The biocompatible and biodegradable polymer poly (glycerol sebacate), or PGS, is a rubber- like material that finds use in several biomedical applications. PGS is often cast into a mold …
CN Hsu, PY Lee, HY Tuan‐Mu, CY Li… - Journal of Biomedical …, 2018 - Wiley Online Library
Abstract Poly (glycerol sebacate)(PGS) has been used successfully as a scaffolding material for soft tissue engineering. PGS scaffolds, however, are usually mechanically isotropic …
ZR You, MH Hu, HY Tuan-Mu, JJ Hu - journal of the mechanical behavior …, 2016 - Elsevier
Although poly (glycerol sebacate)(PGS) has enjoyed great success in soft tissue engineering, it remains challenging to fabricate PGS fibers. In this study, coaxial …
F Yi, DA LaVan - Macromolecular bioscience, 2008 - Wiley Online Library
The novel biomaterial poly (glycerol sebacate)(PGS) holds great promise for tissue engineering and regenerative medicine. PGS is a rubbery, degradable polymer much like …
Background: Soft tissues are characterized by strong mechanical anisotropy, as a result of internal fiber architecture, matching the needs of mechanical function in each body part …
G Jin, R He, B Sha, W Li, H Qing, R Teng… - Materials Science and …, 2018 - Elsevier
Engineered tissue constructs rely on biomaterials as support structures for tissue repair and regeneration. Among these biomaterials, polyester biomaterials have been widely used for …
Poly (glycerol sebacate)(PGS) is a biocompatible, biodegradable elastomer that has been shown promise as a scaffolding material for tissue engineering; it is still challenging …
Tissue engineering is an emerging area of applied research with a goal of repairing or regenerating the functions of damaged tissue that fails to heal spontaneously by using cells …
Fibrous scaffolds have become popular in tissue engineering (TE) due to their morphological resemblance to extracellular matrix components. While electrospinning is the …