The non-steroidal anti-inflammatory drug (NSAID) carprofen was administered to dogs as a mixed-micelle solution at a dose rate of 0???7 mg/kg intravenously, as a palatable paste at a dose rate of 0???7 mg/kg orally, and as an oral tablet formulation at a dose rate of 0???7 mg/kg and 4-0 mg/kg orally for pharmacokinetic studies. It was also administered as an oral tablet formulation at a dose rate of 9-0 mg/kg orally daily for 14 days in a tolerance study. The pharmacokinetics following intravenous administration at a dose rate of 0???7 mg/kg indicate that carprofen has a small volume of distribution (Vd area = 0???09-0-25 litres), a slow systemic clearance (Cls = 1???34-5-57 ml/min) and an elimination half-life of 3???20-11-77 hours. Both oral paste and tablet preparations were highly bioavailable and absorption was proportional to dose rate at 0???7 mg/kg and 4-0 mg/kg bodyweight. Given once daily at dose rates likely to be used clinically it is unlikely to accumulate in the plasma. Carprofen administered as a palatable paste at a dose rate of 0???7 mg/kg did not inhibit serum thromboxane generation and this drug may therefore have a mode of action different from most NSAIDs. Carprofen was well tolerated when administered as an oral tablet formulation at a dose rate of 9.0 mg/kg daily for 14 days in healthy beagle do
The concentrations of ivermectin in the gastrointestinal tract of sheep and cattle were determined after subcutaneous administration of ivermectin. Ivermectin was not detected (limit of detection 1 ng/ml) in abomasal and ruminal fluids either after a normal therapeutic dose of 200 micrograms/kg or even at an increased dose of 2000 micrograms/kg. It was also not detected in abomasal and ruminal fluids of a sheep infected with the abomasal parasite Ostertagia circumcincta. However, ivermectin was detectable at similar concentrations in abomasal mucus and in small intestinal mucus. Excretion of ivermectin was high in bile but the concentrations in small intestinal mucus, distal and proximal to the bile duct opening, were similar. It is hypothesized that the low efficacy of ivermectin against small intestinal nematodes compared with abomasal nematodes is not due to differences in ivermectin concentrations in the predilection sites but is probably due to tachyphylaxis in the nematodes allowing the small intestinal nematodes to re-establish before they have left their predilection site. Ivermectin was excreted in the milk of ewes at concentrations similar to those in plasma. Lambs suckling ivermectin-treated ewes received about 4% of a normal therapeutic dose (200 micrograms/kg) via the milk.
The oral administration of phenylbutazone at a dose rate of approximately 10 mg per kg per day for seven to 14 days resulted in the development of signs of toxicity in seven of eight ponies treated. Clinical signs included anorexia, depression and abdominal oedema. Blood biochemical determinations showed a decrease in total plasma protein and calcium concentrations with an increase in urea concentration. These changes were considered indicative of water retention. Three of the ponies died during treatment following the development of shock. Shock was considered to arise from the submucosal oedema of the large intestine observed on necropsy. Oral ulceration was also found in these animals. In two ponies intravenous administration of phenylbutazone (4.0 mg per kg) for seven days was studied. In one of these ponies a marked decrease in total plasma protein concentration occurred.
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