HPV detection methods and genotyping techniques in screening for cervical cancer

Abstract

Human papillomaviruses (HPV), double-stranded DNA viruses, are causing many mucocutaneous diseases, benign or malignant, ranging from common warts to malignancies involving the upper aerodigestive tract and the anogenital sphere. The diagnosis of HPV infection is based primarily on the viral genome detection by molecular biological methods, given the difficulty in routine cultivation of these viruses. The current trend in screening against cervical cancer is to improve the sensitivity of screening with new methods and to propose new algorithms for diagnostic and therapeutic decisions. The development of liquid-based cytology facilitates the cytologic diagnosis and molecular assays from the same sample. There are two main types of HPV detection methods used on uterine cervical samples: signal amplification methods (hybridization techniques in liquid phase) and target amplification methods (the techniques of gene amplification or Polymerase Chain Reaction [PCR]). Genotyping techniques are also developed: they are based on an amplification technique followed by hybridization with probe specific types. In addition to the detection, genotyping techniques allow quantitative detection of viral DNA of HPV genotype and so monitor changes in viral load over time. Another approach relies on the detection of messenger RNA (mRNA) of HPV proteins E6 and E7 oncogenes, which would appear to be a relevant marker to identify and monitor women at risk of progression to a precancerous lesion or cervical cancer.