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Analysis of Vascular Inflammation against Bioresorbable Zn–Ag-Based Alloys

Alexander A Oliver, Roger J. Guillory, Katie L. Flom, Lea M. Morath, Timothy M. Kolesar, Ehsan Mostaed, Małgorzata Sikora-Jasinska, Jarosław Drelich, Jeremy Goldman

2020ACS Applied Bio Materials46 citationsDOIOpen Access PDF

Abstract

Zinc (Zn) has emerged as a promising bioresorbable stent material due to its satisfactory corrosion behavior and excellent biocompatibility. However, for load bearing implant applications, alloying is required to boost its mechanical properties as pure Zn exhibits poor strength. Unfortunately, an increase in inflammation relative to pure Zn is a commonly observed side-effect of Zn alloys. Consequently, the development of a Zn-based alloy that can simultaneously feature improved mechanical properties and suppress inflammatory responses is a big challenge. Here, a bioresorbable, biocompatible Zn-Ag-based quinary alloy was comprehensively evaluated in vivo, in comparison to reference materials. The inflammatory and smooth muscle cellular response was characterized and correlated to metrics of neointimal growth. We found that implantation of the quinary alloy was associated with significantly improved inflammatory activities relative to the reference materials. Additionally, we found that inflammation, but not smooth muscle cell hyperplasia, significantly correlates to neointimal growth for Zn alloys. The results suggest that inflammation is the main driver of neointimal growth for Zn-based alloys and that the quinary Zn-Ag-Mn-Zr-Cu alloy may impart inflammation-resistance properties to arterial implants.

Topics & Concepts

QuinaryMaterials scienceAlloyInflammationBiomedical engineeringBiocompatibilityZincIn vivoNeointimaNeointimal hyperplasiaMetallurgyShape-memory alloyStentMedicineInternal medicineRestenosisBiologyBiotechnologyMagnesium Alloys: Properties and ApplicationsCorrosion Behavior and InhibitionOrthopaedic implants and arthroplasty
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