The aim of the present paper was to test the oral administration of oral immediate release capsules of tramadol in dogs, to asses both its pharmacokinetic properties and its urine profile. After capsules administration of tramadol (4 mg/kg), involving eight male Beagle dogs, the concentration of tramadol and its main metabolites, M1, M2 and M5, were determined in plasma and urine using an HPLC method. The plasma concentrations of tramadol and metabolites were fitted on the basis of mono- and non-compartmental models, respectively. Tramadol was detected in plasma from 5 min up to 10 h in lesser amounts than M5 and M2, detected at similar concentrations, while M1 was detected in negligible amounts. In the urine, M5 and M1 showed the highest and smallest amount, respectively; M1 and M5 resulted widely conjugate with glucuronic acid. In conclusion, after oral administration of tramadol immediate release capsules, the absorption of the active ingredient was rapid, but its rapid metabolism quickly transformed the parental drug to high levels of M5 and M2, showing an extensive elimination via the kidney. Hence, in the dog, the oral immediate release pharmaceutical formulation of tramadol would have different pharmacokinetic behaviour than in humans.
Drugs that provide effective analgesia in cats are limited. The aim of the study was to assess the pharmacokinetics of grapiprant after 2 mg/kg administration via p.o. and i.v. routes in cats. Six healthy adult cats were used according to an open, single-dose, two-treatment, two-period, randomized cross-over design. Cats were assigned to two treatment groups and administered with 2 mg/kg of grapiprant (pure powder) through p.o. and i.v. administration. Blood samples were collected at preassigned times and analysed by a validated HPLC method. After both administrations, grapiprant concentrations were detectable in plasma for up to 24 hr in five of six animals. The critical parameters including clearance (173.2 ml hr kg , range 120-326 ml hr kg ) and volume of distribution (918 ml/kg, range 611-1608 ml/kg) were calculated from the i.v. group. The mean oral F% was low (39.6% range 31.5%-45.2%). If the assumption that the minimal effective concentration in dogs (164 ng/ml) applies in cats too, grapiprant orally administered at 2 mg/kg might be effective for 10 hr. Further studies are necessary to establish the minimal effective concentration in this animal species.
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