Relaxation of equine tracheal muscle in vitro by different adrenoceptor drugs

Strips of tracheal smooth muscle from 12 horses were contracted by carbachol in tissue baths under isometric conditions. This contraction (≅50% of maximum: EC₅₀) was relaxed completely with adrenoceptor drugs. The only exception was clenbuterol, where the degree of relaxation was ≅90%. In all horses the EC₅₀-value for isoprenaline (mean 1.6 × 10⁻⁸M) was less than that for adrenaline (mean 9.6 × 10^{− 8}M) and noradrenaline (mean 1. 8 × 10_{- 6}M). The potency ratio was 1 < 6 < 110 which indicates that the β₂-subtype dominates among the β-adrenoceptors of equine airways. All preparations were also very sensitive to the specific and potent β₂-receptor agonists clenbuterol (mean 5.7 × 10^{− 9}M) and procaterol (mean 3.6 × 10⁻¹⁰M). No differences in EC₅₀-values due to age, sex and breed were observed in this material. The standard deviation of the mean EC₅₀-values seems to be larger for the specific β₂-adrenoceptor agonists than for the unspecific. A reason for this could be differences in the pattern of the β-adrenoceptor population.     

Distribution studies of theophylline: microdialysis in rat and horse and whole body autoradiography in rat

After intravenous administration of theophylline, microdialysis has been used for studying the non protein bound theophylline concentration in blood and in lung tissue in the rat as well as in two horses. The distribution pattern of 14C-theophylline in the rat was also investigated. When the distribution of theophylline was completed the time course of free drug in the interstitial fluid in lung tissue was in good agreement with the total concentration-time profile in plasma in both species. In the rat the free concentration of theophylline in the lung was slightly lower than the free concentration in the blood from 40 to 300 min. The in vivo protein binding in blood was 48.8 +/- 6.2% in the rats (n = 9) and 8-25% in the horses (n = 2). The whole body autoradiography study in rat showed that the concentration of radioactivity in the lung followed the blood concentration very closely up to 24 h after injection. The effect of theophylline in the lung can be assumed to be related to the plasma concentration of theophylline, since the concentration-time profile in plasma reflects the time course in the lung.     

Plasma concentration, mammary excretion and side-effects of phenylbutazone after repeated oral administration in healthy cows

Seven clinically healthy dairy cows were each given 2.5 gphenylbutazone (approximately 5 mg/kg body weight) by oral administration twice daily for 8 days. The concentrations of phenylbutazone in plasma and milk and several blood parameters were studied. The minium plasma concentration during steady state was 100.4 ± 7.3 μg/ml. During the same period the milk concentration never exceeded 1% of the plasma concentration. The elimination half-life in plasma was 38.6 ± 3.7 h. Five days after administration had been discontinued, the milk concentration was 0.05 ± 0.01 μg/ml. All seven cows were clinically healthy throughout the experiment. The most pronounced side-effect of the blood parameters studied was a decreased concentration of leucocytes to about two-thirds of the control value. This might have a pronounced influence on the effectiveness of the immune system. There was also a significant decrease in total bilirubin indicating a decrease in the breakdown of erythrocytes.     

Pharmacokinetics and cardio-respiratory effects of oral theophylline in exercised horses

The pharmacokinetics of theophylline at rest and the effects on cardio-respiratory and blood lactate responses to exercise were investigated after repeated oral administrations in six healthy Standardbred horses. A dose of 5 mg/kg body weight was administered every 12 h. The binding of theophylline to plasma protein was also determined. There was good agreement between predicted and observed plasma concentrations of theophylline at steady state. The mean half-life of elimination was shown to be 17.0 +/- 2.5 h, the mean half life of absorption was 1.6 +/- 1.8 h, the apparent volume of distribution was 852 +/- 99.0 ml/kg and total plasma clearance 0.61 +/- 0.08 ml/kg/min. Theophylline showed very low plasma protein binding (12%). The heart rate and blood lactate levels, during and after exercise, were significantly increased during theophylline-treatment. There was an increase of the arterial oxygen tension after exercise and the arterial carbon dioxide values before and after exercise were significantly lower than the premedication values. No severe adverse effects of the drug were noted. The recommended oral dose is therefore 5 mg/kg every 12 h but due to inter-individual variation, an adjustment of the dose may be necessary. The changes in the studied exercise parameters indicate that the performance capacity may be impaired by theophylline in the healthy horse.     

