Cervical cancer ranks as the fourth most common cancer among women globally, posing a significant mortality risk. Persistent infection with high-risk human papillomavirus (HPV) is the primary instigator of cervical cancer development, often alongside co-infection with other viruses, precipitating various malignancies. This study aimed to explore recent biotechnological advances in understanding HPV infection dynamics, host interactions, and its role in oncogenesis. The gathered data shed light on HPV biology, host-virus interplay, viral co-infections, and cellular transformations leading to HPV-associated cancers. Recent years have seen the introduction of diverse vaccination strategies, including live attenuated, subunit, and DNA-based vaccines, complemented by innovative nanotechnology and plant-based products. Despite rich data addressing research inquiries, urgent calls echo for the implementation of contemporary screening and therapeutic modalities at clinical levels. Moreover, extensive public awareness campaigns are imperative to alleviate the burden of HPV-related diseases, emphasizing the necessity for proactive intervention strategies in combating this global health challenge.
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