthy female sheep underwent a three-phase parallel study design with a washout period of 4 weeks, in which sheep received a 4 mg/kg SC dose in phase 1, a 4 mg/kg PO administration in phase 2, and a 2 mg/kg IV administration in phase 3. Plasma RX concentrations were measured over a 48 h period for each treatment using HPLC coupled to a UV multiple wavelength detector, and the PK parameters were estimated using a non-compartmental method. Following IV administration, terminal elimination half-life, volume of distribution at steady state, and total clearance were 2.64 h, 0.077 L/kg, and 0.056 L/h kg, respectively. The mean peak plasma concentrations following SC and PO administrations were 7.04 and 3.01 µg/mL, respectively. The mean bioavailability following SC and PO administrations were 45.98% and 16.58%, respectively. The SC route may be proposed for use in sheep. However, the multi-dose and pharmacodynamic studies are necessary to establish more accurately its safety and efficacy in sheep.

Acetaminophen pharmacokinetics in geese.

OBJECTIVE: To evaluate the pharmacokinetics of acetaminophen (APAP) after single-dose IV and PO in the goose; to quantify APAP and its main metabolites in goose muscle, heart, lung, liver, and kidney; and to perform a histopathologic evaluation of goose stomach, duodenum, liver, and kidney tissues for potential signs of toxicity. ANIMALS: 24 geese. PROCEDURES: Geese were randomly divided into 3 groups (n = 8). Group I received APAP (10 mg/kg) IV, and groups II and III received the same dose PO. Groups I and II were used for the pharmacokinetic assessment, and group III was used for the residue analysis and histopathologic evaluation. APAP and its metabolites were quantified in plasma and tissues by ultra-high-performance liquid chromatography-tandem mass spectrometry, and the pharmacokinetic analysis was performed using a noncompartmental approach. RESULTS: APAP plasma concentrations were lower than those of the metabolites in similar selected time points after both treatments. After IV treatment, the APAP area under the curve value was statistically higher than that after PO administration, resulting in an oral bioavailability of 46%. In contrast, the area under the curve of the metabolites following PO administration was statistically higher than those found after IV administration. Tissue residues of APAP were highest in the liver, with an accumulation index > 1. Fatty degeneration of hepatocytes was observed 24 hours after administration of APAP. CLINICAL RELEVANCE: In geese, treatment by PO administration of APAP shows incomplete absorption and a slight accumulation in lung and liver. Tissue alterations occurred in the liver at 24 hours, while no signs of toxicity were found in the other tested organs.

Propacetamol in dogs: First description of its pharmacokinetics after intravenous and oral administration.

Propacetamol is a prodrug form of paracetamol (APAP) licensed for human use as a pain reliever in postoperative care. It is prescribed if APAP cannot be administered orally or rectally to a patient and for patients in whom nonsteroidal anti-inflammatory drugs are contraindicated. In this study, we aimed to quantify the pharmacokinetics of APAP and its metabolites, paracetamol sulfate (PS), paracetamol glucuronide (PG), and N-acetyl-p-benzoquinone imine (NAPQI), after a single oral and intravenous (IV) administration of 30 mg/kg of propacetamol to six healthy adult Labrador dogs according to a 2 × 2 crossover study. The analyses were performed using a validated HPLC-MS/MS method. PS and PG exposures were higher than that of APAP, while NAPQI concentrations were constantly below the detection limit of the analytical method. IV propacetamol administration produced 30% more APAP than oral administration. However, propacetamol released a significantly lower amount of active moiety in dogs than in humans. The propacetamol dose administered in this study did not produce plasma APAP concentrations above the threshold sufficient to provide analgesia in adult humans (4 µg/mL). In conclusion, direct IV injection of APAP instead of propacetamol might be a better clinical option for pain relief in dogs.

Transfer of enrofloxacin, ciprofloxacin, and lincomycin into eggshells and residue depletion in egg components after multiple oral administration to laying hens.

