A label‐free and signal‐amplifiable assay method for colorimetric detection of carcinoembryonic antigen

Li, Wenqin; Xie, Zhuohao; Zhan, Haonan; Deng, Liehua; Huang, Jiahao

doi:10.1002/bit.28003

Cited by 14 publications

(6 citation statements)

References 53 publications

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“…A colorimetric aptasensing method has been launched with modifiable color mutants [71]. The clinical diagnosis showed both high sensitivity and specificity.…”

Section: Optical Biosensorsmentioning

confidence: 99%

Biosensor-Based Nanodiagnosis of Carcinoembryonic Antigen (CEA): an Approach to Classification and Precise Detection of Cancer Biomarker

Hariri,

Alivirdiloo,

Ardabili

et al. 2023

BioNanoSci.

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The precise detection of cancer biomarkers is a principal aspect of effective diagnosis, monitoring, and therapeutics. Carcinoembryonic antigen (CEA) is a protein normally found in very small amounts in the blood of adults. CEA blood levels can be elevated in benign diseases and certain types of cancer. The CEA test is most commonly used to identify a significantly frequent cancer, colorectal cancer. It has decisive clinical value in monitoring, differential diagnosis, disease, and assessment of therapeutic effects. Therefore, it is important to develop a sensitive and simple CEA detection method to diagnose cancer and improve patient survival accurately. Biosensing has great advantages for early disease detection due to its rapid response, high sensitivity, and convenient operating characteristics. Based on several studies, biosensors seem to be new and promising paths in the future of medical oncology. The main purpose of this study is to introduce and discuss the recent nanodiagnostic biosensors developed since 2018. Therefore, the readers of this study will be introduced to the latest biosensors, the various nanomaterials used in them, and their analytical characteristics. Graphical abstract

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“…A colorimetric aptasensing method has been launched with modifiable color mutants [71]. The clinical diagnosis showed both high sensitivity and specificity.…”

Section: Optical Biosensorsmentioning

confidence: 99%

Biosensor-Based Nanodiagnosis of Carcinoembryonic Antigen (CEA): an Approach to Classification and Precise Detection of Cancer Biomarker

Hariri,

Alivirdiloo,

Ardabili

et al. 2023

BioNanoSci.

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“…The colourless TMB is converted into blue colour after it is oxidized by the hydroxyl radicals generated from the peroxidase catalytic reaction [77,80a, 82] . Besides, the 2,2′‐azino‐bis‐3‐ethylbenzothiazoline‐6‐sulfonic acid (ABTS) and 4‐aminoantipyrine are typical colour developing reagents that are also responsive to hydroxyl radicals but result in green and red coloured solutions respectively [78d,80c] . Otherwise, there is a collection of studies that take the advantage of nanoscale noble metals such as special optical properties due to quantum effect [83] or plasmonic effect [78c] .…”

Section: The Nanomaterial‐based Cea (Colorimetric‐based and Chemilumi...mentioning

confidence: 99%

“…The selectivity of the sensing probe can be achieved by having the antigen‐antibody immunoassay [73a,77–78,80a–c,82a,83–86] or aptamer‐labelled biosensor [78d,79,80d,81] . Nevertheless, the labelled free system [78d,85] is suggested to overcome the shortcoming of labelled one as aptasensor that utilises the single‐stranded oligonucleotides chain as biorecognition site with an improved affinity towards analyte. The modifications of both the labelled and non‐labelled sensing probes are illustrated as follows.…”

Section: The Nanomaterial‐based Cea (Colorimetric‐based and Chemilumi...mentioning

confidence: 99%

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Recent Advances in Nanomaterial‐based Optical Biosensors as Potential Point‐of‐Care Testing (PoCT) Probes in Carcinoembryonic Antigen Detection

