Living Microneedles for Intradermal Delivery of Beneficial Bacteria

The skin, our first line of defense against external threats, combines a physical barrier and a rich microbial community. Disruptions of this community, for example, due to infectious injury, have been linked to a decrease in bacteria diversity and to mild to severe pathological conditions. Although some progress has been made in the field, possibilities/procedures for restoring the skin microbiome are still far from ideal. The objective of this study was to design and evaluate a dissolvable poly(vinyl alcohol)/polyvinylpyrrolidone microneedle (MN) patch containing live Bacillus subtilis. According to the plan, bacteria were distributed equally throughout the patch without compromising the morphology and mechanical properties of the needles. B. subtilis was successfully released from the MNs, reaching a logarithmic growth phase after 5 h. These MNs demonstrated remarkable antibacterial activity against the Gram-positive pathogenic S. pyogenes, S. aureus, and C. acnes, while the empty control MNs showed no such activity. Finally, mice were inserted with a single MN patch loaded with GFP-B. subtilis presented significantly higher total radiance efficiency (TRE) values compared to the empty-MN mice throughout the entire experiment. This concept of incorporating live, secreting bacteria within a supportive MN patch shows great promise as a bacterial delivery system, offering a potential shift from conventional pharmacological approaches to more sustainable and symbiotic therapies.