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Review

Diagnostic efficiency of RT-LAMP integrated CRISPR-Cas technique for COVID-19: A systematic review and meta-analysis

, , , &
Pages 410-420 | Published online: 10 Feb 2022
 

ABSTRACT

To address the challenges associated with COVID-19 diagnosis, we need a faster, direct, and more versatile detection method for efficient epidemiological management of the COVID-19 pandemic. RT-qPCR (reverse transcription quantitative real-time Polymerase Chain Reaction) although the most popular diagnostic method suffers from a major drawback of equipment dependency and trained molecular biologists that limits rapid and large-scale screening, particularly in low resource regions. Reverse transcription loop-mediated isothermal amplification (RT-LAMP) is a feasible alternative for RT-qPCR; however, it also suffers from the drawback of false-positive issues. Recently, RT-LAMP has been integrated with the CRISPR-Cas technique to take care of the problems associated with RT-LAMP for COVID-19 diagnosis. In this study, a meta-analysis was conducted using three scientific databases considering the PRISMA guidelines to assess the diagnostic efficiency of RT-LAMP integrated CRISPR-Cas technology. Out of a total of 1286 studies on COVID-19, we identified 15 articles that met our eligibility criteria of using simultaneous RT-LAMP and CRISPR-Cas technique. Our meta-analysis of the included studies revealed that most of the studies were conducted in the USA with the N gene as the most common target and fluorescence-based detection method. The meta-analysis results of all included studies have further revealed a pooled sensitivity value of higher than 85% and a pooled specificity value of 80% with the confidence interval of 95%, respectively, as revealed from the forest plot and SROC curve. The accuracy rate of included studies was also calculated which varied from 77.4% to 100%. Furthermore, the precision of included studies varied from 75% to 100%. Lastly, a quality assessment of bias and applicability was performed based on QUADAS-2. Taken together, combined RT-LAMP and CRISPR-Cas technique could be a potential alternative to RT-qPCR particularly in low resource regions having a high demand for rapid testing.

Acknowledgments

We acknowledge Lakshminarasimhan Krishnaswamy and Luke J. Alderwick for their assistance in English language editing.

Disclosure statement

No potential conflict of interest was reported by the authors.

Author contributions

AB, GSB, ZF: search, data extraction, validation. AB and GSB: data analysis. MR, SH and ZF: supervision. AB, GSB and MR: writing, original draft. SH and ZF contributed to the conception and design of the study and review and editing of the manuscript.

Declaration of data availability

All the data related to the study are available within the manuscript.

Additional information

Funding

The author declares that this work was not supported by any funding agency.

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