Six calves (weight 210 to 230 kg) were dosed with an intra-ruminal slow-release bolus prepared to deliver ivermectin at a low daily dosage for 135 days. Ivermectin concentrations in jugular blood 160 days post-treatme...
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Six calves (weight 210 to 230 kg) were dosed with an intra-ruminal slow-release bolus prepared to deliver ivermectin at a low daily dosage for 135 days. Ivermectin concentrations in jugular blood 160 days post-treatment were determined by high performance liquid chromatography (HPLC) using fluorescence detection. Ivermectin plasma concentrations increased gradually to achieve the steady-state concentration (20 ng ml(-1)) at approximately four days post-treatment, which was maintained for 120 days. The ivermectin peak plasma concentration (28.5 ng ml(-1)) was attained at 15 days post-administration of the bolus. The faecal ivermectin concentration rose to a maximal concentration of 4.1 mu g g(-1) at four days post-treatment, dropping to a steady-state concentration of around 1.18 mu g g(-1) which was maintained up to 120 days post-treatment. Ivermectin was detected in both plasma (0.05 ng ml(-1)) and faeces (2.67 ng g(-1)) up to 160 days. The high levels of ivermectin recovered in faeces indicate that a large proportion of the dose released by the bolus (80 to 90 per cent) is excreted in faeces.
The pharmacokinetic behaviour of doramectin after a single subcutaneous administration and moxidectin following a single subcutaneous or oral drench were studied in goats at a dosage of 0.2 mg kg(-1). The drug plasma ...
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The pharmacokinetic behaviour of doramectin after a single subcutaneous administration and moxidectin following a single subcutaneous or oral drench were studied in goats at a dosage of 0.2 mg kg(-1). The drug plasma concentration-time data were analysed by compartmental pharmacokinetics and non-compartmental methods. Maximum plasma concentrations of moxidectin were attained earlier and to a greater extent than doramectin (shorter t(max) and greater C-max and AUC than doramectin). MRT Of doramectin (4.91 +/- 0.07 days) was also significantly shorter than that of moxidectin (12.43 +/- 1.28 days). Then, the exposure of animals to doramectin in comparison with moxidectin was significantly shorter. The apparent absorption rate of moxidectin was not significantly different after oral and subcutaneous administration but the extent of absorption, reflected in the peak concentration (C-max) and the area under the concentration-time curve (AUC), of the subcutaneous injection (24.27 +/- 1.99 ng ml(-1) and 136.72 +/- 7.35 ng d ml(-1) respectively) was significantly greater than that of the oral administration (15.53 +/- 1.27 ng ml(-1) and 36.72 +/- 4.05 ng d ml(-1) respectively). The mean residence time (MRT) of moxidectin didn't differ significantly when administered orally or subcutaneously. Therefore low oral bioavailability and the early emergence of resistance in this minor species maybe related. These results deserve to be correlated with efficacy studies for refining dosage requirements of endectocides in this species. (C) 1999 Harcourt Publishers Limited.
The effect of verapamil, a multidrug-resistance (Mdr)-reversing agent on the absorption of a pour-on formulation of ivermectin was evaluated in rats. Absorption of ivermectin was effectively enhanced (40%) by the pres...
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The effect of verapamil, a multidrug-resistance (Mdr)-reversing agent on the absorption of a pour-on formulation of ivermectin was evaluated in rats. Absorption of ivermectin was effectively enhanced (40%) by the presence of verapamil, suggesting that absorption of ivermectin involves Mdr-P-glycoprotein and that verapamil should act as a competitive inhibitor for the transport and extrusion of ivermectin by P-glycoprotein. This hypothesis is consistent with other studies describing verapamil as a blocking agent of P-glycoprotein involved in the efflux of ivermectin in a resistant strain of Haemonchus contortus.
The P-glycoprotein expressed in the blood-brain barrier has been associated with the restricted access of many compounds to the central nervous system. Mice lacking the mdr1a P-glycoprotein gene show an accumulation o...
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The P-glycoprotein expressed in the blood-brain barrier has been associated with the restricted access of many compounds to the central nervous system. Mice lacking the mdr1a P-glycoprotein gene show an accumulation of various drugs in brain tissues. P-glycoprotein is also correlated with the phenomenon of multidrug resistance in tumour cells. To investigate the effects of drugs that modulate multidrug resistance in the selective permeability of the blood-brain barrier, mice were treated with cyclosporin A or trifluoperazine plus ivermectin, a P-glycoprotein substrate, that has a limited access to the central nervous system. When mice received an injection of cyclosporin A (50 mg/kg, intraperitoneally) or trifluoperazine (750 mu g/kg, intraperitoneally) one hour prior to the administration of ivermectin (10-15 mg/kg, intraperitoneally) there was an increase in the acute toxicity of ivermectin. HPLC analysis of brain tissues indicated that the ivermectin brain concentration was 2.5 times higher when mice were previously treated with cyclosporin A (50 mg/kg). These results suggest that attention should be given to the side effects of drugs that interact with P-glycoprotein and are commonly used clinically and also to the possibility of creating a pharmacological gap in the blood-brain barrier that allows the access of chemotherapeutic drugs to brain tumours.
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