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Review
. 2024 Jul 25;14(15):1598.
doi: 10.3390/diagnostics14151598.

Advancing Pathogen Identification: The Role of Digital PCR in Enhancing Diagnostic Power in Different Settings

Alessia Mirabile  1 Giuseppe Sangiorgio  1 Paolo Giuseppe Bonacci  1 Dalida Bivona  1 Emanuele Nicitra  1 Carmelo Bonomo  1 Dafne Bongiorno  1 Stefania Stefani  1   2 Nicolò Musso  1
Affiliations
Review

Advancing Pathogen Identification: The Role of Digital PCR in Enhancing Diagnostic Power in Different Settings

Alessia Mirabile et al. Diagnostics (Basel). .

Abstract

Digital polymerase chain reaction (dPCR) has emerged as a groundbreaking technology in molecular biology and diagnostics, offering exceptional precision and sensitivity in nucleic acid detection and quantification. This review highlights the core principles and transformative potential of dPCR, particularly in infectious disease diagnostics and environmental surveillance. Emphasizing its evolution from traditional PCR, dPCR provides accurate absolute quantification of target nucleic acids through advanced partitioning techniques. The review addresses the significant impact of dPCR in sepsis diagnosis and management, showcasing its superior sensitivity and specificity in early pathogen detection and identification of drug-resistant genes. Despite its advantages, challenges such as optimization of experimental conditions, standardization of data analysis workflows, and high costs are discussed. Furthermore, we compare various commercially available dPCR platforms, detailing their features and applications in clinical and research settings. Additionally, the review explores dPCR's role in water microbiology, particularly in wastewater surveillance and monitoring of waterborne pathogens, underscoring its importance in public health protection. In conclusion, future prospects of dPCR, including methodological optimization, integration with innovative technologies, and expansion into new sectors like metagenomics, are explored.

Keywords: digital PCR; environmental surveillance; infectious disease diagnostics.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
Graphical workflow of ddPCR (above) and dPCR (below). Independently created by an author (P.G.B.) using BioRender.com accessed on 25 May 2024, freely inspired by Kokkoris et al. [16].
See this image and copyright information in PMC

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