AI Article Synopsis
- This study explores a new approach using crude throat swab samples from patients for RT-LAMP reactions without prior nucleic acid extraction, focusing on quick and effective testing for SARS-CoV-2.
- It employs a biotinylated DNA probe to enhance the specificity of lateral flow assay (LFA) readouts, achieving high sensitivity (98.11%) and specificity (96.15%).
- The results are digitally semi-quantified using a smartphone device, showing a notable correlation with traditional qRT-PCR results, indicating a promising platform for rapid pathogen detection at the point of care.
Article Abstract
This study focuses on three key aspects: (a) crude throat swab samples in a viral transport medium (VTM) as templates for RT-LAMP reactions; (b) a biotinylated DNA probe with enhanced specificity for LFA readouts; and (c) a digital semi-quantification of LFA readouts. Throat swab samples from SARS-CoV-2 positive and negative patients were used in their crude (no cleaning or pre-treatment) forms for the RT-LAMP reaction. The samples were heat-inactivated but not treated for any kind of nucleic acid extraction or purification. The RT-LAMP (20 min processing time) product was read out by an LFA approach using two labels: FITC and biotin. FITC was enzymatically incorporated into the RT-LAMP amplicon with the LF-LAMP primer, and biotin was introduced using biotinylated DNA probes, specifically for the amplicon region after RT-LAMP amplification. This assay setup with biotinylated DNA probe-based LFA readouts of the RT-LAMP amplicon was 98.11% sensitive and 96.15% specific. The LFA result was further analysed by a smartphone-based IVD device, wherein the T-line intensity was recorded. The LFA T-line intensity was then correlated with the qRT-PCR Ct value of the positive swab samples. A digital semi-quantification of RT-LAMP-LFA was reported with a correlation coefficient of R = 0.702. The overall RT-LAMP-LFA assay time was recorded to be 35 min with a LoD of three RNA copies/µL (Ct-33). With these three advancements, the nucleic acid testing-point of care technique (NAT-POCT) is exemplified as a versatile biosensor platform with great potential and applicability for the detection of pathogens without the need for sample storage, transportation, or pre-processing.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10669123 | PMC |
| http://dx.doi.org/10.3390/bios13110988 | DOI Listing |
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