Epizootics of sudden death in tammar wallabies (Macropus eugenii) associated with an orbivirus infection

Epizootics of sudden death in tammar wallabies (Macropus eugenii) occurred at six research facilities and zoological gardens in New South Wales, Australia, in late 1998 and at one Queensland research facility in March 1999. There were 120 confirmed tammar wallaby deaths during this period; however, population censuses indicated that up to 230 tammar wallabies may have died. The majority of animals died without premonitory signs. A small proportion of wallabies exhibited increased respiratory rate, sat with a lowered head shortly before death or were discovered in lateral recumbency, moribund and with muscle fasciculations. Gross postmortem findings consistently included massive pulmonary congestion, mottled hepatic parenchyma and subcutaneous oedema throughout the hindlimbs and inguinal region. Approximately 30% of the animals examined also had extensive haemorrhage within the fascial planes and skeletal muscle of the hindlimb adductors, inguinal region, ventral thorax, dorsal cervical region and perirenal retroperitoneal area. The tissues of affected animals became autolytic within a short period after death. Bacteriological examination of tissues from 14 animals did not provide any significant findings. Toxicological examination of the gastric and colonic contents of four animals did not reveal evidence of brodifacoume or other rodenticides. Viruses from the Eubenangee serogroup of the Orbivirus genus were isolated from the cerebral cortex of nine, and the myocardium of two, tammar wallabies and the liver and intestine of another tammar wallaby. A similar orbivirus was also isolated from the cerebrospinal fluid of another tammar wallaby that died suddenly. The disease agent appears to be a previously unrecognised orbivirus in the Eubenangee serogroup. This is the first report of epizootics of sudden deaths in tammar wallabies apparently associated with an orbivirus infection.     

Serum oxytetracycline concentrations in African elephant (Loxodonta africana) calves after long-acting formulation injection.

Serum oxytetracycline pharmacokinetics were studied in 18 African elephant (Loxodonta africana) calves. Each elephant received separate injections of oxytetracycline at approximately 18 mg/kg i.m. and 8 mg/kg i.v. in a cross-over study. Blood samples were drawn at 0, 24, 48, 72, and 96 hr postinjection. An additional sample was drawn 110 hr before the animals were reinjected in the cross-over study and a final blood sample was drawn 48 hr after the second dose. No lameness or stiffness was observed following i.m. injections. Serum oxytetracycline concentrations >0.5 microg/ml were present 48 hr after initial dosing for all elephants (i.m., i.v., high or low dosage). Only elephants given the high i.m. dosage (18 mg/kg) maintained levels >0.5 microg/ml 72 hr postinjection. No significant difference in serum oxytetracycline concentration with time was observed between the groups given different i.v. dosages. These studies demonstrated that quantifiable serum oxytetracycline concentrations can be maintained in young African elephants with a low-dosage multidose i.m. regimen.     

Preparation of a newly formulated long‐acting ceftiofur hydrochloride suspension and evaluation of its pharmacokinetics in pigs

Tang, S., Xiao, J., Guo, G., He, J., Hao, Z., Xiao, X. Preparation of a newly formulated long‐acting ceftiofur hydrochloride suspension and evaluation of its pharmacokinetics in pigs. J. vet. Pharmacol. Therap. 33 , 238–245. A new long‐acting ceftiofur hydrochloride preparation was formulated and its physical properties, stability, and pharmacokinetics were investigated in this study. The prepared ceftiofur hydrochloride suspension demonstrated a milk white consistency, was easy to re‐disperse and was stable in light, heat and humidity stability tests. Its other physical properties such as flowability, syringeability, settling volume ratio, particle size and distribution were perfectly consistent with the standard of Ministry of Agriculture of the People’s Republic of China. After intramuscular administration of a single dose in swine (5 mg/kg B.W.), the drug concentration‐time data in plasma were well fitted using the two‐compartment open model. Compared with the ceftiofur hydrochloride preparation (EXCENEL^®) from Pfizer, the peak concentration (C_max) in plasma was decreased by 2.34 times (P < 0.001), the half‐life of elimination phase (T_1/2β) was 1.65 times longer (P < 0.001), and the therapeutic level of ceftiofur above the lowest effective plasma concentration of 0.2 μg/mL (T > 0.2) was prolonged from 87.20 h to 135.36 h (P < 0.001). The ceftiofur hydrochloride suspension prepared in this study provides therapeutically effective plasma concentrations for a longer duration, which make it more effective and more convenient to use in the treatment of respiratory diseases that require the maintenance of therapeutic plasma concentrations over a long duration.     

