Digital PCR in Virology: Current Applications and Future Perspectives

doi:10.1007/s40291-024-00751-9

Review

. 2025 Jan;29(1):43-54.

doi: 10.1007/s40291-024-00751-9. Epub 2024 Nov 2.

Digital PCR in Virology: Current Applications and Future Perspectives

David Gleerup^{1

2}, Wim Trypsteen^{2

3}, Stephanie I Fraley⁴, Ward De Spiegelaere^{5

6}

Affiliations

¹ Laboratory of Veterinary Morphology, Faculty of Veterinary Medicine, Ghent University, Campus Merelbeke, Salisburylaan 133, 9820, Merelbeke, Belgium.
² Ghent University Digital PCR Consortium, Ghent University, Ghent, Belgium.
³ Department of Internal Medicine and Pediatrics, HIV Cure Research Center, Ghent University and Ghent University Hospital, Ghent, Belgium.
⁴ Department of Bioengineering, University of California San Diego, La Jolla, CA, USA.
⁵ Laboratory of Veterinary Morphology, Faculty of Veterinary Medicine, Ghent University, Campus Merelbeke, Salisburylaan 133, 9820, Merelbeke, Belgium. Ward.DeSpiegelaere@ugent.be.
⁶ Ghent University Digital PCR Consortium, Ghent University, Ghent, Belgium. Ward.DeSpiegelaere@ugent.be.

PMID: 39487879
DOI: 10.1007/s40291-024-00751-9

Review

Digital PCR in Virology: Current Applications and Future Perspectives

David Gleerup et al. Mol Diagn Ther. 2025 Jan.

. 2025 Jan;29(1):43-54.

doi: 10.1007/s40291-024-00751-9. Epub 2024 Nov 2.

Authors

David Gleerup^{1

2}, Wim Trypsteen^{2

3}, Stephanie I Fraley⁴, Ward De Spiegelaere^{5

6}

Affiliations

¹ Laboratory of Veterinary Morphology, Faculty of Veterinary Medicine, Ghent University, Campus Merelbeke, Salisburylaan 133, 9820, Merelbeke, Belgium.
² Ghent University Digital PCR Consortium, Ghent University, Ghent, Belgium.
³ Department of Internal Medicine and Pediatrics, HIV Cure Research Center, Ghent University and Ghent University Hospital, Ghent, Belgium.
⁴ Department of Bioengineering, University of California San Diego, La Jolla, CA, USA.
⁵ Laboratory of Veterinary Morphology, Faculty of Veterinary Medicine, Ghent University, Campus Merelbeke, Salisburylaan 133, 9820, Merelbeke, Belgium. Ward.DeSpiegelaere@ugent.be.
⁶ Ghent University Digital PCR Consortium, Ghent University, Ghent, Belgium. Ward.DeSpiegelaere@ugent.be.

PMID: 39487879
DOI: 10.1007/s40291-024-00751-9

Abstract

Digital PCR (dPCR) has been used in the field of virology since its inception. Technological innovations in microfluidics more than a decade ago caused a sharp increase in its use. There is an emerging consensus that dPCR now outperforms quantitative PCR (qPCR) in the basic parameters such as precision, sensitivity, accuracy, repeatability and resistance to inhibitors. These strengths have led to several current applications in quantification, mutation detection and environmental DNA and RNA samples. In high throughput scenarios, such as the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic, the cost and throughput still significantly hampered the adaption of dPCR. There is much unexplored potential within the multiplexing capabilities of dPCR. This will allow simultaneous multi-target quantification and can also partially alleviate the throughput and cost drawback. In this review, we discuss the strengths and weaknesses of dPCR with a focus on virology applications and we discuss future applications. Finally, we discuss recent evolutions of the technology in the form of real-time dPCR and digital high-resolution melting.

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Conflict of interest statement

Declarations. Conflict of interest: David Gleerup and Wim Trypsteen declare that they have no competing interests. Ward De Spiegelaere is on the editorial board of Molecular Diagnosis and Therapy. Stephanie Fraley is scientific co-founder of Melio. Melio develops digital high resolution melting technology which is discussed in the article. Funding: This work was financially supported by an interdisciplinary grant of the special research fund of Ghent University (01IO0420). Author contributions: David Gleerup did the literature search and wrote the manuscript. Ward De Spiegelaere edited and structured the manuscript. Wim Trypsteen and Stephanie Fraley reviewed the manuscript. All authors read and agreed on the final version. Availability of data and material: Not applicable. Ethics approval: Not applicable. Consent to participate: Not applicable. Consent for publication: Not applicable. Code availability: Not applicable.

