Papers by Mostafa M . Sayed
European Polymer Journal, 2020
Abstract The development of biocompatible patches that can provide adequate mechanical properties... more Abstract The development of biocompatible patches that can provide adequate mechanical properties and mimicking the physiological relevance still has enormous challenges in the field of tissue engineering. In this study, the aim is to engineer and develop tri-layered nanofiber patches to synchronous the mechanical properties and mimic the complex structure of living cardiovascular tissues. The developed patches consisting of blended silk fibrin (SF) and polyvinyl alcohol (PVA) composite as a hydrophilic middle layer. The upper and lower layers were composed of polycaprolactone polymer (PCL) and Poly (Lactic Acid) (PLA), respectively. Layer by layer of the developed patches were fabricated by electrospinning technique. The patches characteristics such as morphology, surface topography, and physiochemical, biodegradable and mechanical stability were investigated. Furthermore, a human endothelial cell line (EA. hy926) was exploited to assess the biological properties of the fabricated patches. The results show that the patches had high endothelial cells biocompatibility, mechanical elasticity, and unique nanofibers structure.
European Polymer Journal, 2020
The development of biocompatible patches that can provide adequate mechanical properties and mimi... more The development of biocompatible patches that can provide adequate mechanical properties and mimicking the physiological relevance still has enormous challenges in the field of tissue engineering. In this study, the aim is to engineer and develop tri-layered nanofiber patches to synchronous the mechanical properties and mimic the complex structure of living cardiovascular tissues. The developed patches consisting of blended silk fibrin (SF) and polyvinyl alcohol (PVA) composite as a hydrophilic middle layer. The upper and lower layers were composed of polycaprolactone polymer (PCL) and Poly lactic acid (PLA), respectively. Layer by layer of the developed patches were fabricated by electrospinning technique. The patches characteristics such as morphology, surface topography, and physiochemical, biodegradable and mechanical stability were investigated. Furthermore, a human endothelial cell line (EA. hy926) was exploited to assess the biological properties of the fabricated patches. The results show that the patches had high endothelial cells biocompatibility, mechanical elasticity, and unique nanofibers structure.
Materials Letters, 2019
A biodegradable polyvinyl alcohol/silk fibroin (PVA/SF) nanofibrous heart patch with unique tensi... more A biodegradable polyvinyl alcohol/silk fibroin (PVA/SF) nanofibrous heart patch with unique tensile properties was fabricated by an electrospinning technique based on a water-solvent system. The fabricated heart patches were exposed to 2% Glutaraldehyde vapor to provide a cross-linkage and tune the degradation behavior. Numerous characterizations of the modified PVA/SF patches such as surface morphology , chemical bonding, mechanical behavior, biodegradation, and biological assessment of the crosslinked PVA/SF patches were performed. It was found that pronounced and interconnected PVA/SF composite fibrous patches had an average nanofiber diameter of 228 ± 49 nm. In addition, incorporation of SF into PVA nanofibers enhanced the mechanical properties (i.e. tensile strength and tensile modulus) and tuning the degradation rate of the PVA/SF patch. Human cardiac fibroblast cells (HCFC) were cultured on the cross-linked composite patches and the results showed good cell proliferation and attachment on the patches bio-interface.
Uploads
Papers by Mostafa M . Sayed