Pharmacokinetic studies of phenylbutazone in cattle

The disposition kinetics and systemic availability of phenylbutazone were studied in healthy dairy cows. The same dose (6mg/kg) of phenylbutazone was administered by the i.v., i.m. and oral routes. The elimination half time after intravenous administration ranged from 32.4 to 60.8h. The result suggested that the distribution of phenylbutazone in cows can be described by a two-compartment open model. Total body clearance of the drug had a mean value of 0.0016 ml/kg-h. The overall tissue to plasma level ratio (k₁₂/k₂₁-β), after distribution equilibrium had been attained was 0.64. Phenylbutazone was shown, by an equilibrium dialysis method, to be highly bound to plasma proteins (93%) at serum levels of 100 μ/ml. The systemic availability of phenylbutazone was 69% and 89% when administered orally and intramuscularly respectively. Animals receiving half the dose of phenylbutazone (3 mg/kg) intravenously did not differ from cows receiving 6 mg/kg in elimination half-life and other distribution and elimination kinetic parameters. Based on the experimental data obtained, a dosage regimen is proposed, consisting of a priming oral dose of 9 mg/kg and maintenance doses of 4.5 mg/kg of phenylbutazone orally administered at 48 h intervals. The relatively long half-life in cattle, however, complicates the use of phenylbutazone because of the drug residue problem.     

Clenbuterol plasma concentrations after repeated oral administration and its effects on cardio-respiratory and blood lactate responses to exercise in healthy Standardbred horses

To evaluate the effects of clenbuterol on cardio-respiratory parameters and blood lactate relation to exercise tolerance, experimental horses performed standardized exercise tests on a high-speed treadmill before and after administration of the drug. Clenbuterol was administered in feed to six healthy Standardbreds at a dose rate of 0.8 micrograms/kg b.wt twice daily for 5.5 days. Each horse was tested twice, without and with a respiratory mask, during two consecutive days. One week elapsed between the baseline tests without drug and the tests with clenbuterol treatment (each horse served as its own control). The results show an unchanged heart rate response to exercise 2 h after the last clenbuterol administration. The blood lactate response and the arterial oxygen tension during exercise did not differ before and after drug treatment. The oxygen uptake as well as pulmonary ventilation relative to the work load performed was essentially unaffected. The arterial pH during exercise was significantly increased (P less than 0.05) following clenbuterol treatment. Plasma levels of clenbuterol were maximal 2 h post-administration with values between 0.45 and 0.75 ng/ml. The plasma half-life of elimination was 10.4 h (+/- 2.25 SD). In conclusion, clenbuterol did not cause any major effects on the cardio-respiratory and blood lactate parameters studied in healthy horses performing submaximal exercise tolerance tests.     

Pharmacokinetic studies of theophylline in horses

Ingvast-Larsson, C, Paalzow, G., Paalzow, L., Ottosson, T., Lindholm, A. & Appelgren, L.E. Pharmacokinetic studies of theophylline in horses. J. vet. Pharmacol. Therap. 8, 76–81.
The pharmacokinetics of theophylline were determined in Standardised trotters after single intravenous and oral administration. A bi-exponential equation was fitted to the intravenous data and a tri-exponential equation to the oral data. The biological half-life of theophylline was found to be 14.8 h, the volume of distribution 1.02 l/kg and the total plasma clearance 0.86 ml/kg/min. The oral absorption of the drug was complete (bioavailability 108%) and rapid (absorption half-life 0.4 h).
Professor L. E. Appelgren, Department of Pharmacology and Toxicology, Biomedicum. Box 573, S-75J 23 X'ppsala, Sweden.