Editorial Article: Overcome electrolyte analysis challenges with maintenance-free biosensor technology
Discover how to increase precision and reduce throughput time of your routine electrolyte analyses
07 May 2021
George Revenas, co-manager of a private diagnostics laboratory in Athens, Greece
Electrolyte analyzers are routinely used in medical diagnostics to examine physiological conditions within the body. Hospitals and clinical laboratories, as well as point-of-care settings, rely on electrolyte analyzers to measure the concentration of different ions in the blood, providing important information about the body s electrolyte balance that can be used to detect metabolic imbalances, assess renal and cardiac function and contribute to the early detection of human diseases. However, despite their wide use, electrolyte analyzers operating using traditional electrode technology are subject to a multitude of challenges, with the need for the periodic replacement of electrodes, in par
Editorial Article: Overcome electrolyte analysis challenges with maintenance-free biosensor technology
Discover how to increase precision and reduce throughput time of your routine electrolyte analyses
07 May 2021
George Revenas, co-manager of a private diagnostics laboratory in Athens, Greece
Electrolyte analyzers are routinely used in medical diagnostics to examine physiological conditions within the body. Hospitals and clinical laboratories, as well as point-of-care settings, rely on electrolyte analyzers to measure the concentration of different ions in the blood, providing important information about the body s electrolyte balance that can be used to detect metabolic imbalances, assess renal and cardiac function and contribute to the early detection of human diseases. However, despite their wide use, electrolyte analyzers operating using traditional electrode technology are subject to a multitude of challenges, with the need for the periodic replacement of electrodes, in par