Melt Electrowriting Below the Critical Translation Speed to Fabricate Crimped Elastomer Scaffolds with Non-linear Extension Behaviour Mimicking That of Ligaments and Tendons

Overview

Journal Acta Biomater

Publisher Elsevier

Specialty Biomedical Engineering

Date 2018 Mar 21

PMID 29555458

Citations 25

Authors

Gernot Hochleitner

Fei Chen

Carina Blum

Paul D Dalton

Brian Amsden

Jurgen Groll

Affiliations

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Abstract

Statement Of Significance: Damaged tendons and ligaments are serious and frequently occurring injuries worldwide. Recent therapies, including autologous grafts, still have severe disadvantages leading to a demand for synthetic alternatives. Materials envisioned to induce tendon and ligament regeneration should be degradable, cytocompatible and mimic the ultrastructural and mechanical properties of the native tissue. Specifically, we utilised photo-cross-linkable polymers for additive manufacturing (AM) with MEW. In this way, we were able to direct-write cytocompatible fibres of a few micrometres thickness into crimp-structured elastomer scaffolds that mimic the non-linear biomechanical behaviour of tendon and ligament tissue.

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