The assessment of in vivo drug absorption with in vitro permeability models demands the use of transport media with surface acting compounds. With the aim to establish their influence on in vitro permeability of 30 drugs through Caco-2 monolayers, cell vitality/integrity and micellar drug entrapment, taurocholate/lecithin (NaTC/Leci) and pig crude bile were applied. Drug permeabilities were correlated to fraction of drugs absorbed and appropriate NaTC/Leci and bile concentrations were proposed to simulate fasted/fed conditions in vitro (bile in the concentration range 1-5 v/v% or 0.2/0.05mM NaTC/Leci for fasted; 10 v/v% bile or 3/0.75mM NaTC/Leci for fed conditions) without detrimental effects on monolayer integrity/vitality (NaTC/Leci was more toxic than bile). Surfactants exerted different affinities for drugs; free drug concentration (c(free)) of some was significantly lowered only by bile, while for the others NaTC/Leci and bile significantly diminished c(free). For some substances NaTC/Leci and bile significantly increased their permeabilities (i.e. more than 3-times) in spite of profound c(free) decrease indicating the existence of an alternative absorption mechanism. Based on these data, the impact of bile on in vitro drug permeability and micellar drug entrapment cannot be adequately simulated by NaTC/Leci, because their effects on drug absorption differ.
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