Degradable Self-healable Networks for Use in Biomedical Applications
2023, A.Bethry, Advanced and well-defined macromolecular architectures, Advanced polymeric biomaterials, B.Nottelet, Evaluation of biomaterials mechanical behaviours, Functional aliphatic polyesters, Implantable medical devices for soft tissues, medical devices, Publications, Resorbable elastomers for medical applications, tissue engineering, Tissue engineering and medical devices
Electrospun microstructured PLA-based scaffolds featuring relevant anisotropic, mechanical and degradation characteristics for soft tissue engineering
2021, A.Bethry, B.Nottelet, C.Pinese, Publications, tissue engineering, Tissue engineering and medical devices, X.Garric
Materials Science and Engineering: C Volume 129, October 2021, 112339 Louis Gangolphe, Christopher Y.Leon Valdivieso, Benjamin Nottelet, Stéphane Déjean, Audrey Bethry, Coline Pinese, Frédéric Bossard and Xavier Garric Electrospun scaffolds combine suitable structural characteristics that make them strong candidates for their use in tissue
Star-poly(lactide)-peptide hybrid networks as bioactive materials
2020, A.Bethry, Advanced polymeric biomaterials, B.Nottelet, C.Pinese, Publications, tissue engineering, Tissue engineering and medical devices, V.Darcos, X.Garric
Eur. Pol. J. 139, 109990 (2020) L.V. Arsenie, C. Pinese, A. Bethry, L. Valot, P. Verdie, B. Nottelet, G. Subra, V. Darcos, X. Garric ABSTRACT Abstract Poly(lactide) (PLA) is a widely used biomaterial in many biomedical applications. However, it is inert and therefore lacks bioactivity,