Conglomerated Imiquimod and Metronidazole Incorporated Biodegradable Nanofibrous Mats for Potential Therapy of Cervical Cancer

Background: In clinical practice, imiquimod is used to treat Human Papillomavirus (HPV)-related lesions, such as condyloma and Cervical Intraepithelial Neoplasia (CIN). Metronidazole is the most commonly prescribed antibiotic for bacterial vaginosis. The study developed biodegradable imiquimod-and metronidazole-loaded nanofibrous mats and assessed their effectiveness for the topical treatment of cervical cancer, a type of HPV-related lesion. Methods: Nanofibers of two distinct poly[(d,l)-lactide-co-glycolide] (PLGA)-to-drug ratios (6:1 and 4:1) were manufactured through the electrospinning technology. The in vitro release behavior of imiquimod and metronidazole was evaluated via an elution method, while the in vivo discharge behavior was evaluated on a mice model. Additionally, a model of cervical cancer was established using C57BL/6J mice, and it was utilized to evaluate the efficacy of drug-eluting nanofibers through in vivo testing. Mice afflicted with cervical cancer were separated into three distinct groups for the study: The mice in Group A served as the control and received no treatment. Group B received treatment with pure PLGA nanofibers (no drugs loaded), whereas Group C received treatment with nanofibers loaded with imiquimod and metronidazole. Post implantation, the variations in tumor sizes of rats receiving the implantation of drug-eluting nanofibers were monitored. Results: The experimental data show that drug-eluting nanofibers could discharge in vitro high concentrations of imiquimod and metronidazole for exceeding 30 days. In vivo, each membrane consistently released elevated concentrations of imiquimod/metroni-dazole at the intended site in mice over a four-week period, with minimal systemic drug concentration detected in the bloodstream. The mice treated with drug-loaded nanofibers displayed noticeably reduced tumor volumes compared to both the control group and the group treated with pristine nanofibers. Histological examination revealed the absence of any discernible tissue inflammation. Conclusion: Biodegradable nanofibers with a sustainable release of imiquimod and metronidazole demonstrated their effectiveness and lasting impact of treating mice with cervical cancer.