Chitosan-insulin nano-formulations as critical modulators of inflammatory cytokines and Nrf-2 pathway to accelerate burn wound healing

Abstract: Burn injuries are characterized by prolonged inflammatory phases, neurovascular damage, and hypermetabolism, eventually causing improper tissue regeneration. Insulin has gained considerable attention in normal and diabetic wound healing, yet its role in burn wounds remains poorly understood. In this study, insulin-chitosan nano-formulations (ICNP) were synthesized using a simple and robust mechanism and characterized to monitor specific interactions between insulin and chitosan, and the particles measuring app… Show more

“…40 After binding to the receptors, insulin activates different pathways like Akt, Erk, and NRF-2 pathways to promote wound healing. 41,42 The insulin-templated nanoformulations have promising potential for bioimaging, super-resolution microscopy, and wound healing. 39,43…”

Insulin-infused bimetallic nano-subclusters as a multifunctional agent for ROS scavenging, antibacterial resilience, and accelerated in vitro cell migration

“…40 After binding to the receptors, insulin activates different pathways like Akt, Erk, and NRF-2 pathways to promote wound healing. 41,42 The insulin-templated nanoformulations have promising potential for bioimaging, super-resolution microscopy, and wound healing. 39,43…”

Insulin-infused bimetallic nano-subclusters as a multifunctional agent for ROS scavenging, antibacterial resilience, and accelerated in vitro cell migration

Carbonized Polymer Dot‐Tannic Acid Nanoglue: Tissue Reinforcement with Concurrent Fluorescent Tracking, Insulin Delivery, and Reactive Oxygen Species Regulation for Normal and Diabetic Wound Healing

The impact of subdermal adipose derived stem cell injections and early excision on systemic oxidative stress and wound healing in rats with severe scald burns