Regardless of whether antimicrobial drugs are administered to laying hens legally or illegally, residues of these drugs may be present in the eggs. Even if the eggs are not intended for human consumption, byproducts/biowaste, such as eggshells, may contain residues of the drugs used, which may pose a risk to human health and the environment. In the presented research, 2 different groups of laying hens received enrofloxacin (10 mg/kg body weight) and lincomycin (20 mg/kg body weight) once daily for 5 d. Eggs were collected daily and the concentration of enrofloxacin, its metabolite ciprofloxacin, and lincomycin residue in the eggshells, whole eggs, egg yolks, and egg whites were determined by ultra-high-performance liquid chromatography-tandem mass spectrometry. This study demonstrates the transfer of enrofloxacin, ciprofloxacin, and lincomycin into the eggshells and provides evidence for the distribution into the eggshells after administration of these drugs to laying hens. The enrofloxacin residues were detected in the eggshell for 10 d after cessation of treatment, ciprofloxacin and lincomycin were rapidly eliminated and 2 d after finish drugs administration they were no longer detected in the eggshell.

Agomelatine: A novel melatonergic antidepressant. Method validation and first exploratory pharmacokinetic study in fasted and fed dogs.

Agomelatine is a novel melatonergic antidepressant, with a non-monoaminergic mechanism of action. The aim of this study was to evaluate its plasma concentrations after a single oral dose of 300 mg/dog in fasted and fed status. The research was carried out in 6 adult healthy Labrador dogs according to a randomized open, single-dose, two-treatment, two-phase, paired 2 × 2 cross-over study. At the end of the study all the animals had received the drug in fasted and fed conditions. The drug concentrations were detected in plasma by a validated LC-MS/MS analytical method. The plasma concentrations of agomelatine were found to be extremely variable in both groups as well as the pharmacokinetic profiles. Due to these variable findings the only reliable pharmacokinetic parameters were assessed as Cmax (31.8 vs 15.7 ng/mL), Tmax (0.75 vs 4 h) and AUC (155 vs 52 ng h/mL) in fasted and fed status, respectively. Unfortunately, as a pioneer study, the small animal sample size used along with the unanticipated variability did not allow to neither statistically estimate if food can affect the pharmacokinetics of agomelatine nor recommend agomelatine for off-label therapies in canine species. Further studies are warranted to clarify this issue.

Doxycycline pharmacokinetics in geese.

The study aims to describe the pharmacokinetics of doxycycline after a single intravenous and oral dose (20 mg/kg) in geese. In addition, two multiple-dose simulations have been performed to investigate the predicted plasma concentration after either a 10 or 20 mg/kg daily administration repeated consecutively for 5 days. Ten geese were enrolled in a two-phase cross-over study with a washout period of two weeks. All animals were treated intravenously and orally with doxycycline, and blood samples were collected up to 48 h after drug administration. Sample analysis was performed using a validated HPLC-UV method. A non-compartmental approach was used to evaluate the pharmacokinetic parameters of the drug. A long elimination half-life was observed (13 h). The area under the curve was statistically different between the two treatments, with the oral bioavailability being moderate (43%). The pharmacokinetic/pharmacodynamic index (%T>MIC) during the 48 h treatment period in the present study (71%) suggests that doxycycline appears to have therapeutic efficacy against some Mycoplasma species in the goose. The multiple-dose simulations showed a low accumulation index. A dosage of 10 mg/kg/day for 5 days seemed to be adequate for a good therapeutic efficacy without reaching unnecessarily high plasma concentrations.

Danofloxacin pharmacokinetics and tissue residues in Bilgorajska geese.

Danofloxacin is a fluoroquinolone developed for veterinary medicine and used in avian species for the treatment of numerous bacterial infections. However, no pharmacokinetic data have been reported in geese. The aim of the study was three-fold: (i) to evaluate the pharmacokinetics of danofloxacin in geese after single oral (PO) and intravenous (IV) administrations; (ii) to define its residue depletion profile in different goose tissues, and (iii) to recreate a multiple-dose simulation in the practical context of large-scale breeding. Twenty-four healthy geese were randomly divided in three groups each composed of eight animals. Group 1 received danofloxacin IV (5 mg/kg) and groups 2 and 3 were treated PO with the same dose. Blood was collected until 24 h (IV; group 1) and 48 h (PO; group 2) after administration. Two animals from group 3 were sacrificed at 6, 10, 24 and 48 h to collect samples of muscle, heart, kidney, liver, and lung. Danofloxacin was quantified in each matrix using a validated high-performance liquid chromatography method with spectrofluorimetric detection and the pharmacokinetic analysis was performed using non-compartmental and compartmental approaches. Danofloxacin showed a moderate elimination half-life (6.61 h), a slow clearance (0.35 mL/g*h) and a large volume of distribution (1.46 mL/g). The peak plasma concentration after PO administration and the time to reach it were 0.96 µg/mL and 1.70 h, respectively. The oral bioavailability was moderate (58%). Higher residue concentration was found in liver and kidney, compared to the other tissues. If the AUC(0-24) value found in the present study is included in the pharmacokinetic/pharmacodynamic index (AUC(0-24)/MIC) for the prediction of fluoroquinolones' efficacy, danofloxacin seems to be effective in geese against gram-negative bacteria with a minimum inhibitory concentration (MIC) < 0.076 µg/mL and against S. pneumoniae with a MIC < 0.29 µg/mL after a single PO dose of 5 mg/kg. Liver and kidney showed the highest drug tissue penetration value, with an explorative withdrawal time of 2.6 and 3.8 days, respectively. A practical multiple-dose regimen simulation does not lead to significant plasma drug accumulation.