Pharmacokinetic properties of toceranib phosphate (Palladia™, SU11654), a novel tyrosine kinase inhibitor,in laboratory dogs and dogs with mast cell tumors

Yancey, M. F., Merritt, D. A., Lesman, S. P., Boucher, J. F., Michels, G. M. Pharmacokinetic properties of toceranib phosphate (Palladia?, SU11654), a novel tyrosine kinase inhibitor, in laboratory dogs and dogs with mast cell tumors. J. vet. Pharmacol. Therap. 33 , 162–171. Toceranib phosphate (Palladia?, SU11654), an oral tyrosine‐kinase inhibitor, is under investigation for the treatment of mast cell tumors in dogs. The pharmacokinetics of toceranib phosphate has been characterized in dogs. Means of the following pharmacokinetic parameters were estimated following a 1.0 mg/kg i.v. dose to laboratory beagles: plasma clearance of 1.45 L/kg/h, volume of distribution of 29.7 L/kg, and terminal half‐life of 17.7 h. Following single oral doses of 3.25 mg/kg administered to laboratory beagles, mean C_max estimates ranged from 68.6 ng/mL to 112 ng/mL with t_max ranging from 5.3 h and 9.3 h postdose. Terminal half‐life was estimated at 31 h. Oral bioavailability was 76.9%. There were no statistically significant (P > 0.05) differences with any pharmacokinetic parameter due to fed/fasted state or with time during 13 weeks of every‐other‐day dosing at 3.25 mg/kg. Toceranib concentrations were proportional with dose over the range of 2.0 to 6.0 mg/kg. The pharmacokinetics of toceranib in client‐owned dogs of a variety of pure and mixed breeds with mast cell tumors was similar to that in healthy laboratory dogs. In summary, toceranib phosphate exhibited moderate clearance, a high volume of distribution, and a moderate elimination half‐life. After a single oral dose at 3.25 mg/kg, the concentration vs. time curve showed broad, sustained exposure with measurable concentrations for more than 48 h. These pharmacokinetic parameters support every‐other‐day administration of toceranib phosphate at an initial dose of 3.25 mg/kg for the treatment of mast cell tumors in dogs.     

The pharmacokinetics of mavacoxib,a long‐acting COX‐2 inhibitor,in young adult laboratory dogs

Cox, S.R., Lesman, S.P., Boucher, J.F., Krautmann, M.J., Hummel, B.D., Savides, M., Marsh, S., Fielder, A., Stegemann, M.R. The pharmacokinetics of mavacoxib, a long‐acting COX‐2 inhibitor, in young adult laboratory dogs. J. vet. Pharmacol. Therap. 33 , 461–470. The pharmacokinetics of mavacoxib were evaluated in an absolute bioavailability study, a dose‐proportionality study and a multi‐dose study in young healthy adult laboratory Beagle dogs and in a multi‐dose safety study in Beagle‐sized laboratory Mongrel dogs. When administered as the commercial tablet formulation at 4 mg/kg body weight (bw) to fasted dogs, the absolute bioavailability (F) of mavacoxib was 46.1%; F increased to 87.4% when mavacoxib was administered with food. Following intravenous administration, the total body plasma clearance of mavacoxib was 2.7 mL·h/kg, and the apparent volume of distribution at steady‐state was 1.6 L/kg. The plasma protein binding of mavacoxib was approximately 98% in various in vitro and ex vivo studies. The dose‐normalized area under the plasma concentration–time curve was similar in Beagle and Beagle‐sized Mongrel dogs when mavacoxib was administered with food. Mavacoxib exhibited dose‐proportional pharmacokinetics for single oral doses of 2–12 mg/kg in Beagle dogs and for multiple oral doses of 5–25 mg/kg in Beagle‐sized Mongrel dogs. Only minor accumulation occurred when mavacoxib was administered at doses of 2–25 mg/kg bw orally to laboratory dogs with a 2‐week interval between the 1st two doses but with a monthly interval thereafter. Across all three Beagle studies (n = 63) the median terminal elimination half‐life (t_½) was 16.6 days, with individual values ranging 7.9–38.8 days. The prolonged t_½ for mavacoxib supports the approved regimen in which doses are separated by 2–4 weeks.     

