α-Amylase and polydopamine@polypyrrole-based hydrogel microneedles promote wound healing by eliminating bacterial infection

Abstract

In this paper, we designed a novel “Freeze-thaw” type hydrogel microneedle (PP-CDLut-AMY MN). The “Freeze-thaw” cycle endows the MN excellent water absorption, with a dissolution rate of up to 486 %. The addition of polydopamine@polypyrrole (PP) enabled the MN to have a stable temperature increase to approximately 50 °C under near-infrared light irradiation, which exhibited killing rates of 99 % and 98 % against free S. aureus and E. coli, respectively. Natural macromolecule α-Amylase (AMY) was used as a bacterial biofilm disintegrator, and the destruction rate of S. aureus biofilm reached 83.2 %. Meanwhile, the incorporation of Hydroxypropyl-β-cyclodextrin @Luteolin (CDLut) provided the MN with good antioxidant properties, which could scavenge 73.35 % of DPPH free radicals. In vivo experiments have shown that the MN can effectively promote the healing of wounds infected by S. aureus biofilm and that the stable and gentle photothermal effect did not cause unnecessary damage to the surrounding tissues. We believe that this novel hydrogel MN has great potential to combat bacterial biofilms associated with wound infections.