Cebranopadol, a novel first-in-class drug candidate: Method validation and first exploratory pharmacokinetic study in rabbits.

Cebranopadol is a novel, centrally acting, potent, first-in-class analgesic drug candidate with a unique mode of action that combines nociceptin/orphanin FQ peptide receptor and opioid peptide receptor agonism. The present study aimed to develop and validate a novel UHPLC-MS/MS method to quantify cebranopadol in rabbit plasma and to assess its pharmacokinetics in rabbits after subcutaneous (s.c.) administration. Twelve adult females were administered with 200 µg/kg s.c. injection. Blood samples were withdrawn at 15, 30 and 45 min and 1, 1.5, 2, 4, 6, 8, 10 and 24 hr after administration. The plasma samples were extracted with a liquid/liquid extraction. The new analytical method complied with the EMA requirements for the bioanalytical method validation. The method was selective, repeatable, accurate, precise and robust with a lower limit of quantification of 0.1 ng/ml. In all the rabbits, cebranopadol was quantifiable from 0.25 to 10 hr. Mean Cmax and Tmax were 871 ng/ml and 0.25 hr, respectively. Further studies including the i.v. administration are necessary to fully evaluate the pharmacokinetic features of this novel active compound.

Pharmacokinetics of acetaminophen after intravenous and oral administration in fasted and fed Labrador Retriever dogs.

Acetaminophen (paracetamol) is used in dogs to manage fever and mild pain. The aim of this study was to assess the pharmacokinetics of acetaminophen in both fed and fasted Labrador Retrievers after a single intravenous and oral administration (20 mg/kg). Six healthy dogs underwent three treatments in a randomized block study (a, n = 2; b, n = 2; c, n = 2). In phase one, group a received acetaminophen intravenously, group b and c orally after being fasted and fed, respectively. In phase two and three, groups were swapped, and the experiment was repeated. At the end of the trial, each dog received the same treatment. Acetaminophen plasma concentrations were detected using a validated HPLC-UV method. The pharmacokinetic analysis was performed using a noncompartmental model. Clearance, volume at steady state and half-life of acetaminophen in Labrador Retrievers were 0.42 L/kg hr, 0.87 L/kg and 1.35 hr, respectively. No significant statistical differences were found between fasted and fed dogs regarding maximum plasma concentration, time at maximum concentration and bioavailability as measured by the AUC. Feeding does not significantly affect the acetaminophen oral pharmacokinetics.

Pharmacokinetics of thalidomide in dogs: can feeding affect it? A preliminary study.

BACKGROUND: Tumor-associated neoangiogenesis is a crucial target for antitumor therapies. Thalidomide (TAL) is a promising anti-neoangiogenetic drug that has recently been used in the treatment of several malignancies in dogs. OBJECTIVES: The aim of the study was to assess the pharmacokinetics of TAL after single oral administration in dogs. Additionally, the influence of feeding on the pharmacokinetic profile of TAL in dogs has been preliminarily investigated. METHODS: Six healthy adult female Labradors were enrolled according to a randomized single-dose, 2-treatment, 2-phase, paired 2 × 2 cross-over study design. The dogs were administered a single 400 mg capsule of TAL in fasted and fed conditions. Blood was collected from 15 min to 48 h after dosing, and TAL quantified in plasma by a validated high-performance liquid chromatography method. The pharmacokinetics of TAL were analyzed using a non-compartmental approach. RESULTS: TAL concentration was quantifiable up to 10 h and 24 h after fasted and fed conditions, respectively. Cmax (fasted, 1.34 ± 0.12 µg/mL; fed, 2.47 ± 0.19 µg/mL) and Tmax (fasted, 3 h; fed, 10 h) differed substantially between the 2 groups. AUC and t1/2λz were significantly higher in fed (42.46 ± 6.64 mg × h/L; 17.14 ± 4.68 h) compared to fasted (12.38 ± 1.13 mg × h/L; 6.55 ± 1.25 h) dogs. The relative oral bioavailability of TAL for the fasted group was low (36.92% ± 3.28%). CONCLUSIONS: Feeding affects the pharmacokinetics of oral TAL in dogs, showing a delayed, but higher absorption with different rate of elimination. These findings are of importance in clinical veterinary settings, and represent a starting point for further related studies.

