Characterization and antibacterial activity of gelatin-gellan gum bilayer wound dressing

Bilayer wound dressing systems consisting of various biopolymers have been preferred in biomedical applications due to its enhanced advantages in comparison with conventional systems. The aim of this research was to develop a novel bilayer wound dressing based on gelatin (G) and gellan gum (GG). The...

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Published inInternational journal of polymeric materials Vol. 71; no. 16; pp. 1240 - 1251
Main Authors Özkahraman, Bengi, Özbaş, Zehra, Bayrak, Gülsen, Tamahkar, Emel, Perçin, Işık, Kılıç Süloğlu, Aysun, Boran, Filiz
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 02.11.2022
Taylor & Francis Ltd
Subjects
Ampicillin
Antibacterial
Antibiotics
bilayer wound dressing materials
Biocompatibility
Biomedical materials
Biopolymers
controlled drug delivery
Gelatin
Gellan gum
Hydrogels
MTT assay
Sodium
Wound healing
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Summary:Bilayer wound dressing systems consisting of various biopolymers have been preferred in biomedical applications due to its enhanced advantages in comparison with conventional systems. The aim of this research was to develop a novel bilayer wound dressing based on gelatin (G) and gellan gum (GG). The bilayer was composed of an upper layer impregnated with antibiotic drug sodium ampicillin and a drug-free lower sponge layer. The bilayer hydrogels were characterized by FTIR, TGA, DSC and SEM analyses including swelling behaviors and hydrolytic degradation tests. To achieve faster healing of the wound by prevention of the bacterial infection, the bilayer hydrogels were developed as antibiotic-releasing vehicles. Herein, release study of sodium ampicillin was performed in PBS to simulate the physiological micro-environment. Additionally, cyto-compatibility tests of L929 fibroblast cells showed the high proliferation and survival through drug-loaded GG and G hydrogels (GG-G-D) after 24h, 48h and 72h incubation. This novel GG-G bilayer hydrogel could be a good candidate as wound dressing.
ISSN:0091-4037
1563-535X
DOI:10.1080/00914037.2021.1960341