Wound Healing Promotion via Release of Therapeutic Metallic Ions from Phosphate Glass Fibers: An and Study.

Biomaterials capable of promoting wound healing and preventing infections remain in great demand to address the global unmet need for the treatment of chronic wounds. Phosphate-based glasses (PG) have shown potential as bioresorbable materials capable of inducing tissue regeneration, while being replaced by regenerated tissue and releasing therapeutic species. In this work, phosphate-glass-based fibers (PGF) in the system PO-CaO-NaO added with 1, 2, 4, 6, and 10 mol % of the therapeutic metallic ions (TMI) Ag, Zn, and Fe were manufactured via electrospinning of coacervate gels. Coacervation is a sustainable, cost-effective, water-based method to produce PG. All TMI are effective in promoting wound closure (re-epithelialization) in living human skin , where the best-performing system is PGF containing Ag. In particular, PGF with ≥4 mol % of Ag is capable of promoting 84% wound closure over 48 h. These results are confirmed by scratch test migration assays, with the PGF-Ag systems containing ≥6 mol % of Ag, demonstrating significant wound closure enhancement (up to 72%) after 24 h. The PGF-Ag systems are also the most effective in terms of antibacterial activity against both the Gram-positive and the Gram-negative . PGF doped with Zn shows antibacterial activity only against in the systems containing Zn ≥ 10 mol %. In addition, PGF doped with Fe rapidly accelerates healing in patient chronic wound skin (>30% in 48 h), demonstrating the utility of doped PGF as a potential therapeutic strategy to treat chronic wounds.