Chromatography is one of the most commonly used analytical techniques for the separation and identification of compounds. We know different chromatographic techniques that differ based on different mobile and stationary phases. The most common of these is liquid chromatography which is based on the liquid mobile phase and the solid or liquid stationary phase between which the analytes are partitioned. Chromatography is indispensable due to its universality and versatility in the pharmaceutical industry. An important role in the development, research, and production of medicines is played by the development of analytical methods which is quite complex as it requires consideration of a large number of factors and experience. In first and the main part of our project we developed an analytical method with high performance liquid chromatography coupled with mass spectrometer which is able to separate as many different conductor compounds as possible in the shortest possible time. Once we were able to develop an appropriate analytical method with optimal chromatographic conditions, we further verified the metabolic stability of our compounds by testing them at time 0 and after 30 minutes of incubation. Compounds that expressed metabolic instability after 30 minutes (their peak surface area decreased by at least 10 % compared to the initial one) were then tested at 0, 15, 30, 60, and 120 minute time points. We studied 17 compounds, of which 12 proved to be metabolically stable when tested at times 0 and 30 minutes, with a half-life greater than 5 hours. Other 5 compounds expressed their susceptibility to metabolism with the S9 enzyme fraction. The half-lives of individual compounds were determined in a UV chromatogram based on the change in area under the curve. In the last part of the task, we tried to suggest a possible structure to the resulting metabolites. The structures of the resulting metabolites were proposed based on the determined molecular mass. For certain compounds, the metabolites were not visible in the UV chromatogram due to low responses and could only be monitored by mass detector.