Fabrication of Gentamicin Sulfate‐Loaded 3D‐Printed Polyvinyl Alcohol/Sodium Alginate/Gelatin‐Methacryloyl Hybrid Scaffolds for Skin Tissue Replacement-Reference-Cited by-同舟云学术

Fabrication of Gentamicin Sulfate‐Loaded 3D‐Printed Polyvinyl Alcohol/Sodium Alginate/Gelatin‐Methacryloyl Hybrid Scaffolds for Skin Tissue Replacement

Published:2023-10-24 Issue:12 Volume:308 Page:
ISSN:1438-7492
Container-title:Macromolecular Materials and Engineering
language:en
Short-container-title:Macro Materials & Eng

Author:

Izgordu Muhammet Sefa¹,Ayran Musa¹,Ulag Songul²,Yildirim Ridvan¹,Bulut Berrak¹,Sahin Ali³,Guncu Mehmet Mucahit⁴,Aksu Burak⁴,Gunduz Oguzhan²^ORCID

Affiliation:

1. Center for Nanotechnology & Biomaterials Application and Research (NBUAM) Marmara University Fahrettin Kerim Gokay Istanbul 34722 Turkey

2. Department of Metallurgical and Materials Engineering Faculty of Technology Marmara University Fahrettin Kerim Gokay Istanbul 34722 Turkey

3. Department of Biochemistry School of Medicine/Genetic and Metabolic Diseases Research and Investigation Center Marmara University Maltepe Basıbuyuk Istanbul 34854 Turkey

4. Department of Medical Microbiology Faculty of Medicine Marmara University Maltepe Basıbuyuk Istanbul 34854 Turkey

Abstract

Abstract3D‐printed scaffolds can better mimic the function of human skin, both biologically and mechanically. Within the scope of this study, the effect of the addition of different amounts (10, 15, 20 mg) of gentamicin sulfate (GS) to a 10 mL solution of natural and synthetic polymers is investigated. Sodium alginate (SA), gelatin‐methacryloyl (GelMA), and polyvinyl alcohol (PVA) are chosen as bioactive materials. The surface morphology and pore structures are visualized by scanning electron microscopy (SEM). According to the results, it is observed that the pore sizes of all scaffolds are smaller than 270 µm, the lowest value (130 µm) is obtained in the scaffold loaded with 15 mg GS, and it also has the highest tensile strength value (12.5 ± 7.6 MPa). Similarly, it is observed that the tensile strength (9.7 ± 4.5 MPa) is high in scaffold loaded with 20 mg GS. The biocompatibility test is performed with fibroblast cells, and the results show that the scaffolds are biocompatible with cells. The antibacterial test is carried out against the S.aureous and E. coli and the results indicate that all GS‐loaded scaffolds demonstrate antibacterial activity.

Publisher

Wiley

Subject

Materials Chemistry,Polymers and Plastics,Organic Chemistry,General Chemical Engineering

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/mame.202300151

Reference35 articles.

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