The Future of Digital Polymerase Chain Reaction in Virology

Vynck, Matthijs; Trypsteen, Wim; Thas, Olivier; Vandekerckhove, Linos; Spiegelaere, Ward De

doi:10.1007/s40291-016-0224-1

Cited by 36 publications

(31 citation statements)

References 74 publications

(140 reference statements)

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“…The absolute quantification of dPCR, which is achieved without reliance on a calibration curve, is a major advantage of this method (4,6). For the relative quantification of nucleic acids performed by qPCR, the C T value of a sample is compared to a standard curve generated by amplification of dilutions of the same template with assigned values, which must be determined by using another method.…”

Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

“…If amplification is inhibited by impurities in the sample or amplification efficiency is poor due to mismatches between target, primer, and probe sequences, quantification will be underestimated. Because dPCR quantifies using endpoint instead of real-time amplification, quantification is less affected by inhibitors of amplification that may be present in the sample (10,11), and it is also less affected by poor amplification efficiency (4,12,13). In fact, it may be possible to perform dPCR on samples without prior extraction of the nucleic acids (14).…”

Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

“…In fact, it may be possible to perform dPCR on samples without prior extraction of the nucleic acids (14). While qPCR and dPCR are generally equally sensitive given an equivalent input of template (15), dPCR assays have been shown to quantify some targets more precisely and are especially useful for precise quantification of low viral loads for monitoring antiviral therapy (3,4,6,13,(15)(16)(17). Compared to qPCR, the better precision of dPCR is also useful for detection and quantitation of rare variants (6) and for assays measuring ratios of high-and low-copy-number targets in a reaction (18).…”

Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

“…1C and D). Based on the number of positive and negative partitions, the target copy number in the sample can be calculated (3)(4)(5). As the concentration of target increases and it becomes more likely that a given partition will contain two or more copies, Poisson's Law is used to accurately calculate the number of DNA targets per partition and the copy number in the original sample (4,6).…”

mentioning

confidence: 99%

“…Partitions should also be of uniform size so that each will contain the same number of target molecules. Finally, amplification must be sufficiently efficient so that all partitions containing target molecules are amplified, and there must be a clear discrimination between positive and negative partitions (4,6).…”

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confidence: 99%

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Applications of Digital PCR for Clinical Microbiology

2017

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Digital PCR (dPCR) is an important new tool for use in the clinical microbiology laboratory. Its advantages over quantitative PCR (qPCR), including absolute quantification without a standard curve, improved precision, improved accuracy in the presence of inhibitors, and more accurate quantitation when amplification efficiency is low, make dPCR the assay of choice for several specimen testing applications. This minireview will discuss the advantages and disadvantages of dPCR compared to qPCR, its applications in clinical microbiology, and considerations for implementation of the method in a clinical laboratory.

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Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

Section: Comparison Of Dpcr To Qpcrmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Applications of Digital PCR for Clinical Microbiology

2017

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Development of sensitive ddPCR assays to reliably quantify the proviral DNA reservoir in all common circulating HIV subtypes and recombinant forms

et al. 2018

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IntroductionThe latent reservoir is the main barrier on the road to HIV cure, and clinical approaches towards eradication are often evaluated by their effect on proviral DNA. To ensure inclusiveness and representativeness in HIV cure studies, proviral DNA quantification assays that are able to detect all common circulating HIV clades are urgently needed. Here, three HIV DNA assays targeting three different genomic regions were evaluated for their sensitivity and subtype‐tolerance using digital PCR.MethodsA subtype‐B‐specific assay targeting gag (GAG) and two assays targeting conserved sequences in ltr and pol (LTR and JO) were assessed for their sensitivity and subtype‐tolerance in digital PCR (Bio‐Rad QX200), using a panel of serially diluted subtype reference plasmids as well as a panel of clinical isolates. Both panels represent subtypes A, B, C, D, F, G and circulating recombinant forms (CRFs) AE and AG, which together are responsible for 94% of HIV infections worldwide.Results HIV subtype was observed to greatly affect HIV DNA quantification results. Robust regression analysis of the serially diluted plasmid panel showed that the GAG assay was only able to linearly quantify subtype B, D and G isolates (4/13 reference plasmids, average R 2 = 0.99), whereas LTR and JO were able to quantify all tested isolates (13/13 reference plasmids, respective average R 2 = 0.99 and 0.98). In the clinical isolates panel, isolates were considered detectable if all replicates produced a positive result. The GAG assay could detect HIV DNA in four out of five subtype B and one out of two subtype D isolates, whereas the LTR and JO assays detected HIV DNA in all twenty‐nine tested isolates. LTR and JO results were found to be equally precise but more precise than GAG.ConclusionsThe results demonstrate the need for a careful validation of proviral reservoir quantification assays prior to investigations into non‐B subtype reservoirs. The LTR and JO assays can sensitively and reliably quantify HIV DNA in a panel that represents the worldwide most prevalent subtypes and CRFs (A, B, C, D, AE, F, G and AG), justifying their application in future trials aimed at global HIV cure.

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SARS‐CoV‐2 in digital era: Diagnostic techniques and importance of nucleic acid quantification with digital PCRs

Aravind Kumar,

Aradhana,

Harleen

et al. 2023

Reviews in Medical Virology

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Studies related to clinical diagnosis and research of SARS‐CoV‐2 are important in the current pandemic era. Although molecular biology has emphasised the importance of qualitative analysis, quantitative analysis with nucleic acids in relation to SARS‐CoV‐2 needs to be clearly emphasised, which can provide perspective for viral dynamic studies of SARS‐CoV‐2. In this regard, the requirement and utilization of digital PCR in COVID‐19 research has substantially increased during the pandemic, necessitating the aggregation of its cardinal applications and future scopes. Hence, this meta‐review comprehensively addresses and emphasises the importance of nucleic acid quantification of SARS‐CoV‐2 RNA with digital PCR (dPCR). Various quantitative techniques of clinical significance like immunological, proteomic and nucleic acid‐based diagnosis and quantification, have been comparatively discussed. Furthermore, the core part of the article focusses on the working principle and advantages of digital PCR, along with its applications in COVID‐19 research. Several important applications like viral load quantitation, environmental surveillance and assay validation have been extensively investigated and discussed. Certain key future scopes of clinical importance, like mortality prediction, viral/variant‐symbiosis, and antiviral studies were also identified, suggesting several possible digital PCR applications in COVID‐19 research.

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The Future of Digital Polymerase Chain Reaction in Virology

Cited by 36 publications

References 74 publications

Applications of Digital PCR for Clinical Microbiology

Applications of Digital PCR for Clinical Microbiology

Development of sensitive ddPCR assays to reliably quantify the proviral DNA reservoir in all common circulating HIV subtypes and recombinant forms

SARS‐CoV‐2 in digital era: Diagnostic techniques and importance of nucleic acid quantification with digital PCRs

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