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Implantable and Degradable Thermoplastic Elastomer

Allison Siehr, Craig M. Flory, Trenton Callaway, Robert J. Schumacher, Ronald A. Siegel, Wei Shen

2021ACS Biomaterials Science & Engineering17 citationsDOI

Abstract

-poly(lactide) (PLA-PβMδVL-PLA), a thermoplastic triblock poly(α-ester), has combined favorable properties of elasticity, biodegradability, and biocompatibility. This material exhibits excellent elastomeric properties in both dry and aqueous environments. The elongation at break is approximately 1000%, and stretched specimens completely recover to their original shape after force is removed. The material is degradable both in vitro and in vivo; it degrades more slowly than poly(glycerol sebacate) and more rapidly than poly(caprolactone) in vivo. Both the polymer and its degradation product show high cytocompatibility in vitro. The histopathological analysis of PLA-PβMδVL-PLA specimens implanted in the gluteal muscle of rats for 1, 4, and 8 weeks revealed similar tissue responses as compared with poly(glycerol sebacate) and poly(caprolactone) controls, two widely accepted implantable polymers, suggesting that PLA-PβMδVL-PLA can potentially be used as an implantable material with favorable in vivo biocompatibility. The thermoplastic nature allows this elastomer to be readily processed, as demonstrated by the facile fabrication of the substrates with topographical cues to enhance muscle cell alignment. These properties collectively make this polymer potentially highly valuable for applications such as medical devices and tissue engineering scaffolds.

Topics & Concepts

BiocompatibilityMaterials scienceElastomerThermoplastic elastomerPolymerBiomaterialPolyesterThermoplasticBiodegradationCaprolactoneBiodegradable polymerIn vivoComposite materialBiomedical engineeringCopolymerNanotechnologyChemistryOrganic chemistryBiologyBiotechnologyMetallurgyMedicinebiodegradable polymer synthesis and propertiesBone Tissue Engineering MaterialsElectrospun Nanofibers in Biomedical Applications
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