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Full-Text Articles in Medical Sciences
Submicron Bioactive Glass Tubes For Bone Tissue Engineering, Jingwei Xie, Eric Blough, Chi-Hwa Wang
Submicron Bioactive Glass Tubes For Bone Tissue Engineering, Jingwei Xie, Eric Blough, Chi-Hwa Wang
MIIR Faculty Research
Herein we describe a method to fabricate submicron bioactive glass tubes using of sol-gel and co-axial electrospinning techniques for applications in bone tissue engineering. Heavy mineral oil and gel solution were delivered by two independent syringe pumps during the co-axial electrospinning process. Subsequently, submicron bioactive glass tubes were obtained by removal of poly(vinyl pyrrolidone) (PVP) and heavy mineral oil via calcination at 600 °C for 5 h. Tubular structure was confirmed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM) imaging. We examined the bioactivity of submicron bioactive glass tubes and fibers and evaluated their biocompatibility taking electrospun poly(ε-caprolactone) …
Controlled Biomineralization Of Electrospun Poly(Ε-Caprolactone) Fibers For Enhancing Their Mechanical Properties, Jingwei Xie, Shaoping Zhong, Bing Ma, Franklin D. Shuler, Chwee Teck Lim
Controlled Biomineralization Of Electrospun Poly(Ε-Caprolactone) Fibers For Enhancing Their Mechanical Properties, Jingwei Xie, Shaoping Zhong, Bing Ma, Franklin D. Shuler, Chwee Teck Lim
MIIR Faculty Research
Electrospun polymeric fibers have been investigated as scaffolding materials for bone tissue engineering. However, their mechanical properties, and in particular stiffness and ultimate tensile strength, cannot match those of natural bones. The objective of the study was to develop novel composite nanofiber scaffolds by attaching minerals to polymeric fibers using an adhesive material-the mussel-inspired protein polydopamine-as a "superglue". Herein, we report for the first time the use of dopamine to regulate mineralization of electrospun poly(ε-caprolactone) (PCL) fibers to enhance their mechanical properties. We examined the mineralization of the PCL fibers by adjusting the concentration of HCO3 - and dopamine in …
Radially Aligned, Electrospun Nanofibers As Dural Substitutes For Wound Closure And Tissue Regeneration Applications, Jingwei Xie, Matthew R. Macewan, Wilson Z. Ray, Wenying Liu, Daku Y. Siewe, Younan Xia
Radially Aligned, Electrospun Nanofibers As Dural Substitutes For Wound Closure And Tissue Regeneration Applications, Jingwei Xie, Matthew R. Macewan, Wilson Z. Ray, Wenying Liu, Daku Y. Siewe, Younan Xia
MIIR Faculty Research
This paper reports the fabrication of scaffolds consisting of radially aligned poly(ε-caprolactone) nanofibers by utilizing a collector composed of a central point electrode and a peripheral ring electrode. This novel class of scaffolds was able to present nanoscale topographic cues to cultured cells, directing and enhancing their migration from the periphery to the center. We also established that such scaffolds could induce faster cellular migration and population than nonwoven mats consisting of random nanofibers. Dural fibroblast cells cultured on these two types of scaffolds were found to express type I collagen, the main extracellular matrix component in dural mater. The …