A reversed phase high pressure liquid chromatography (HPLC) system capable of simultaneously separating four lithocholyl species (sulfated and unsulfated forms of lithocholylglycine and lithocholyltaurine) as well as the eight other major conjugated bile acids present in human bile is described. The system uses a C18 octadecylsilane column and isocratic elution with methanol phosphate buffer, pH 5.35. Relative bile acid concentration is determined by absorbance at 200 nm. Retention times relative to chenodeoxycholylglycine are reported for the four lithocholic acid forms, the glycine and taurine amidate of the four major bile acids present in human bile (cholic, chenodeoxycholic, ursodeoxycholic, and deoxycholic), and for their corresponding unconjugated forms. Retention times are also reported for the glycine and taurine amidates as well as the unconjugated form of the C23 norderivatives of these bile acids. Maximal absorbance of bile acid amidates is at 200 nm and is very similar for the (unsulfated) glycine and taurine amidates. Sulfated lithocholyl amidates exhibit molar absorptivities at 200 nm which are 1.4 times greater than that of non-sulfated lithocholyl amidates. Unconjugated bile acid absorbance at 200 nm or 210 nm is 20 to 30 times less than that of corresponding peptide conjugates. The method has been applied to samples of gallbladder bile obtained from 14 healthy subjects to define the pattern of conjugated bile acids present in human bile.