Comparison of the serum pharmacokinetics of a long acting and a conventional oxytetracycline injection

A crossover study was carried out in cattle to determine the serum pharmacokinetics of a standard dose (20 mg/kg bodyweight) of oxytetracycline given either as a conventional injectable formulation or as a long acting formulation. For reference purposes, an intravenous treatment (also given at 20 mg/kg) was included in the trial protocol. A comparison of the two treatment regimes showed that the long acting formulation gave a significantly lower peak oxytetracycline serum concentration, with a significant extension of drug serum concentration. The long acting formulation also showed a longer serum half life and a significantly greater area under the curve value, calculated from 36 hours onwards, together with serum oxytetracycline concentrations which exceeded 0.5 microgram/ml for 86.8 as opposed to 51.5 hours for the conventional formulation. It is concluded that the use of the long acting formulation in cattle leads to a more sustained serum oxytetracycline concentration than does the same dose of conventional formulation.     

Pharmacokinetics of ceftiofur crystalline-free acid sterile suspension in the equine

Collard, W. T., Cox, S. R., Lesman, S. P., Grover, G. S., Boucher, J. F., Hallberg, J. W., Robinson, J. A., Brown, S. A. Pharmacokinetics of ceftiofur crystalline‐free acid sterile suspension in the equine. J. vet. Pharmacol. Therap. 34 , 476–481. Absolute bioavailability and dose proportionality studies were performed with ceftiofur in horses. In the absolute bioavailability study, thirty animals received either an intravenous dose of ceftiofur sodium at 1.0 mg/kg or an intramuscular (i.m.) dose of ceftiofur crystalline‐free acid (CCFA) at 6.6 mg/kg. In the dose proportionality study, 48 animals received daily i.m. ceftiofur sodium injections at 1.0 mg/kg for ten doses or two doses of CCFA separated by 96 h, with CCFA doses of 3.3, 6.6, or 13.2 mg/kg. Noncompartmental and mixed‐effect modeling procedures were used to assess pharmacokinetics (PK). CCFA was well absorbed with a bioavailability of 100%. AUC_0–∞ and C_max increased in a dose‐related manner following administration of the two doses of CCFA at 3.3, 6.6, and 13.2 mg/kg. The least‐squares mean terminal half‐life (t_½) following the tenth daily i.m. injection of ceftiofur sodium at 2.2 mg/kg was 40.8 h, but the least‐squares mean t_½ following the second i.m. injection of CCFA at 6.6 mg/kg was 100 h. The time that plasma ceftiofur equivalent concentrations remain above a threshold concentration of 0.2 μg/mL has been associated with efficacy, and following administration of two 6.6 mg/kg doses of CCFA, the mean time above 0.2 μg/mL was 262 h. Simulations with the nonlinear mixed‐effect PK model predicted that more than 97.5% of horses will have plasma ceftiofur equivalent concentrations >0.2 μg/mL for 96 h after the second 6.6 mg/kg dose of CCFA.     

‘Pink eye’ or ‘zere oogjes’ or Keratoconjunctivitis Infectiosa Ovis (KIO)

In a comparative study the clinical efficacy of five different treatments of keratoconjunctivitis infectiosa ovis (KIO) were tested, namely an intramuscular injection of chloramphenicol base (dosage 15 mg/kg), spiramycin base (Suanovil^® dosages 10 to 25 mg/kg), oxytetracycline (Engemycine^® Forte, Terramycin^® LA, dosages respectively 5 and 10 mg/kg), tiamulin (Dynamutulin^®, dosage 10 mg/kg) and subcutaneous injection of procaine penicillin G, benzathine penicillin G, and dihydrostreptomycin in the lower eyelid.

It appeared from these field trials that spiramycin base, oxytetracycline and tiamulin had a clearly positive effect on the clinical course of ‘pink eye’, although with tiamulin there was only a temporary effect (high percentage of relapses).

