Since persistent infection with high-risk human papillomavirus (HPV) is a known cause of high-grade cervical intraepithelial neoplasia and cervical cancer, several HPV DNA detection methods have been developed during the last decade. The Hybrid Capture II (HCII) assay, which allows detection of 13 high-risk HPVs, has been well validated; however, it does not provide any genotype-specific information. The oncogenic activity of HPV is dependent on its genotype. The prophylactic effects of HPV vaccines are based on L1 virus-like particles and are limited mainly to infections corresponding to the HPV type used to develop the immunogen. Therefore, accurate detection and genotyping are important for treatment as well as screening. A newly developed HPV genotyping system using a liquid bead array was evaluated with 286 cervical samples and the results were compared to two commercially available methods, i.e. the HCII and HPV DNA chip assays, and sequencing. The sensitivity for detection of high-risk HPV was 85.3 % (HCII), 94.7 % (DNA chip) and 99.0 % (liquid bead array). The liquid bead array showed almost perfect agreement (κ=0.95) with genotype information confirmed by sequencing, while substantial agreement (κ=0.8) was observed between DNA chip and sequencing. Furthermore, the liquid bead array had superior detection of 26 HPVs (16 high-risk and 10 low-risk types) and has proven to be as accurate as sequencing in identifying individual HPV types, even in cases with multiple HPV infections.
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