Pharmacokinetics of levofloxacin in non-lactating goats and evaluation of drug effects on resistance in coliform rectal flora.

This study aimed to evaluate the pharmacokinetics/pharmacodynamics (PK/PD) of levofloxacin in non-lactating goats. Using a randomized cross-over study design, each group of animals (n = 7) received 2 mg/kg of levofloxacin intravenously (IV) and subcutaneously (SC). Plasma concentrations of levofloxacin were quantified by High Performance Liquid Chromatography with fluorescence detector (HPLC-FL). Rectal swabs were collected prior and after the treatment to identify the main bacterial population and to evaluate in vitro antimicrobial susceptibility using minimal inhibitory concentration (MIC) method. Mean values of terminal half-life for IV and SC groups were 4.56 and 5.14 h, respectively. After SC administration, the peak plasma concentration was achieved at 2 h, with a Cmax of 3681 ng/mL. Mean bioavailability was 92.12%. Bacteria isolation showed the presence of Escherichia coli (E. coli) that quickly becomes resistant to levofloxacin potentially rendering the drug ineffective. Results seem to suggest that levofloxacin is able to reach considerable plasma concentrations after both IV and SC administration, but it must be considered that both routes of administration can lead to a reversible selection of resistance in gastro-intestinal bacteria.

Pharmacokinetic profiles of meloxicam after single IV and PO administration in Bilgorajska geese.

The purpose of this study was two-fold: I) to determine the pharmacokinetic profile of meloxicam (MLX) in geese after intravenous (IV) and oral (PO) administration and II) to assess tissue residues in muscle, heart, liver, lung, and kidney. Ten clinically normal female Bilgorajska geese were divided into two groups (treated, n = 8; control, n = 2). Group 1 underwent a 3-phase parallel study with a 1-week washout period. In phase I, animals received MLX (0.5 mg/kg) by IV administration; the blood was collected up to 48 hr. In phases II and III geese were treated orally at the same dosage for the collection of blood and tissue samples, respectively. Group 2 served as control. After the extraction procedure, a validated HPLC method with UV detection was used for plasma and organ analysis. The plasma concentrations were quantifiable up to 24 hr after both the administrations. The elimination phase of MLX from plasma was similar in both the administration groups. The clearance was slow (0.00975 L/hr*Kg), the volume of distribution small (0.0487 L/kg), and the IV half-life was 5.06 ± 2.32 hr. The average absolute PO bioavailability was 64.2 ± 24.0%. Residues of MLX were lower than the LOQ (0.1 µg/kg) in any tested tissue and at any collection time. The dosage used in this study achieved the plasma concentration, which provides analgesia in Hispaniolan Amazon parrots for 5 out of 24 hr after PO administration. MLX tissue concentrations were below the LOD of the assay in tissue (0.03 µg/ml). A more sensitive technique might be necessary to determine likely residue concentrations in tissue.

Pharmacokinetic and tissue analyses of levofloxacin in sheep (Ovis aries Linnaeus) after multiple-dose administration.

The aim of this study was to assess the pharmacokinetic profile of LFX in sheep after intravenous (IV) and oral (PO) administration of 2 mg/kg LFX once a day for 5 days and to evaluate its tissue depletion in the muscles, heart, liver, lungs, and kidneys. Twenty healthy female sheep were randomly divided into two equal groups. Each group was further randomly subdivided into two equal subgroups (n = 5). Group 1 was used for blood collection and underwent a crossover design (2 × 2 Latin square). Group 2 was randomly subdivided into two equal subgroups (n = 5) for IV and PO route respectively, and used for tissue collection. A single sheep was sacrificed at each time point and the organs were harvested. Samples were analyzed using a validated HPLC method with fluorescence detection. LFX administered orally was rapidly absorbed with a peak plasma concentration of 2866 ± 239 ng/mL and an absolute oral bioavailability of 114 ± 27.7%. The pharmacokinetic estimates were comparable between PO and IV administration. According to the pharmacokinetic/pharmacodynamic surrogate index (area under the curve / minimum inhibitory concentration) of 100-125, LFX has the potential to be an effective treatment for infections caused by bacteria with a MIC of 0.049-0.061 µg/mL. LFX was detected for up to 48 h in all the tissues samples. The kidney had the highest LFX concentration after IV and PO administration. The AUCtissue/plasma ratio was lower than 1 in all tissues indicating absence of LFX tissue accumulation.

