Comparable detection of HPV using real-time PCR in paired cervical samples and concentrated first-stream urine collected with Colli-Pee device

Equivalent Clinical Accuracy of Human Papillomavirus DNA Testing Using Cobas 4800 and 6800 Human Papillomavirus Systems in Paired Urine and Cervical Samples

The use of urine for cervical cancer screening is gaining international attention, although more data on the relative clinical accuracy of validated human papillomavirus (HPV) DNA tests on urine versus cervical samples are needed. This study primarily seeks to evaluate the clinical performance of Roche cobas 4800 and 6800 HPV Systems in first-void urine, collected at home, compared with clinician-collected cervical samples. Paired first-void urine (index test) and cervical samples (comparator test) from 499 females enrolled at five Belgian colposcopy clinics were analyzed with cobas HPV Systems. Colposcopy and histology of biopsies were used as reference test (trial registration number: NCT03064087). Sample processing protocols and clinical thresholds proposed by the manufacturer for cervical samples were also applied for first-void urine. In the total study population, HPV testing on first-void urine was similarly sensitive [ratiocervical intraepithelial neoplasia 2+ (CIN2+), 0.98; 95% CI, 0.93-1.02] and specific for cobas 4800 HPV (ratio< CIN2, 1.00; 95% CI, 0.91-1.10) and cobas HPV for use on the cobas 6800 System (ratioCIN2+, 0.96; 95% CI, 0.91-1.02; ratio< CIN2, 1.01; 95% CI, 0.93-1.09) compared with cervical samples (P ≥ 0.05). Good to excellent HPV test agreements between paired samples were observed (κ = 0.68 to 0.87). In summary, HPV testing using cobas 4800 and 6800 HPV Systems was as accurate on first-void urine as on cervical samples collected by a clinician.

Effectiveness of HPV vaccine as part of national immunization program for preventing HPV infection in Thai schoolgirls after seven years post-vaccination

Thailand introduced a two-dose regimen of bivalent HPV vaccines for Grade 5 schoolgirls, approximately 11 years old, initially piloted in Ayutthaya province in 2014, and nationwide under the National Immunization Program (NIP) in 2017. This cross-sectional, case-control study evaluated the vaccine effectiveness in schoolgirls 7 years after a two-dose administration. Between May and June 2023, 211 grade 12 female students from Ayutthaya, who received the two-dose bivalent HPV vaccine CERVARIXⓇ (HPV types 16 and 18), and 376 grade 12 students from Nakhon Pathom who did not receive the HPV vaccine, were enrolled. HPV infection was detected by testing for HPV DNA in the first-void urine samples using real-time PCR (Cobas® 4800 and AnyplexTM HPV28). The study found that the HPV vaccine 100% effective against high-risk HPV (HR-HPV) types included in the vaccine (16, 18) and 32.8% effective against other HR-HPV types not included in the vaccine. Our findings indicated that the bivalent HPV vaccine does not provide cross-protection against non-vaccine HPV types. Prioritizing vaccines with the highest coverage of HR-HPV types, such as the nonavalent HPV vaccine, is crucial to effectively prevent a broader range of HR-HPV infections under the NIP.

A review of urinary HPV testing for cervical cancer management and HPV vaccine surveillance: rationale, strategies, and limitations

Human papillomavirus (HPV) infections are the leading cause of cervical cancer, the fourth most common cancer among women worldwide. Despite concerted efforts to combat this preventable disease through HPV vaccination and cancer screening have helped reduce morbidity and mortality levels, the burden persists in both developing and developed countries due to insufficient vaccination and screening coverage. Urinary HPV testing has emerged as a noninvasive detection method, offering significant advantages in cervical cancer management and vaccine surveillance. Notably, it boasts high acceptance rates, ease of self-collection, user-friendly implementation, and relatively low cost. Various urinary HPV detection methods have been explored, predominantly relying on nucleic acid amplification and signal amplification, targeting a variety of biomarkers in urine, such as HPV DNA, RNA, and oncoproteins. Existing literature underscores urine as a promising specimen for HPV testing, demonstrating comparable detection performance to cervical and vaginal samples in several studies. However, the lack of standardized and authoritative protocols in sample collection, storage, preparation, DNA extraction, and amplification necessitates further evaluation for the comprehensive utilization of urinary HPV testing in clinical and epidemiological settings. This study aims to review pertinent publications and offer insights into the rationale, common strategies, and limitations of urinary HPV testing, with the ultimate goal of maximizing its utility in practice.