Lee

Pandian

et al. 2022

Chemistry An Asian Journal

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For the past decades, several cancer biomarkers have been exploited for rapid and accurate prognosis or diagnosis purposes. In this review, the optical biosensor is targeted for carcinoembryonic antigen (CEA) detection. The CEA level is a prominent parameter currently used in clinical cases for the prognosis of cancer-related diseases. Many nanomaterial-based biosensors are invented as alternatives for the commonly used enzyme-linked immunosorbent assays (ELISA) immunoassay method in CEA detection as the traditional approach. But they possess certain drawbacks such as tedious procedure, high technical demand, and costly. Nevertheless, the effort appears to be wasted as none of them are being actualised. Generally, the sensor function was carried out by converting bio-signals generated upon the interface of the receptor into light signals. These sensors were popular due to specific advantages such as sensitivity, being free from chemical and electromagnetic interferences, wide dynamic range, and being easy to be monitored. The features of PoC diagnostics are discussed and associated to the various applications of colorimetric-based and chemiluminescent-based biosensors. The roles of nanomaterials in each application were also summarised by comparing the modification, incubation period, lowest detection limit (LOD) and linear range of detection amount. The challenges and future perspectives were highlighted as well at the end of the review.

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“…To circumvent the potential problems mentioned above, aptamer can provide an ideal solution. Aptamer is single-strand oligonucleotide probe achieved by in vitro selection process called systematic evolution of ligands by exponential enrichment (SELEX) (Meng et al, 2015), which targets to a wide range of analytes, such as small molecules (Lou et al, 2019;Luo et al, 2019), metal ions (Raducanu et al, 2020), proteins (Lo et al, 2021), tumor markers (Li et al, 2022), and even the whole cells (Lv et al, 2021). Aptamer possesses many advantages, such as ease of synthesis and modification, small size, high affinity, low cost, high thermal stability, wide types of targets, and compatible for many signal reporting techniques.…”

Section: Introductionmentioning

confidence: 99%

Bio-inspired aptamers decorated gold nanoparticles enable visualized detection of malathion

Zhan

Tao

Xie

et al. 2023

Front. Bioeng. Biotechnol.

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Biosensors always respond to the targets of interest in a specific manner, employing biological or bio-mimic recognition elements such as antibodies and aptamers. Inspired by target recognition in nature, an aptamer-mediated, gold nanoparticle-based sensing approach is developed in this work for effective determination of malathion. The sensing system consists of negatively charged aptamer probes, and polycationic proteins, protamine, as well as exceptional colorimetric nanoprobes, barely gold nanoparticles (AuNPs). Protamine molecules bound to aptamer probes hinder the aggregation of AuNPs, while no such inhibition is maintained when aptamer-specific malathion is introduced into the solution, thus leading to the solution colour change from red to blue observable by the naked eye. The assay is accomplished via a mix-and-measure step within 40 min with a detection limit as low as 1.48 μg/L (3σ/s rule). The assay method also exhibits high selectivity and good applicability for the quantification of malathion in tap water with recovery rates of 98.9%–109.4%. Additionally, the good detection accuracy is also confirmed by the high-performance liquid chromatography method. Therefore, the non-enzymatic, label- and device-free characteristics make it a robust tool for malathion assay in agricultural, environmental, and medical fields.

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A label‐free and signal‐amplifiable assay method for colorimetric detection of carcinoembryonic antigen

Cited by 14 publications

References 53 publications

Biosensor-Based Nanodiagnosis of Carcinoembryonic Antigen (CEA): an Approach to Classification and Precise Detection of Cancer Biomarker

Biosensor-Based Nanodiagnosis of Carcinoembryonic Antigen (CEA): an Approach to Classification and Precise Detection of Cancer Biomarker

Recent Advances in Nanomaterial‐based Optical Biosensors as Potential Point‐of‐Care Testing (PoCT) Probes in Carcinoembryonic Antigen Detection

Bio-inspired aptamers decorated gold nanoparticles enable visualized detection of malathion

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