Impact of lactation on pharmacokinetics of meloxicam in goats.

Use of drug in lactating animal should be carefully considered due to its possibility of changes in pharmacokinetics as well as drug penetration in milk. The aim of this study was to assess the effect of lactation on pharmacokinetics of meloxicam after IV and IM administrations in goats. A crossover design (2 × 2) was used for each lactating and nonlactating group of goats with a 3-week washout period. Meloxicam (0.5 mg/kg) was administered into the jugular vein and upper gluteal muscle by IV and IM routes, respectively. The plasma and milk drug concentrations were determined by high-performance liquid chromatography with diode array detector, and the pharmacokinetic analysis was carried out by noncompartmental analysis. The pharmacokinetic parameters of meloxicam in lactating and nonlactating goats were not significantly different. The IM bioavailability of meloxicam was relatively lower in lactating (75.3 ± 18.6%) than nonlactating goats (103.8 ± 34.7%); however, the difference was not statistically significant. Moreover, AUC ratio between milk and plasma, which represent drug milk penetration, for both IV and IM administrations was less than 1 (about 0.3). In conclusion, pharmacokinetic parameters of meloxicam are not significantly altered by lactation for either the IV or IM routes of administration and this drug does not require a different dosage regimen for lactating animals.

Effect of feeding on the pharmacokinetics of vilazodone in dogs.

Vilazodone (VLZ) is a drug approved for the treatment of major depressive disorder in humans but no data are available for dogs. The present study aimed to evaluate the pharmacokinetics of a single oral 40 mg dose of VLZ in healthy Labrador dogs (n = 6) in fasted and fed conditions. Dogs were randomly divided in two (n = 3) groups in a cross-over study design (2 × 2). Group I was administered with VLZ at 40 mg/dog after fasting over-night. Group II was fed prior to and after administration of the same dose. A two-week wash-out period was observed. Plasma samples collected underwent LC-MS/MS analysis. VLZ concentrations were quantified in dogs' plasma in two different windows of time: 30 min to 10 h for the fasted group and 4 h to 35 h for the fed group. The values for t1/2λz were statistically different between the groups (fed, 4.6 ±â€¯1.1 h vs fasted, 1.7 ±â€¯0.2 h). Tmax drastically changed between the groups (fed, 10 h vs fasted, 1.5 h), while Cmax did not significantly vary (fed, 39.4 ±â€¯5.6 ng/mL vs fasted, 38.7 ±â€¯4.8 ng/mL). The AUC value was always statistically higher in the fed group. As a result, the average relative oral fasted bioavailability of VLZ was low, 28.8 ±â€¯6.1%. In conclusion, feeding can affect the pharmacokinetics of VLZ in the dog.

Pharmacokinetics of levosulpiride after single-dose administration in goats (Capra hircus) by different routes of administration.

Levosulpiride (LSP) is the l-enantiomer of sulpiride, and LSP recently replacing sulpiride in several EU countries. Several studies about LSP in humans are present in the literature, but neither pharmacodynamic nor pharmacokinetic data of LSP is present for veterinary species. The aim of this study was to assess the pharmacokinetic profile of LSP after intravenous (IV), intramuscular (IM), and oral (PO) administration in goats. Animals (n = 6) were treated with 50 mg LSP by IV, IM, and PO routes according to a randomized cross-over design (3 × 3 Latin-square). Blood samples were collected prior and up to 24 hr after LSP administration and quantified using a validated HPLC method with fluorescence detection. IV and IM administration gave similar concentration versus time curve profiles. The IM mean bioavailability was 66.97%. After PO administration, the drug plasma concentrations were detectable only in the time range 1.5-4 hr, and the bioavailability (4.73%) was low. When the AUC was related to the administered dose in mg/kg, there was a good correlation in the IV and IM groups, but very low correlation for the PO route. In conclusion, the IM and IV administrations result in very similar plasma concentrations. Oral dosing of LSP in goats is probably not viable as its oral bioavailability was very low.