1st International Conference on Chemo and BioInformatics, ICCBIKG 2021, (251-254)
AUTHOR(S) / АУТОР(И): Katarina Virijević, Jelena Grujić, Milena Jovanović, Nikolina Kastratović, Ana Mirić, Dalibor Nikolić, Marko Živanović, Nenad Filipović
E-ADRESS / Е-АДРЕСА: email@example.com, firstname.lastname@example.org, email@example.com, firstname.lastname@example.org, email@example.com, firstname.lastname@example.org, : email@example.com, firstname.lastname@example.org
ABSTRACT / САЖЕТАК:
Electrospinning is highly used technique in the tissue engineering field, particularly in biomedical application . The constricted concepts of this process are based on generate nonwoven nanofibers. The method involves high voltage electricity which is applied to the liquid solution and a collector, which lets the solution force out from a nozzle forming a jet. The jet formed fibers under influence of electrostatic forces concentrated and deposited these on the collector. Main objective of this study was to fabricate gelatin scaffolds with micro/nano-scale for successful wound dressing. Gelatin can mimic the chemical composition, physical structure and structure of the native skin extracellular matrix (ECM). However, the first and main principle in this study is the optimization of parameters of the electrospinning process. The used parameters have a crucial role in obtaining suitable fibers for further cell seeding and cell growth in vitro. With the use of series of various biocompatible polymers and solvents, solutions were tested in various electrospinning settings in order to produce microscale fibers. The scaffolds were analysed with scanning electron microscope images for fiber diameter measurement.
KEY WORDS / КЉУЧНЕ РЕЧИ:
electrospinning, gelatin, biomedical application, nanofibers, tissue engineering
REFERENCES / ЛИТЕРАТУРА:
- Virijević, J. Grujić, M. Kokanović, D. Nikolić, M. Živanović, N. Filipović Electrospinning and Electrospun Nanofibrous Materials – Promising Scaffolds in Tissue Engineering, CMBEBIH, IFMBE Proceedings, Springer, Vol. 84, (2021), 726-733.
- Lei, K. Shin, D. Noh, I. Jo, Y. Koh, W. Choi and H. Kim. Nanofibrous Gelatin – Silica Hybrid Scaffolds Mimicking The Native Extracellular Matrix (ECM) Using Thermally Induced Phase Separation, Journal of Material Chemistry, 22, (2012).