Bioresorbable bilayered elastomers/hydrogels constructs with gradual interfaces for the fast actuation of self-rolling tubes

ACS Appl. Mater. Interfaces 14, 43719–43731 (2022)

Mathilde Grosjean, Sidzigui Ouedraogo, Stéphane Déjean, Xavier Garric, Valeriy Luchnikov, Arnaud Ponche, Noëlle Mathieu, Karine Anselme, Benjamin Nottelet

ABSTRACT

In the biomedical field, self-rolling materials provide interesting opportunities to develop medical devices suitable for drug or cell encapsulation. However, to date a major limitation for medical applications is the use of non-biodegradable and non-biocompatible polymers that are often reported for such applications, or the slow actuation witnessed with degradable systems. In this work, biodegradable self-rolling tubes that exhibit a spontaneous and rapid actuation when immersed in water are designed. Photo-crosslinkable hydrophilic and hydrophobic PEG-PLA star-shaped copolymers are prepared and used to prepare bilayered constructs. Thanks to the discrete mechanical and swelling properties of each layer and the cohesive/gradual nature of the interface, the resulting bilayered films are able to self-roll in water in less than 30 seconds depending on the nature of the hydrophilic layer and on the shape of the sample. The cytocompatibility and degradability of the materials are demonstrated and confirm the potential of such self-rolling resorbable biomaterials in the field of temporary medical devices.