Electrospun microstructured PLA-based scaffolds featuring relevant anisotropic, mechanical and degradation characteristics for soft tissue engineering
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
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,
Modulation of protein release from penta-block copolymer microspheres European Journal of Pharmaceutics and Biopharmaceutics 152, 175–182 (2020)
European Journal of Pharmaceutics and Biopharmaceutics 152, 175–182 (2020). Minh-Quan Le, Jean-Christophe Gimel, Xavier Garric, Thao-Quyen Nguyen-Pham, Cédric Paniagua, Jérémie Riou, Marie-Claire Venier-Julienne, ABSTRACT Releasing a protein according to a zero-order profile without protein denaturation during the polymeric microparticle degradation process is very challenging. The
In Vivo Evaluation of the Efficacy and Safety of a Novel Degradable Polymeric Film for the Prevention of Intrauterine Adhesions.
Journal of Minimally Invasive Gynecology (2020) Stéphanie Huberlant, Salomé Leprince, Lucie Allegre, Sophie Warembourg, Isabelle Leteuff, Hubert Taillades, Xavier Garric., Renaud de Tayrac, Vincent Letouzey. ABSTRACT To study the safety of a degradable polymeric film (DPF) and its efficacy on reducing the risk of intrauterine-adhesion
Hyaluronic Acid-Poly(N-acryloyl glycinamide) Copolymers as Sources of Degradable Thermoresponsive Hydrogels for Therapy
Gels 2020, 6(4), 42 Mahfoud Boustta and Michel Vert ABSTRACT One-pot free-radical polymerization of N-acryloyl glycinamide in the presence of hyaluronic acid as transfer-termination agent led to new copolymers in high yields without any chemical activation of hyaluronic acid before. All the copolymers formed thermoresponsive hydrogels