In view of the field data the following dosage schemes are, for the time being, advised: spiramycin. base (Suanovil^®), and oxytetracycline (formulation with a good biological availability) both 20 to 30 mg/kg and, if necessary, to be repeated on days 5 and 10 after the first intramuscular injection. The dosage scheme advised for tiamulin is 20–30 mg/kg to be repeated on day 3 and if necessary on days 6 and 9 after the intramuscular injection. In mild cases it is sufficient to rub the eyes with for example oxytetracycline eye‐ointment, a few times a day.     

Pharmacokinetic-pharmacodynamic integration of orbifloxacin in Japanese quail (Coturnix japonica) following oral and intravenous administration

Hawkins, M. G., Taylor, I. T., Byrne, B. A., Armstrong, R. D., Tell, L. A. Pharmacokinetic–pharmacodynamic integration of orbifloxacin in Japanese quail (Coturnix japonica) following oral and intravenous administration. J. vet. Pharmacol. Therap. 34 , 350–358. The pharmacokinetics of single‐dose administration of orbifloxacin were determined in Japanese quail (Coturnix japonica) at dosages of 5 mg/kg intravenous (i.v. n = 12) and 7.5 mg/kg oral (p.o.; n = 5), 10 mg/kg p.o. (n = 5), 15 mg/kg p.o. (n = 12) and 20 mg/kg p.o. (n = 5) via HPLC. Orbifloxacin minimal inhibitory concentrations (MICs) against 22 microbial isolates from various bird species were performed to calculate pharmacodynamic surrogate markers. The concentration–time data were analyzed using a naïve pooled data (NPD) approach and compartmental and noncompartmental methods. Steady‐state volume of distribution (Vd_ss) and total body clearance (Cl) after i.v. administration were estimated to be 1.27 L/kg and 0.60 L/h·kg, respectively. Following 15 and 20 mg/kg p.o. dose, bioavailability was 102% and 117%, respectively. The harmonic mean of the corresponding terminal half‐lives (T_1/2λ_z) across all the dose groups was 1.71 h. The C_max/MIC₉₀ and AUC_0∞24/MIC₉₀ for the 15 and 20 mg/kg p.o. doses were ≥5.22 and ≥8.98, and ≥25.80 and ≥39.37 h, respectively. The results of this study suggest that 20 mg/kg orbifloxacin p.o. would be a rational daily dose to treat susceptible infections in Japanese quail not intended for food consumption. For more sensitive bacterial organisms, 15 mg/kg p.o. may also be effective.     

The pharmacokinetics of oxytetracycline following intravenous administration in healthy and diseased pigs

Pijpers, A., Schoevers, E.J., van Gogh, H., van Leengoed, L.A.M.G., Visser, I.J.R., van Miert, A.S.J.P.A.M. & Verheijden, J.H.M. The pharmacokinetics of oxytetracycline following intravenous administration in healthy and diseased pigs. J. vet. Pharmacol. Therap. 13, 320–326.
The pharmacokinetics of oxytetracycline (OTC) were studied in healthy pigs and in pigs endobronchially inoculated with Actinobacillus pleuropneumoniae toxins. In two groups of seven pigs OTC was administered intravenously in a single dose of 10 or 50 mg/kg, respectively. OTC was administered to clinically healthy pigs and 7 days later at 3 h after a challenge with A. pleuropneumoniae toxins. Pneumonia developed in toxin-treated pigs. In the challenged pigs there was a decreased distribution-rate constant (α) and a significantly increased elimination-rate constant (ß) ( P <0.05). Moreover, the apparent volume of distribution (V_dß) was decreased. The elimination half-lives (t_1/2ß) were approximately 6 h in the healthy pigs and 5 h in the diseased animals. There was no difference in the pharmacokinetic profile of OTC following administration of 50 mg/kg compared to 10 mg/kg.
A. Pijpers, Department of Herd Health and Reproduction, PO Box 80.151, 3508 TD Utrecht, The Netherlands.     