References

1. Mullis K, Faloona F, Scharf S, Saiki R, Horn G, Erlich H. Specific enzymatic amplification of DNA in vitro: the polymerase chain reaction. Cold Spring Harb Symp Quant Biol. 1986;51(Pt 1):263–73. - PubMed - DOI
1. Cassol SA, Poon MC, Pal R, Naylor MJ, Culver-James J, Bowen TJ, et al. Primer-mediated enzymatic amplification of cytomegalovirus (CMV) DNA. Application to the early diagnosis of CMV infection in marrow transplant recipients. J Clin Invest. 1989;83(4):1109–15. - PubMed - PMC - DOI
1. Zeldis JB, Lee JH, Mamish D, Finegold DJ, Sircar R, Ling Q, et al. Direct method for detecting small quantities of hepatitis B virus DNA in serum and plasma using the polymerase chain reaction. J Clin Invest. 1989;84(5):1503–8. - PubMed - PMC - DOI
1. Higuchi R, Dollinger G, Walsh PS, Griffith R. Simultaneous amplification and detection of specific DNA sequences. Biotechnology (N Y). 1992;10(4):413–7. - PubMed - DOI
1. Ruano G, Kidd KK, Stephens JC. Haplotype of multiple polymorphisms resolved by enzymatic amplification of single DNA molecules. Proc Natl Acad Sci USA. 1990;87(16):6296–300. - PubMed - PMC - DOI

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[1] Mullis K, Faloona F, Scharf S, Saiki R, Horn G, Erlich H. Specific enzymatic amplification of DNA in vitro: the polymerase chain reaction. Cold Spring Harb Symp Quant Biol. 1986;51(Pt 1):263–73. - PubMed - DOI

[2] Mullis K, Faloona F, Scharf S, Saiki R, Horn G, Erlich H. Specific enzymatic amplification of DNA in vitro: the polymerase chain reaction. Cold Spring Harb Symp Quant Biol. 1986;51(Pt 1):263–73. - PubMed - DOI

[3] Cassol SA, Poon MC, Pal R, Naylor MJ, Culver-James J, Bowen TJ, et al. Primer-mediated enzymatic amplification of cytomegalovirus (CMV) DNA. Application to the early diagnosis of CMV infection in marrow transplant recipients. J Clin Invest. 1989;83(4):1109–15. - PubMed - PMC - DOI

[4] Cassol SA, Poon MC, Pal R, Naylor MJ, Culver-James J, Bowen TJ, et al. Primer-mediated enzymatic amplification of cytomegalovirus (CMV) DNA. Application to the early diagnosis of CMV infection in marrow transplant recipients. J Clin Invest. 1989;83(4):1109–15. - PubMed - PMC - DOI

[5] Zeldis JB, Lee JH, Mamish D, Finegold DJ, Sircar R, Ling Q, et al. Direct method for detecting small quantities of hepatitis B virus DNA in serum and plasma using the polymerase chain reaction. J Clin Invest. 1989;84(5):1503–8. - PubMed - PMC - DOI

[6] Zeldis JB, Lee JH, Mamish D, Finegold DJ, Sircar R, Ling Q, et al. Direct method for detecting small quantities of hepatitis B virus DNA in serum and plasma using the polymerase chain reaction. J Clin Invest. 1989;84(5):1503–8. - PubMed - PMC - DOI

[7] Higuchi R, Dollinger G, Walsh PS, Griffith R. Simultaneous amplification and detection of specific DNA sequences. Biotechnology (N Y). 1992;10(4):413–7. - PubMed - DOI

[8] Higuchi R, Dollinger G, Walsh PS, Griffith R. Simultaneous amplification and detection of specific DNA sequences. Biotechnology (N Y). 1992;10(4):413–7. - PubMed - DOI

[9] Ruano G, Kidd KK, Stephens JC. Haplotype of multiple polymorphisms resolved by enzymatic amplification of single DNA molecules. Proc Natl Acad Sci USA. 1990;87(16):6296–300. - PubMed - PMC - DOI

[10] Ruano G, Kidd KK, Stephens JC. Haplotype of multiple polymorphisms resolved by enzymatic amplification of single DNA molecules. Proc Natl Acad Sci USA. 1990;87(16):6296–300. - PubMed - PMC - DOI

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Digital PCR in Virology: Current Applications and Future Perspectives

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Digital PCR in Virology: Current Applications and Future Perspectives

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