Uncovering and evaluating coconut oil-loaded silica nanoemulsion as anti-viral, bacterial, and fungal: synthesis, fabrication, characterization, and biosafety profiles

Background

Coconut oil, a natural component abundant in terpenoids, possesses various physiological functions. The global concern over the spread of viral infections and antimicrobial-resistant bacteria and fungi has highlighted the need for novel treatments. Coconut oil, with its known antimicrobial properties, presents an attractive candidate for combating these pathogens. This study aims to investigate the potential of coconut oil-loaded silica nanoemulsion (ON@SiO₂) as a novel therapeutic agent against viral, antimicrobial-resistant bacteria, and fungal pathogens.

Results

The study synthesized coconut oil-loaded silica nanoemulsion (ON@SiO₂) using an eco-friendly, cost-effective method with native coconut oil (CO). Characterization confirmed successful synthesis on the nanoscale with good distribution. Three nanoemulsion samples (ON-1@SiO₂, ON-2@SiO₂, and ON-3@SiO₂) were prepared, with average particle sizes of 193 nm, 200 nm, and 325 nm, respectively. Evaluation of cytotoxicity on Vero-E6 cell lines indicated safety of ON-0@SiO₂ and ON-3@SiO₂, with CC50 values of 97.5 mg/ml and 89.1 mg/ml, respectively. ON-3@SiO₂ demonstrated anti-Herpes I and II (HSV1 and HSV2) activity, with IC50 values of 1.9 mg/ml and 2.1 mg/ml, respectively. Additionally, ON-3@SiO₂ exhibited promising antibacterial activity against E. coli, P. aeruginosa, S. aureus, and B. subtilis, with MIC values of 25 mg/ml, 12.5 mg/ml, 25 mg/ml, and 3.12 mg/ml, respectively.

Conclusions

ON-3@SiO₂ showed potential antifungal activity against C. albicans, a unicellular fungus, with an MIC of 12.5 mg/ml. Overall, ON@SiO₂ possesses antiviral, antibacterial, and antifungal properties.