Diazepam pharmacokinetics after nasal drop and atomized nasal administration in dogs

Musulin, S. E., Mariani, C. L., Papich, M. G. Diazepam pharmacokinetics after nasal drop and atomized nasal administration in dogs. J. vet. Pharmacol. Therap. 34 , 17–24. The standard of care for emergency therapy of seizures in veterinary patients is intravenous (i.v.) administration of benzodiazepines, although rectal administration of diazepam is often recommended for out‐of‐hospital situations, or when i.v. access has not been established. However, both of these routes have potential limitations. This study investigated the pharmacokinetics of diazepam following i.v., intranasal (i.n.) drop and atomized nasal administration in dogs. Six dogs were administered diazepam (0.5 mg/kg) via all three routes following a randomized block design. Plasma samples were collected and concentrations of diazepam and its active metabolites, oxazepam and desmethyldiazepam were quantified with high‐performance liquid chromatography (HPLC). Mean diazepam concentrations >300 ng/mL were reached within 5 min in both i.n. groups. Diazepam was converted into its metabolites within 5 and 10 min, respectively, after i.v. and i.n. administration. The half lives of the metabolites were longer than that of the parent drug after both routes of administration. The bioavailability of diazepam after i.n. drop and atomized nasal administration was 42% and 41%, respectively. These values exceed previously published bioavailability data for rectal administration of diazepam in dogs. This study confirms that i.n. administration of diazepam yields rapid anticonvulsant concentrations of diazepam in the dog before a hepatic first‐pass effect.     

Culture and Stimulation of Tammar Wallaby Lymphocytes

We describe the culture and stimulation of lymphocytes from the model marsupial, the tammar wallaby (Macropus eugenii). We also describe the capacity of tammar wallaby lymphocytes isolated from blood, spleen and lymph nodes to produce soluble immunomodulatory factors. Culture conditions were optimized for mitogen-driven stimulation using the plant lectin phytohaemagglutinin (PHA). Products secreted by stimulated cells were harvested and crudely fractionated before they were added back to freshly isolated lymphocytes. Using the 3-(4,5-dimethylthiazol-2-yl)-2,5 diphenyltetrazolium bromide (MTT) assay, both stimulatory and inhibitory bioactive factors were detected in serum-free supernatants harvested from mitogen-treated peripheral blood mononuclear cells. This paper describes the capacity of leukocytes of the tammar wallaby to respond to mitogenic stimulation and to produce soluble, low-molecular-weight bioactive molecules that possess cytokine-like activity.     

Pharmacokinetics of oxytetracycline in hemolymph from the Chinese mitten crab, Eriocheir sinensis

Feng, Q., Wu, G. H., Liang, T. M., Ji, H. Y., Jiang, X. J., Gu, W., Wang, W. Pharmacokinetics of oxytetracycline in hemolymph from the Chinese mitten crab, Eriocheir sinensis. J. vet. Pharmacol. Therap. 34 , 51–57. The purpose of this study was to investigate the hemolymph kinetics and depuration time of oxytetracycline following intramuscular administration at doses of 2, 8 and 40 mg/kg body weight, respectively. The concentration of OTC in hemolymph was assayed using solid phase extraction and high performance liquid chromatography. The elimination half‐life of the terminal part of the elimination phase (t_1/2β) ranged from 87.9 to 114.3 h. The total body clearance (CL_b) was 0.0430 L/kg/h at the lower dose, 0.0123 L/kg/h at the medium dose and 0.0013 L/kg/h at the higher dose. The apparent volume of the central compartment (V_c) was found to be 1.383, 0.699 and 0.143 L/kg respectively. The depuration time for each dose was 13.6, 29.6 and 57.6 days, respectively. Results from the present study suggest that the 40 mg/kg dose might have the best therapeutic efficacy following intramuscular administration.     

Pharmacokinetics of acetaminophen, codeine, and the codeine metabolites morphine and codeine-6-glucuronide in healthy Greyhound dogs

