Development of Three-Dimensional (3D) Biodegradable Polyglycolic Acid Fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study

Abstract: Three-dimensional (3D) biodegradable polyglycolic acid fiber (PGA) preforms were developed as temporary scaffolds for three-dimensional tissue regeneration applications. Three-dimensional biodegradable polyglycolic acid fiber (PGA) preforms including various degrees of interlaced structures called 3D plain, semi-interlaced, and orthogonal woven preforms were designed. Analytical relations and finite element model-based software (TexGen) on fiber volume fraction and porosity fraction were proposed to predict sc… Show more

“…Recently, numerous materials ranging from synthetic materials, including polylactic acid [8], polyglycolic acid [9], and polycaprolactone [10], to natural materials such as collagen [11], gelatin [12], and cellulose [13], have been applied in this field. A key focus has been on naturally occurring materials with biocompatibility and controllable degradation.…”

Injectable Bombyx mori (B. mori) silk fibroin/MXene conductive hydrogel for electrically stimulating neural stem cells into neurons for treating brain damage

“…Recently, numerous materials ranging from synthetic materials, including polylactic acid [8], polyglycolic acid [9], and polycaprolactone [10], to natural materials such as collagen [11], gelatin [12], and cellulose [13], have been applied in this field. A key focus has been on naturally occurring materials with biocompatibility and controllable degradation.…”

Injectable Bombyx mori (B. mori) silk fibroin/MXene conductive hydrogel for electrically stimulating neural stem cells into neurons for treating brain damage

Classification of fiber reinforcement architecture

Versatile ordered porous scaffold blooming from microfluidics