In Vitro Evaluation of Electrospun PCL Bioscaffold with Zinc-Doped Bioactive Glass Powder Addition

Preparing electrospun fibers by applying a potential difference between a polymeric solution and a contacting substrate is increasingly attracting attention in tissue engineering applications. Among the numerous polymers, polycaprolactone (PCL) bioscaffold has been widely investigated due to its bio...

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Bibliographic Details
Published in:Polymers 2024-10, Vol.16 (19), p.2811
Main Authors: Chen, Ya-Yi, Chiou, Yuh-Jing, Chang, Pei-Jung, Chang, Wei-Min, Yeh, Yu-Cheng, Chen, Chin-Yi, Chang, Yu-Kang, Lin, Chung-Kwei
Format: Article
Language:English
Subjects:
Addition polymerization
Antibacterial agents
Antibiotics
Antiinfectives and antibacterials
Biocompatibility
Bioglass
Biological activity
Biomedical materials
Diffraction
Electrospinning
Fourier transform infrared spectroscopy
Fourier transforms
Glass
Glass substrates
Identification and classification
Investigations
Nitrates
Polycaprolactone
Powders
Properties
Radiation
Scanning electron microscopy
Scanning microscopy
Sol-gel processes
Solvents
Structure
Temperature
Thermogravimetric analysis
Tissue engineering
X-rays
Zinc
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Summary:Preparing electrospun fibers by applying a potential difference between a polymeric solution and a contacting substrate is increasingly attracting attention in tissue engineering applications. Among the numerous polymers, polycaprolactone (PCL) bioscaffold has been widely investigated due to its biocompatibility and biodegradability. Bioactive powder can be added to further improve its performance. In the present study, bioactive glass powder modified by adding 0-6 wt.% antibacterial zinc element (coded as ZBG) was prepared through the sol-gel process. Furthermore, PCL bioscaffolds with various ZBG additions were prepared using the electrospinning technique. The zinc-doped bioactive glass powder and electrospun PCL/ZBG bioscaffolds were evaluated using scanning electron microscopy, X-ray diffraction and Fourier-transform infrared spectroscopy to determine their structural properties. Additionally, in vitro bioactivity, biocompatibility and antibacterial performance were investigated. Experimental results showed that sol-gelled ZBG powder possessed superior bioactivity and 0.8 g ZBG was the optimal addition to prepare PCL/ZBG bioscaffolds with. All the electrospun PCL/ZBG bioscaffolds were biocompatible and their antibacterial performance against two strains (SA133 and Newman) improved with increasing zinc concentration. Electrospun PCL/ZBG bioscaffolds exhibited excellent bioactivity and have great potential for biomedical application.
ISSN:2073-4360
2073-4360
DOI:10.3390/polym16192811