SERS Based Lateral Flow Assay for Rapid and Ultrasensitive Quantification of Dual Laryngeal Squamous Cell Carcinoma-Related miRNA Biomarkers in Human Serum Using Pd-Au Core-Shell Nanorods and Catalytic Hairpin Assembly

Li, Guang; Niu, Ping; Ge, Shengjie; Cao, Dawei; Sun, Aidong

doi:10.3389/fmolb.2021.813007

“…[78,79] Among others, those based on electrochemical and/or optical sensing platforms coupled with suitably designed microfluidics seem to be very promising to this end. Biosensing platforms relying on screen-printed electrodes, field effect transistor (FET), [80,81] surface plasmon resonance (SPR) [75,82,83] or surface-enhanced Raman scattering (SERS) [84][85][86][87] may offer the advantage of an unprecedented high sensitivity and fast detection times. Moreover, they can also be integrated with a second "dummy" sensing platform as the reference to provide a more accurate differential measurement.…”

Section: Discussionmentioning

confidence: 99%

Point‐of‐Care Testing for the Detection of MicroRNAs: Towards Liquid Biopsy on a Chip

Moro,

Fratte,

Normanno

et al. 2023

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Point‐of‐care (PoC) testing is revolutionizing the healthcare sector improving patient care in daily hospital practice and allowing reaching even remote geographical areas. In the frame of cancer management, the design and validation of PoC enabling the non‐invasive, rapid detection of cancer markers is urgently required to implement liquid biopsy in clinical practice. Therefore, focusing on stable blood‐based markers with high‐specificity, such as microRNAs, is of crucial importance. In this work, we highlight the potential impact of circulating microRNAs detection on cancer management and the development of PoC testing devices, especially for low‐income countries. A detailed discussion about the challenges that should be faced to promote the technological transfer and clinical use of these tools has been added, to provide the readers with a complete overview of potentialities and current limitations.

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“…[78,79] Among others, those based on electrochemical and/or optical sensing platforms coupled with suitably designed microfluidics seem to be very promising to this end. Biosensing platforms relying on screen-printed electrodes, field effect transistor (FET), [80,81] surface plasmon resonance (SPR) [75,82,83] or surface-enhanced Raman scattering (SERS) [84][85][86][87] may offer the advantage of an unprecedented high sensitivity and fast detection times. Moreover, they can also be integrated with a second "dummy" sensing platform as the reference to provide a more accurate differential measurement.…”

Section: Methodsmentioning

confidence: 99%

Point‐of‐Care Testing for the Detection of MicroRNAs: Towards Liquid Biopsy on a Chip

Moro,

Fratte,

Normanno

et al. 2023

View full text Add to dashboard Cite

Point‐of‐care (PoC) testing is revolutionizing the healthcare sector improving patient care in daily hospital practice and allowing reaching even remote geographical areas. In the frame of cancer management, the design and validation of PoC enabling the non‐invasive, rapid detection of cancer markers is urgently required to implement liquid biopsy in clinical practice. Therefore, focusing on stable blood‐based markers with high‐specificity, such as microRNAs, is of crucial importance. In this work, we highlight the potential impact of circulating microRNAs detection on cancer management and the development of PoC testing devices, especially for low‐income countries. A detailed discussion about the challenges that should be faced to promote the technological transfer and clinical use of these tools has been added, to provide the readers with a complete overview of potentialities and current limitations.

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“…However, they often have limited detection sensitivity when low concentrations of analyte need to be detected, so it is necessary to establish new label design procedures with high sensitivity and low cost. An alternative procedure for augmenting LFAs sensitivity is to utilize detection labels with higher absorbances that produce a stronger contrast with the background signal [ 34 , 35 , 36 , 37 ]. Song et al developed a surface-enhanced Raman scattering (SERS)-based LFA for cardiac troponin I measurement by conducting three optimization procedures.…”

Section: Assay Improvementmentioning

confidence: 99%

Lateral Flow Assay: A Summary of Recent Progress for Improving Assay Performance

Omidfar,

Riahi,

Kashanian

2023

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Lateral flow tests are one of the most important types of paper-based point-of-care (POCT) diagnostic tools. It shows great potential as an implement for improving the rapid screening and management of infections in global pandemics or other potential health disorders by using minimally expert staff in locations where no sophisticated laboratory services are accessible. They can detect different types of biomarkers in various biological samples and provide the results in a little time at a low price. An important challenge regarding conventional LFAs is increasing their sensitivity and specificity. There are two main approaches to increase sensitivity and specificity, including assay improvement and target enrichment. Assay improvement comprises the assay optimization and signal amplification techniques. In this study, a summarize of various sensitivity and specificity enhancement strategies with an objective evaluation are presented, such as detection element immobilization, capillary flow rate adjusting, label evolution, sample extraction and enrichment, etc. and also the key findings in improving the LFA performance and solving their limitations are discussed along with numerous examples.

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SERS Based Lateral Flow Assay for Rapid and Ultrasensitive Quantification of Dual Laryngeal Squamous Cell Carcinoma-Related miRNA Biomarkers in Human Serum Using Pd-Au Core-Shell Nanorods and Catalytic Hairpin Assembly

Cited by 10 publications

References 46 publications

Point‐of‐Care Testing for the Detection of MicroRNAs: Towards Liquid Biopsy on a Chip

Point‐of‐Care Testing for the Detection of MicroRNAs: Towards Liquid Biopsy on a Chip

Point‐of‐Care Testing for the Detection of MicroRNAs: Towards Liquid Biopsy on a Chip

Lateral Flow Assay: A Summary of Recent Progress for Improving Assay Performance

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