KuKanich, B. Pharmacokinetics of acetaminophen, codeine, and the codeine metabolites morphine and codeine‐6‐glucuronide in healthy Greyhound dogs. J. vet. Pharmacol. Therap. 33 , 15–21. The purpose of this study was to determine the pharmacokinetics of codeine and the active metabolites morphine and codeine‐6‐glucuronide after i.v. codeine administration and the pharmacokinetics of acetaminophen (APAP), codeine, morphine, and codeine‐6‐glucuronide after oral administration of combination product containing acetaminophen and codeine to dogs. Six healthy Greyhound dogs were administered 0.734 mg/kg codeine i.v. and acetaminophen (10.46 mg/kg mean dose) with codeine (1.43 mg/kg mean dose) orally. Blood samples were collected at predetermined time points for the determination of codeine, morphine, and codeine‐6‐glucuronide plasma concentrations by LC/MS and acetaminophen by HPLC with UV detection. Codeine was rapidly eliminated after i.v. administration (T½ = 1.22 h; clearance = 29.94 mL/min/kg; volume of distribution = 3.17 L/kg) with negligible amounts of morphine present, but large amounts of codeine‐6‐glucuronide (C_max = 735.75 ng/mL) were detected. The oral bioavailability of codeine was 4%, morphine concentrations were negligible, but large amounts of codeine‐6‐glucuronide (C_max = 1952.86 ng/mL) were detected suggesting substantial first pass metabolism. Acetaminophen was rapidly absorbed (C_max = 6.74 μg/mL; T_max = 0.85 h) and eliminated (T½ = 0.96 h). In conclusion, the pharmacokinetics of codeine was similar to other opioids in dogs with a short half‐life, rapid clearance, large volume of distribution, and poor oral bioavailability. High concentrations of codeine‐6‐glucuronide were detected after i.v. and oral administration.     

Pharmacokinetics and toxicity of ciprofloxacin in adult horses

Yamarik, T. A., Wilson, W. D., Wiebe, V. J., Pusterla, N., Edman, J., Papich, M. G. Pharmacokinetics and toxicity of ciprofloxacin in adult horses. J. vet. Pharmacol. Therap. 33 , 587–594. Using a randomized, cross‐over study design, ciprofloxacin was administered i.g. to eight adult mares at a dose of 20 mg/kg, and to seven of the eight horses at a dose of 5 mg/kg by bolus i.v. injection. The mean C₀ was 20.5 μg/mL (±8.8) immediately after i.v. administration. The C_max was 0.6 μg/mL (±0.36) at T_max 1.46 (±0.66) h after the administration of oral ciprofloxacin. The mean elimination half‐life after i.v. administration was 5.8 (±1.6) h, and after oral administration the terminal half‐life was 3.6 (±1.7) h. The overall mean systemic availability of the oral dose was 10.5 (±2.8)%. Transient adverse effects of mild to moderate severity included agitation, excitement and muscle fasciculation, followed by lethargy, cutaneous edema and loss of appetite developed in all seven horses after i.v. administration. All seven horses developed mild transient diarrhea at 36–48 after i.v. dosing. All eight horses dosed intragastrically experienced adverse events attributable to ciprofloxacin administration. Adverse events included mild transient diarrhea to severe colitis, endotoxemia and laminitis necessitating euthanasia of three horses on humane grounds. The high incidences of adverse events preclude oral and rapid i.v. push administration of ciprofloxacin.     

The pharmacokinetics and in vitro cyclooxygenase selectivity of deracoxib in horses

Davis, J. L., Marshall, J. F., Papich, M. G., Blikslager, A. T., Campbell, N. B. The pharmacokinetics and in vitro cyclooxygenase selectivity of deracoxib in horses. J. vet. Pharmacol. Therap. 34 , 12–16. The purpose of this study was to determine the pharmacokinetics of deracoxib following oral administration to horses. In addition, in vitro equine whole blood cyclooxygenase (COX) selectivity assays were performed. Six healthy adult horses were administered deracoxib (2 mg/kg) orally. Plasma samples were collected prior to drug administration (time 0), and 10, 20, 40 min and 1, 1.5, 2, 4, 6, 8, 12, 24, and 48 h after administration for analysis with high pressure liquid chromatography using ultraviolet detection. Following PO administration, deracoxib had a long elimination half‐life (t_1/2k₁₀) of 12.49 ± 1.84 h. The average maximum plasma concentration (C_max) was 0.54 μg/mL, and was reached at 6.33 ± 3.44 h. Bioavailability was not determined because of the lack of an IV formulation. Results of in vitro COX selectivity assays showed that deracoxib was selective for COX‐2 with a COX‐1/COX‐2 ratio of 25.67 and 22.06 for the IC₅₀ and IC₈₀, respectively. Dosing simulations showed that concentrations above the IC₈₀ for COX‐2 would be maintained following 2 mg/kg PO q12h, and above the IC₅₀ following 2 mg/kg PO q24h. This study showed that deracoxib is absorbed in the horse after oral administration, and may offer a useful alternative for anti‐inflammatory treatment of various conditions in the horse.     

