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Toward the New Generation of Surgical Meshes with 4D Response: Soft, Dynamic, and Adaptable

Sonia Lanzalaco, Pau Turón, Christine Weis, Christian Mata, Eulàlia Planas, Carlos Alemán, Elaine Armelín

2020Advanced Functional Materials29 citationsDOIOpen Access PDF

Abstract

Abstract Herein, a facile approach toward transforming a 2D polypropylene flexible mesh material into a 4D dynamic system is presented. The versatile platform, composed by a substrate of knitted fibers of isotactic polypropylene (iPP) mesh and a coating of thermosensitive poly( N ‐isopropylacrylamide‐co‐ N,N’ ‐methylene bis(acrylamide) (PNIPAAm‐ co ‐MBA) hydrogel, covalently bonded to the mesh surface, after cold‐plasma surface treatment and radical polymerization, is intended to undergo variations in its geometry via its reversible folding/unfolding behavior. The study is the first to trace the 3D movement of a flat surgical mesh, intended to repair hernia defects, under temperature and humidity control. An infrared thermographic camera and an optical microscope are used to evaluate the macroscopic and microscopic structure stimulus response. The presence of the PP substrate and the distribution of the gel surrounding the PP threads, affect both the PNIPAAM gel expansion/contraction as well as the time of folding/unfolding response. Furthermore, PP‐ g ‐PNIPAAm meshes show an increase in the bursting strength of ≈16% with respect to the uncoated mesh, offering a strongest and adaptable system for its future implantation in human body. The findings reported offer unprecedented application possibilities in the biomedical field.

Topics & Concepts

Materials sciencePolygon meshPolymerizationComposite materialNanotechnologyComputer sciencePolymerComputer graphics (images)Hydrogels: synthesis, properties, applicationsSurface Modification and SuperhydrophobicityElectrospun Nanofibers in Biomedical Applications
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