Several of our project’s significant achievements can be considered breakthroughs, advancing the research field significantly beyond the state of the art.
With URISAMP, we are the first to report the detection of vaccine and naturally induced antibodies in non-invasively collected first-void urine, marking a significant advancement in tools for understanding local immune responses in the female genital tract. We demonstrated that anti-HPV antibodies can be detected in up to 100% of FVU samples post-vaccination and remain detectable for up to 12 years, with FVU HPV16-specific IgG results showing good correlations to paired serum. Hence, we have sparked considerable interest in using these non-invasive samples for monitoring humoral immune response in larger studies.
Moreover, recently, we published compelling data that antibodies in FVU samples remain neutralizing, supporting the hypothesis that vaccination at a later age might reduce autoinoculation rates and impact transmission to sexual partners.
The optimized methods for immune response detection and monitoring based on FVU, developed in the URISAMP project, will play an important role in future (long-term) follow up of HPV vaccination trials, epidemiological/large cohort studies and studying the natural history of an HPV infection. Moreover, if URISAMP proves successful, and FVU can also replace other sample types (e.g. blood), applications will largely extend the STI field, and its impact as a novel diagnostic and prognostic tool for health assessment will be substantial.