Bacterial Cellulose-zinc Oxide Nanocomposites As a Novel Dressing System for Burn Wounds

Overview

Journal Carbohydr Polym

Specialty Biochemistry

Date 2017 Mar 23

PMID 28325319

Citations 62

Authors

Ayesha Khalid

Romana Khan

Mazhar Ul-Islam

Taous Khan

Fazli Wahid

Affiliations

Soon will be listed here.

Abstract

Bacterial cellulose possesses physical and mechanical properties of an ideal wound dressing material but lack of antimicrobial activity limits its biomedical applications. Therefore, in current study, the inherent wound healing characteristics of bacterial cellulose and antimicrobial properties of zinc oxide nanoparticles were combined. The reinforcement (impregnation) of zinc oxide nanoparticles into bacterial cellulose sheets was confirmed through various characterization techniques. The antimicrobial capacity of bacterial cellulose-zinc oxide nanocomposites was tested against common burn pathogens. The in-vivo wound healing and tissue regeneration of the nanocomposites was investigated in burn BALB mice model. Characterization techniques confirmed the successful impregnation of nanoparticles into bacterial cellulose. Bacterial cellulose-zinc oxide nanocomposites exhibited 90%, 87.4%, 94.3% and 90.9% activity against Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus and Citrobacter freundii, respectively. Bacterial cellulose-zinc oxide nanocomposites treated animals showed significant (66%) healing activity. The histological analysis revealed fine tissue regeneration in composites treated group. These findings suggest that bacterial cellulose-zinc oxide nanocomposites could be a novel dressing material for burns.

Citing Articles

Exploring nanobioceramics in wound healing as effective and economical alternatives.

Al-Naymi H, Al-Musawi M, Mirhaj M, Valizadeh H, Momeni A, Danesh Pajooh A Heliyon. 2024; 10(19):e38497.

PMID: 39391491 PMC: 11466581. DOI: 10.1016/j.heliyon.2024.e38497.

Advancements in wound management: integrating nanotechnology and smart materials for enhanced therapeutic interventions.

Nasra S, Pramanik S, Oza V, Kansara K, Kumar A Discov Nano. 2024; 19(1):159.

PMID: 39354172 PMC: 11445205. DOI: 10.1186/s11671-024-04116-3.

A human acellular dermal matrix coated with zinc oxide nanoparticles accelerates tendon repair in patients with hand flexor tendon injuries in zone 5 of the hand.

Hashemi S, Pirmoradi M, Rafati A, Kian M, Mohammadi A, Hoghoughi M Bioimpacts. 2024; 14(5):27748.

PMID: 39296797 PMC: 11406428. DOI: 10.34172/bi.2024.27748.

Enhancing wound healing with zinc and silver nanocomposites synthesized with β-lactoglobulin: antimicrobial properties, collagen deposition, and systemic effects in a C57BL/6J mouse model.

Rodzik A, Pomastowski P, Buszewska-Forajta M, Railean V, Golebiowski A, Buszewski B Discov Nano. 2024; 19(1):150.

PMID: 39287718 PMC: 11408467. DOI: 10.1186/s11671-024-04091-9.

Effect of collagen hydrogel containing essential oil nanoemulsion in wound healing of infectious burn.

Teymouri H, Mohammadimehr M, Ahanjan M, Sheidaei S, Saeedi M, Mellati A Iran J Microbiol. 2024; 16(3):376-388.

PMID: 39005607 PMC: 11245348. DOI: 10.18502/ijm.v16i3.15795.