Heliyon (Dec 2024)
A response surface methodology study on the development of pH-sensitive wound dressings using Rhodamine B-loaded chitosan nanoparticles and sodium alginate-based films
Abstract
Purpose: This study aimed to develop an innovative, intelligent wound dressing capable of signaling infections through color changes. Design/methodology/approach: Using response surface methodology, the Rhodamine B fluorescence colorant was encapsulated within colloidal nanoparticles and integrated into a sodium alginate patch at various concentrations. The physical and chemical characteristics of the nanoparticles and the wound dressing were thoroughly analyzed via dynamic light scattering (DLS), zeta potential measurements, scanning electron microscopy (SEM), and Fourier transform infrared spectroscopy (FTIR). Additionally, the biodegradability, hydrophilicity, swelling behavior, release kinetics, porosity, mechanical properties, biocompatibility, and infection detection capability of the wound dressing were evaluated. Findings: The results indicated that the average diameter of the synthesized colloidal nanoparticles was 300 nm before loading with Rhodamine B and increased to 400 nm after loading, with zeta potentials of 52 mV and −6 mV, respectively. The Rhodamine B-loaded wound dressing demonstrated adequate levels of swelling and hydrophilicity. Release studies revealed the gradual release of Rhodamine B at low pH. Cytotoxicity assays confirmed the high biocompatibility of the engineered wound dressing with the L929 cell line. Furthermore, bacterial exposure experiments indicated that the color change was activated in the presence of infection, making it visible under UV-A light. Originality/value: This research presents a novel approach to wound care by developing a smart wound dressing that can detect infections via color changes. These findings underscore the potential of this innovative wound dressing to improve infection management in clinical settings through its responsive and biocompatible design.