Pharmacokinetics and bioavailability of valnemulin in broiler chickens

Wang, R., Yuan, L.G., He, L.M., Zhu, L.X., Luo, X.Y., Zhang, C.Y., Yu, J.J., Fang, B.H., Liu, Y.H. Pharmacokinetics and bioavailability of valnemulin in broiler chickens. J. vet. Pharmacol. Therap. 34 , 247–251. The objective of this study was to investigate the pharmacokinetics and bioavailability of valnemulin in broiler chickens after intravenous (i.v.), intramuscular (i.m.) and oral administrations of 10 mg/kg body weight (bw). Plasma samples were analyzed by high‐performance liquid chromatography–tandem mass spectrometry (HPLC‐MS/MS). Pharmacokinetic characterization was performed by non‐compartmental analysis using WinNonlin program. After intravenous administration, distribution was wide with the volume of distribution based on terminal phase(V_z) of 4.27 ± 0.99 L /kg. Mean valnemulin t_1/2β(h), Cl_β(L /h /kg), V_ss (L /kg) and AUC_(0–∞)(μg·h /mL) values were 2.85, 0.99, 2.72 and 10.34, respectively. After intramuscular administration, valnemulin was rapidly absorbed with a C_max of 2.2 μg/mL achieved at 0.43 h (t_max), and the absolute bioavailability (F) was 88.81%; and for the oral route the same parameters were 0.66 ± 0.15 μg/mL, 1.54 ± 0.27 h and 74.42%. A multiple‐peak phenomenon was present after oral administration. The plasma profile of valnemulin exhibited a secondary peak during 2–6 h and a tertiary peak at 32 h. The favorable PK behavior, such as the wide distribution, slow elimination and acceptable bioavailability indicated that it is likely to be effective in chickens.     

Florfenicol pharmacokinetics in healthy adult alpacas after subcutaneous and intramuscular injection

Holmes, K., Bedenice, D., Papich, M. G. Florfenicol pharmacokinetics in healthy adult alpacas after subcutaneous and intramuscular injection. J. vet. Pharmacol. Therap.  35 , 382–388. A single dose of florfenicol (Nuflor^®) was administered to eight healthy adult alpacas at 20 mg/kg intramuscular (i.m.) and 40 mg/kg subcutaneous (s.c.) using a randomized, cross‐over design, and 28‐day washout period. Subsequently, 40 mg/kg florfenicol was injected s.c. every other day for 10 doses to evaluate long‐term effects. Maximum plasma florfenicol concentrations (C_max, measured via high‐performance liquid chromatography) were achieved rapidly, leading to a higher C_max of 4.31 ± 3.03 μg/mL following administration of 20 mg/kg i.m. than 40 mg/kg s.c. (C_max: 1.95 ± 0.94 μg/mL). Multiple s.c. dosing at 48 h intervals achieved a C_max of 4.48 ± 1.28 μg/mL at steady state. The area under the curve and terminal elimination half‐lives were 51.83 ± 11.72 μg/mL·h and 17.59 ± 11.69 h after single 20 mg/kg i.m. dose, as well as 99.78 ± 23.58 μg/mL·h and 99.67 ± 59.89 h following 40 mg/kg injection of florfenicol s.c., respectively. Florfenicol decreased the following hematological parameters after repeated administration between weeks 0 and 3: total protein (6.38 vs. 5.61 g/dL, P < 0.0001), globulin (2.76 vs. 2.16 g/dL, P < 0.0003), albumin (3.61 vs. 3.48 g/dL, P = 0.0038), white blood cell count (11.89 vs. 9.66 × 10³/μL, P < 0.044), and hematocrit (27.25 vs. 24.88%, P < 0.0349). Significant clinical illness was observed in one alpaca. The lowest effective dose of florfenicol should thus be used in alpacas and limited to treatment of highly susceptible pathogens.     

