1. Investigación

Short chain organic acids play an important role in different areas such as biochemistry, clinical chemistry, or the food industry. The enantiomeric ratio of chiral metabolites is an important parameter for the understanding of metabolic processes and in many cases it can serve diagnostic purposes. On the other hand, the presence of racemates in food products could indicate the use of organic acids as additives; this is not always permitted and needs to be controlled. The short chain of these acids makes difficult the three point interaction generally accepted as necessary for chiral recognition. Relatively recent publications have demonstrated the feasibility of their direct chiral separation in capillary electrophoresis by various techniques utilizing exchange capillary electrophoresis, macrocyclic antibiotics, cyclodextrins, ion-pair method, and transition metal complexes. The present article describes existing methods and strategies proposed to advance these areas.

This review article is a comprehensive survey of capillary electrophoresis methods developed for the measurement of short-chain organic acids and inorganic anions in a wide variety of matrices, such as food and beverages, environmental, industry, and other applications, as well as clinical applications in body fluids such as urine, plasma or cerebrospinal fluid. Details of sample pretreatment and of electrophoretic conditions have been collected in tables, arranged by the type of matrix. Strategies employed for method development for the analysis of these compounds by capillary electrophoresis in real samples are discussed.

A capillary electrophoresis method has been developed and validated for acetic, citric, fumaric, lactic, malic, oxalic, succinic, and tartaric acids plus the measurement of nitrate and sulfite ions in white and red wines. The separation was carried out in a neutral coated capillary. Separation was performed at 14 kV of applied potential. Temperature was maintained at 20 C. The background electrolyte used was 200 mM phosphate buffer at pH 7.50. Separation was obtained in less than 13 min. Validation parameters obtained for the method permit it to be considered adequate for routine analysis.

This review article is a comprehensive survey of capillary electrophoresis methods developed for the measurement of short-chain organic acids and inorganic anions in a wide variety of matrices, such as food and beverages, environmental, industry, and other applications, as well as clinical applications in body fluids such as urine, plasma or cerebrospinal fluid. Details of sample pretreatment and of electrophoretic conditions have been collected in tables, arranged by the type of matrix. Strategies employed for method development for the analysis of these compounds by capillary electrophoresis in real samples are discussed.