A promising approach to wound healing – in-vivo study of carbon nanodots infused PVA hydrogel with Kamias extract as antibacterial wound dressing

• Authors: Marilene C. Hipolito

Abstracts

EN

Introduction and aim. The use of carbon nanodots (C-nanodots) synthesized from Kamias leaves for developing antibacterial wound dressings has gained attention due to their potential in promoting wound healing and contraction. To extract Kamias leaves, synthesize C-nanodots through microwave-assisted pyrolysis, characterize the synthesized C-nanodots, and test the polyvinyl alcohol (PVA) hydrogel infused with C-nanodots for antibacterial activity and wound contraction in Sprague Dawley rats. Material and methods. Kamias leaves extract was used to synthesize C-nanodots with varying amounts of monoethanolamine. The C-nanodots were characterized using UV-Vis spectrophotometer, electron microscope, and the paper disk method. The PVA hydrogel infused with C-nanodots was tested for antibacterial activity and wound contraction in Sprague Dawley rats. Results. The synthesized C-nanodots exhibited antibacterial properties against Staphylococcus aureus and Subtilis bacillus, with a zone of inhibition ranging from 15 mm to 23.6 mm at different concentrations. The carbon nanodots-PVA hydrogel patch showed potential wound healing ability, with significant differences in wound contraction compared to the positive and negative controls. Conclusion. C-nanodots synthesized from Kamias extract have potential applications in antibacterial and wound healing fields. However, further studies are required to investigate the mechanism of action and potential side effects of using carbon nanodots in these applications.

Keywords

EN

antibacterial; carbon nanodots; Kamias leaves; PVA hydrogel; wound dressing; wound healing

• Publisher: Uniwersytet Rzeszowski. Wydawnictwo Uniwersytetu Rzeszowskiego
• Journal: European Journal of Clinical and Experimental Medicine
• Year: 2023
• Issue: 2
• Pages: 305-314

Dates

published

2023

Contributors

author

Marilene C. Hipolito

• Research Department, College of Arts and Sciences, Nueva Ecija University of Science and Technology, Cabanatuan, Philippines

Identifiers

DOI

10.15584/ejcem.2023.2.25

Biblioteka Nauki

25102379