CHROMATOGRAPHIC HYDROPHOBICITY PARAMETER DETERMINED ON AN IMMOBILIZEDARTIFICIAL MEMBRANE COLUMN - RELATIONSHIPS TO STANDARD MEASURES OF HYDROPHOBICITY AND BIOACTIVITY

A dynamic chromatographic hydrophobicity parameter, log k(IAM)' was de termined for 3 test series of drug solutes (beta-adrenolytics, imidazo line alpha-adrenomimetics and phenothiazine neuroleptics) employing a reversed-phase high-performance liquid chromatographic (RP HPLC) syste m comprising an immobilized artificial membrane (IAM) column. The log k(IAM)' parameter determined with buffers of physiological pH correlat ed well with the ionization-corrected reference hydrophobicity paramet er from the n-octanol/water system in the case of beta-adrenolytics (r = 0.962) but a poorer correlation (r = 0.839) was noted in the case o f phenothiazines. Regression analysis of several pharmacokinetic data reported for the agents under study in terms of hydrophobicity paramet ers demonstrated the performance of log k(IAM)' to be as good as that of the reference hydrophobicity parameters in predicting bioactivity. There is an important advantage of the log k(IAM)' Parameter over n-oc tanol/water partition data, which are tedious to determine: log k(IAM) ' is derived in a simple, fast and reproducible manner.