Effective wound management imposes several challenges
in clinical
outcomes due to the complexity of the wound microenvironment, bacterial
infections, impaired angiogenesis, aggravated inflammation, and enduring
pain. In addition, adhesion on wet biological tissue is another extremely
challenging task. Addressing all the issues is necessary for an effective
wound healing process. Herein, we developed a unique multifunctional,
adhesive composite hydrogel composed of gelatin, chitosan, polydopamine-coated
bioactive glass (BG), and curcumin-capped silver nanoparticles (Cur-AgNPs)
to target the multifaceted complexity of the wound. The PDA-coated
BG serves multiple purposes: (1) adhesivity: catechol groups of PDA
and Ca ion released from BG chelate the group present in the hydrogel
network and surrounding tissues, (2) angiogenesis: promotes vascularization
due to the release of Si from BG, and (3) BG also serves as the “reservoir”
for the pain-relieving diclofenac sodium drug with a sustained-release
behavior. Cur-AgNPs provide excellent bactericidal and anti-inflammatory
properties to the composite hydrogel. In situ application
of the composite hydrogel could serve the purpose of a “skin
biomimetic” and work as a barrier along with bactericidal properties
to inhibit the microbial growth. The multifunctional composite hydrogel
(MCH) targeted multiple aspects of wound repair including pain alleviation,
elimination of microbes (up to 99%), reduced inflammation, high adhesivity,
and increased angiogenesis for effective skin regeneration. The MCH
showed excellent wound healing potential as significant wound closure
was observed at day 7 and also significantly upregulated the expression
of crucial genes involved in the skin regeneration process along with
increasing vascularization in the wound area.