The effect of chronic alcohol intake on the intestinal absorption of seven compounds belonging to a homologous series (ciprofloxacin derivatives) was evaluated using an in situ rat gut technique that measures the intrinsic absorption rates of the compounds both in control and chronic alcohol-fed rats. For chronic alcohol treatment, the animals were fed a liquid diet containing ethanol (36% of calories), whereas an isocaloric diet was given to the pair-fed control animals. The biophysical absorption model, relating the intestinal absorption rate constants and partition indexes of the tested compounds, was then established either for control or alcohol-fed animals. Differences were analyzed and tentatively interpreted on the basis of general diffusion principles. Results revealed that, in chronic alcohol-fed animals, hydrophilic homologs are absorbed at a significantly faster rate than in control ones, whereas lipophilic homologs do not change their absorption rate relative to controls. Results demonstrate that the bulk polarity of the microvillous lipoidal membrane is enhanced by chronic ethanol intake, whereas basic features of the aqueous boundary layer are not altered. These observations suggest that the physicochemical properties of the compounds are an important factor in explaining the influence of chronic alcohol intake on passive intestinal absorption of xenobiotics. The possible practical implications of our results are discussed from a speculative view-point.