2018
DOI: 10.1021/acsomega.8b01558
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Electrochemical Aptamer-Based Biosensors for the Detection of Cardiac Biomarkers

Abstract: Rapid and accurate diagnostic technologies for early-state identification of cardiovascular abnormalities have become of high importance to prevent and attenuate their progression. The capability of biosensors to determine an increase in the concentration of cardiovascular protein biomarkers in circulating blood immediately after a myocardial infarction makes them ideal point-of-care platforms and alternative approaches to electrocardiograms, chest X-rays, and different laboratory-based immunoassays. We report… Show more

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Cited by 139 publications
(91 citation statements)
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“…To this end, the miniaturazibility of E-AB sensors and potential cost-effectiveness of E-AB sensors are also significant advantages. For example, exploiting screen-printed electrodes [29], it could be possible to adapt E-AB sensors on disposable strips read by a small portable potentiostat. At the same time, the development of a user-friendly interface could help patients converting the analytical signal into useful clinical data, for example, creating a specific application for the mobile phone.…”
Section: Discussionmentioning
confidence: 99%
“…To this end, the miniaturazibility of E-AB sensors and potential cost-effectiveness of E-AB sensors are also significant advantages. For example, exploiting screen-printed electrodes [29], it could be possible to adapt E-AB sensors on disposable strips read by a small portable potentiostat. At the same time, the development of a user-friendly interface could help patients converting the analytical signal into useful clinical data, for example, creating a specific application for the mobile phone.…”
Section: Discussionmentioning
confidence: 99%
“…These sensors integrate a biological element with a physiochemical transducer to generate an electronic signal, which is directly proportional to the analyte concentration and subsequently conveyed to a detector [12]. Generally, the classification of biosensors depends on: (a) the type of receptors employed during the bio-recognition events, such as antibody [13], peptide [14], enzyme [15,16] aptamer [17], DNA [18] and molecularly imprinted polymer (MIP)-based sensors [19,20]; (b) the type of transducers involved, such as electrochemical [21], optical [22], piezoelectric [23] and calorimetric biosensors [24]. They can accomplish the requirements of rapid and specific sensing of the biomolecules as well as the real-time analysis of modern detection techniques.…”
Section: History Definition and Classification Of Biosensorsmentioning
confidence: 99%
“…For example, transport needs to be refrigerated and antibodies/nanobodies need to be kept cool to ensure they remain functional, whereas aptamers are stable at higher temperatures [53,100]. Additionally, while aptamers have been used to replace antibodies in typical laboratory tests, they have also come into their own in a number of in vitro diagnostic assays that would be easily adapted to in field or POCT [101][102][103][104].…”
Section: In Vitro Applications: Which Is Best?mentioning
confidence: 99%