| Abstract: | Bioanalysis is a relevant area of analytical chemistry for clinical studies. Biological samples are complex and diverse, so sample preparation represents a challenge when chromatographic methods are developed. According to the principles of green analytical chemistry (GAC), recent trends in sample preparation include miniaturization, automation (online coupling to the analytical instrument), and high-throughput performance. In this context, column switching liquid chromatography stands out as a multidimensional chromatographic method in which an extraction column is directly coupled to high-performance liquid chromatography (HPLC) systems. This online method consists of two steps and involves two columns, the extraction and the chromatographic columns. In the former column, the analytes are isolated from the sample and preconcentrated; in the latter column, the analytes are separated. Online systems improve the sensitivity and accuracy of analytical methods, consume lower amounts of organic solvents, and minimize sample handling. This review summarizes state-of-the-art column switching liquid chromatography and focuses on selective stationary phases for preconcentration of analytes (first dimension), including reversed phases, monolithic phases, restricted access materials (RAMs), and molecularly imprinted polymers (MIP). Principles, instrumental aspects, applications in bioanalysis, and future trends in column switching liquid chromatography are also discussed. |
