Contemporary electrochemical sensing and affinity biosensing to assist traces metal ions determination in clinical samples

Abstract: The determination of metals in clinical samples is an important challenge since their levels are relevant to ensure personal exposure to safe environments, as well as to assist in the prevention and treatment of disease. The low concentrations of metal ions in clinical samples and their coexistence with other metals and/or molecules of diverse nature implies the need for sensitive and selective analytical methodologies, which can be provided by conventional techniques. However, most of these techniques do not … Show more

“…There are several reviews associated with electrochemical sensing in biological media, and many examine recent advancements in wearable devices [35–43]. Electrochemical devices are capable of measuring target analytes, such as lactate, pH, and electrolytes, in sweat by providing the selectivity and sensitivity needed for in vivo measurements [35–37, 40–42, 44, 45]. Other reviews on electrochemical sensors used for heavy metals detection can also be readily found throughout literature.…”

“…These include those focused on micro‐interface arrays, nanostructured arrays, aptamer‐based sensors, DNA‐based sensors, and nucleic acid‐based sensors [35, 38, 40, 41, 43, 46–55]. Additional work on electrochemical sensors completed in paper‐based microfluidic devices has also been reported for nearly a decade [35, 36, 40, 41, 45, 51–54, 56].…”

“…Other reviews on electrochemical sensors used for heavy metals detection can also be readily found throughout literature. These include those focused on micro-interface arrays, nanostructured arrays, aptamer-based sensors, DNAbased sensors, and nucleic acid-based sensors [35,38,40,41,43,[46][47][48][49][50][51][52][53][54][55]. Additional work on electrochemical sensors completed in paper-based microfluidic devices has also been reported for nearly a decade [35,36,40,41,45,[51][52][53][54]56].…”

Electrochemical sensing of heavy metals in biological media: A review

“…There are several reviews associated with electrochemical sensing in biological media, and many examine recent advancements in wearable devices [35–43]. Electrochemical devices are capable of measuring target analytes, such as lactate, pH, and electrolytes, in sweat by providing the selectivity and sensitivity needed for in vivo measurements [35–37, 40–42, 44, 45]. Other reviews on electrochemical sensors used for heavy metals detection can also be readily found throughout literature.…”

“…These include those focused on micro‐interface arrays, nanostructured arrays, aptamer‐based sensors, DNA‐based sensors, and nucleic acid‐based sensors [35, 38, 40, 41, 43, 46–55]. Additional work on electrochemical sensors completed in paper‐based microfluidic devices has also been reported for nearly a decade [35, 36, 40, 41, 45, 51–54, 56].…”

“…Other reviews on electrochemical sensors used for heavy metals detection can also be readily found throughout literature. These include those focused on micro-interface arrays, nanostructured arrays, aptamer-based sensors, DNAbased sensors, and nucleic acid-based sensors [35,38,40,41,43,[46][47][48][49][50][51][52][53][54][55]. Additional work on electrochemical sensors completed in paper-based microfluidic devices has also been reported for nearly a decade [35,36,40,41,45,[51][52][53][54]56].…”

Electrochemical sensing of heavy metals in biological media: A review