Novel linezolid loaded bio-composite films as dressings for effective wound healing: experimental design, development, optimization, and antimicrobial activity
Date
2022-10
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
Informa Healthcare
Series Info
Drug Delivery;29(1):3168-3185
Scientific Journal Rankings
Abstract
Biphasic release bio-composite films of the low water-soluble drug, linezolid (LNZ), were
formulated using the solvent casting technique. Different polymers and plasticizers (gelatin,
Tween 80, polyethylene glycol 400, and glycerol) were assessed for the preparation of
bio-composite films. An I-optimal design was applied for the optimization and to study the
impact of polymer concentration (X1), plasticizer concentration (X2), polymer type (X3), and
plasticizer type (X4) on different LNZ-loaded bio-composite films. The film thickness, moisture
content, mechanical properties, swelling index, and percentage of drug release at fixed times
opted as dependent variables. Results demonstrated a significant effect of all independent
variables on the drug release from the prepared bio-composite films. The plasticizer concentration
significantly increased the thickness, moisture content, elongation at break, swelling index,
and in vitro drug release and significantly reduced the tensile strength. The optimized LNZ-loaded
bio-composite film comprised of 15% Tween 80 and 30% PEG 400 was highly swellable, elastic,
acceptable tensile properties, safe, maintained a moist environment, and indicated great
antimicrobial activity against both Staphylococcus aureus (ATCC®
25922) and methicillin-resistant
Staphylococcus aureus (MRSA), which are common wound infectious bacteria. The present study
concludes that the optimized LNZ-loaded bio-composite film was successfully designed with
fast drug release kinetics and it could be regarded as a promising novel antimicrobial wound
dressing formulation.
Description
Keywords
Linezolid, I-optimal design, bio-composite films, antimicrobial activity, wound healinge