The Clinical Utility of Circulating HPV DNA Biomarker in Oropharyngeal, Cervical, Anal, and Skin HPV-Related Cancers: A Review.
Ioana Maria AndrioaieIonut LuchianCostin DămianGiorgio NichiteanElena Porumb AndreseTheodor Florin PantilimonescuBogdan TrandabățLiviu Jany PrisacariuDana-Gabriela BudalaDaniela Cristina DimitriuLuminita Smaranda IancuRamona-Garbriela UrsuPublished in: Pathogens (Basel, Switzerland) (2023)
Human papillomavirus (HPV) is recognized as being related to a wide variety of known cancers: cervical, oropharyngeal, anal, vaginal, penile, and skin. For some of these cancers, rigorous algorithms for screening, therapeutical interventions, and follow-up procedures have been established. Vaccination using the nonvalent anti-HPV vaccine, which prevents infection regarding the most frequently involved high-risk HPV types (16, 18, 31, 33, 45, 52, and 58) and low-risk HPV types (6 and 11), has also extensively prevented, controlled, and even eradicated HPV infections. Still, even with all of these multidisciplinary interventions, the burden of HPV cancers is still high worldwide. The circulating DNA of HPV-induced cancers is thought to be an adequate biomarker for optimizing the control of these virus-related cancers. We analyzed the literature published in the last 5 years regarding ctDNA and four of the above-mentioned cancers. The most frequently used assay for ctDNA detection was the droplet digital PCR assay, used for the management of therapy in the late stages of cancer. ctDNA could not be used for early detection in any of the studied cancers. The OPSCCs were the most frequent cancers analyzed via ctDNA assays. Larger, properly designed cohort studies might establish the clinical utility of this biomarker.
Keyphrases
- high grade
- circulating tumor
- cervical cancer screening
- high throughput
- machine learning
- systematic review
- prostate cancer
- mesenchymal stem cells
- randomized controlled trial
- deep learning
- mouse model
- risk factors
- oxidative stress
- soft tissue
- papillary thyroid
- single molecule
- circulating tumor cells
- bone marrow
- real time pcr