PURPOSE: The dose-proportionality of pharmacokinetics of an iodinated contrast medium, iopromide, encapsulated into liposomes was investigated. METHODS: Following single intravenous administration of 150 mg iodine/kg (potential diagnostic dose) and a five-fold higher dose in rabbits the pattern of elimination was studied until 7 d and the blood concentrations were monitored up to 72 h after administration. The iodine concentration in the liver was calculated on the basis of the blood concentration and related to the concentration measured in the rabbit liver. RESULTS: The dose-normalized blood concentration-time profiles of the encapsulated iodine were not superimposable. Contrary to the low dose a steady-state concentration of 2.8 mg iodine/mL was observed in blood for 60 min after the high dose administration indicating a saturation of the liposomal liver uptake. For both doses the elimination of iodine occurred predominantly via the kidneys and was complete 7 d after administration. The dose-normalized amounts of iodine excreted with the urine were similar for both dose groups. From the blood data it was calculated that doses up to about 300 mg iodine/kg should result in a dose-proportional increase of liposomal liver uptake before saturation occurs. This was confirmed by the measured iodine liver concentrations after increasing the doses stepwise from 150 to 750 mg iodine/kg. CONCLUSIONS: In rabbits for the dose range 150 to 750 mg iodine/kg iopromide liposomes reveal dose-dependent pharmacokinetics due to a saturation in liver uptake which occurs for doses of 300 mg iodine/kg corresponding to 300 mg lipid/kg onwards.
PURPOSE: The dose-proportionality of pharmacokinetics of an iodinated contrast medium, iopromide, encapsulated into liposomes was investigated. METHODS: Following single intravenous administration of 150 mg iodine/kg (potential diagnostic dose) and a five-fold higher dose in rabbits the pattern of elimination was studied until 7 d and the blood concentrations were monitored up to 72 h after administration. The iodine concentration in the liver was calculated on the basis of the blood concentration and related to the concentration measured in the rabbit liver. RESULTS: The dose-normalized blood concentration-time profiles of the encapsulated iodine were not superimposable. Contrary to the low dose a steady-state concentration of 2.8 mg iodine/mL was observed in blood for 60 min after the high dose administration indicating a saturation of the liposomal liver uptake. For both doses the elimination of iodine occurred predominantly via the kidneys and was complete 7 d after administration. The dose-normalized amounts of iodine excreted with the urine were similar for both dose groups. From the blood data it was calculated that doses up to about 300 mg iodine/kg should result in a dose-proportional increase of liposomal liver uptake before saturation occurs. This was confirmed by the measured iodine liver concentrations after increasing the doses stepwise from 150 to 750 mg iodine/kg. CONCLUSIONS: In rabbits for the dose range 150 to 750 mg iodine/kg iopromide liposomes reveal dose-dependent pharmacokinetics due to a saturation in liver uptake which occurs for doses of 300 mg iodine/kg corresponding to 300 mg lipid/kg onwards.
Authors: L Kaufman; F Deconinck; D C Price; P Guesry; C J Wilson; B Hruska; S J Swann; D C Camp; A L Voegele; R D Friesen; J A Nelson Journal: Invest Radiol Date: 1976 May-Jun Impact factor: 6.016