'Pink eye' or 'zere oogjes' or keratoconjunctivitis infectiosa ovis (KIO). Clinical efficacy of a number of antimicrobial therapies

In a comparative study the clinical efficacy of five different treatments of keratoconjunctivitis infectiosa ovis (KIO) were tested, namely an intramuscular injection of chloramphenicol base (dosage 15 mg/kg), spiramycin base (Suanovil dosages 10 to 25 mg/kg), oxytetracycline (Engemycine Forte, Terramycin LA, dosages respectively 5 and 10 mg/kg), tiamulin (Dynamutulin, dosage 10 mg/kg) and subcutaneous injection of procaine penicillin G, benzathine penicillin G. and dihydrostreptomycin in the lower eyelid. It appeared from these field trials that spiramycin base, oxytetracycline and tiamulin had a clearly positive effect on the clinical course of 'pink eye', although with tiamulin there was only a temporary effect (high percentage of relapses). In view of the field data the following dosage schemes are, for the time being, advised: spiramycin base (Suanovil), and oxytetracycline (formulation with a good biological availability) both 20 to 30 mg/kg and, if necessary, to be repeated on days 5 and 10 after the first intramuscular injection. The dosage scheme advised for tiamulin is 20-30 mg/kg to be repeated on day 3 and if necessary on days 6 and 9 after the intramuscular injection. In mild cases it is sufficient to rub the eyes with for example oxytetracycline eye-ointment, a few times a day.     

Penetration of oxytetracycline into the nasal secretions and relationship between nasal secretions and plasma oxytetracycline concentrations after oral and intramuscular administration in healthy pigs

Bimazubute, M., Cambier, C., Baert, K., Vanbelle, S., Chiap, P., Gustin, P. Penetration of oxytetracycline into the nasal secretions and relationship between nasal secretions and plasma oxytetracycline concentrations after oral and intramuscular administration in healthy pigs. J. vet. Pharmacol. Therap. 34 , 176–183. The penetration of oxytetracycline (OTC) in plasma and nasal secretions of healthy pigs was evaluated during the first study, in response to oral dose of 20 mg of OTC per kg of body weight (bwt) per day as a 400 mg/kg feed medication (n = 5) and to intramuscular (i.m.)‐administered formulations at 10 mg/kg bwt (n = 5), 20 mg/kg bwt (n = 5), 40 mg/kg bwt (n = 5). Concentrations of OTC in plasma and nasal secretions were determined by a validated ultra‐high performance liquid chromatography associated to tandem mass spectrometry method (UPLC/MS/MS). The objectives were to select the efficacy treatment and to evaluate the possibility to predict nasal secretions concentrations from those determined in plasma. The animals were housed together in each experiment. In each group, the treatment was administered once daily during 6 consecutive days, and nasal secretions and plasma were collected after 4 and 24 h at day 2 and day 6. For oral administration, only one medicated feed was prepared and distributed to all the animals together and was consumed in approximately 1 h. To meet recommendations of efficacy for OTC in nasal secretions, only the i.m. of 40 mg/kg bwt associated to an inter‐dosing interval of 24 h provides and maintains concentrations in nasal secretions ≥1 μg/mL, appropriate to the MIC 50 and 90 of Pasteurella multocida and Bordetella bronchiseptica, respectively, the main pathological strains in nasal secretions. It has been demonstrated that, using a generalized linear mixed model (GLMM), OTC in the nasal secretions (μg/mL) can be predicted taking into account the OTC concentrations in plasma (μg/mL), according to the following equation: OTC_{nasal secretions} = 0.28 OTC_plasma?1.49. In a second study, the pharmacokinetic behaviour of OTC in plasma and nasal secretions of healthy pigs was investigated, after single‐dose i.m. of 40 mg/kg bwt of the drug. Blood samples and nasal secretions were collected at predetermined times after drug administration. The data collected in 10 pigs for OTC were subjected to non‐compartmental analysis. In plasma, the maximum concentration of drug (C_max), the time at which this maximum concentration of drug (T_max) was reached, the elimination half‐life (t½) and the area under the concentration vs. time curve (AUC) were, respectively, 19.4 μg/mL, 4.0, 5.1 h and 150 μg·h/mL. In nasal secretions, C_max, T_max, t½ and AUC were, respectively, 6.29 μg/mL, 4.0, 6.6 h and 51.1 μg·h/mL.