Rw. Milne et al., Hepatic disposition of fexofenadine: Influence of the transport inhibitorserythromycin and dibromosulphothalein, PHARM RES, 17(12), 2000, pp. 1511-1515
Purpose. To examine the disposition of fexofenadine in the isolated perfuse
d rat liver and the influence of erythromycin and dibromosulphthalein (DBSP
) on the hepatic uptake and biliary excretion of fexofenadine.
Methods, Livers from four groups of rats were perfused in a recirculatory m
anner with fexofenadine HCl added as a bolus (125, 250. 500. or 1000 mug) t
o perfusate. Livers from another three groups of rats were perfused with 25
0 mug of fexofenadine HCl. With one group as control, erythromycin (4.0 mug
/ml) or DBSP (136 mug/ml) was added to the perfusate of the other groups. i
n all experiments. perfusate and bile were collected for 60 min: in additio
n, livers from the second experiment were retained for assay. Fexofenadine
was determined in perfusate, bile, and homogenized liver by HPLC.
Results. The area under the curve (AUC) of fexofenadine was linearly relate
d to concentration. It was unchanged from control (12,800 +/-200 ng.h/ml) b
y erythromycin (14,400 +/- 2000 ng.h/ml), but was increased 95% by DBSP (25
,000 +/- 2600 ng.h/ml. P <0.001). The ratios of the concentrations of fexof
enadine in liver/perfusate were decreased significantly by DBSP: those fur
bile/liver were increased by erythromycin.
Conclusions. Erythromycin reduced the canalicular transport of fexofenadine
into bile, whereas DBSP reduced uptake across the sinusoidal membrane.