Transfersomal Phage Cocktail Is an Effective Treatment against Methicillin-Resistant Staphylococcus aureus-Mediated Skin and Soft Tissue Infections.

The emergence of drug resistance has rekindled interest in phage therapy as an alternative treatment option; its potency, safety, and proven efficacy are worth noting. However, phage therapy still suffers from issues of poor stability, narrow spectra, and poor pharmacokinetic profiles. Therefore, it is essential to look into the use of drug delivery systems for efficient delivery of lytic phages in vivo The present study evaluated the use of nanostructured lipid-based carriers, i.e., transfersomes, as transdermal delivery systems for encapsulating a methicillin-resistant Staphylococcus aureus (MRSA) phage cocktail. Furthermore, the therapeutic potential of the encapsulated phage cocktail in resolving experimental soft tissue infections in rats was studied. Results from in vitro stability and in vivo phage titer experiments indicated that the transfersome-entrapped phage cocktail showed better persistence and stability than did free phages. Rats treated with the transfersome-entrapped phage cocktail resolved the experimental thigh infections within a period of 7 days, unlike the 20-day period required for untreated animals. The findings of the present study support the use of transfersomes as delivery agents to enhance the stability and in vivo persistence of the encapsulated phages. In addition, this study highlights the advantages offered by transfersome-encapsulated phages in providing better therapeutic options than free phages for treating skin and soft tissue infections. The transfersome-entrapped phage cocktail was able to protect all test animals (with no deaths) even when administered with a delay of 12 h postinfection, unlike free phages, thus making this treatment option more suitable for clinical settings.