2015
DOI: 10.1002/jbm.b.33410
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Feasibility of a nanomaterial‐tissue patch for vascular and cardiac reconstruction

Abstract: Vascular and cardiac reconstruction involves the use of biological patches to treat trauma and defects. An in vivo study was performed to determine the remodeling and biologic effects of novel nanostructured vascular patches with and without gold nanoparticles. Porcine vascular tissue was decellularized and conjugated with gold nanoparticles to evaluate if integration would occur while avoiding rupture and stenosis. Swine underwent a bilateral patch angioplasty of the carotid arteries with experimental patches… Show more

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Cited by 16 publications
(12 citation statements)
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“…Autogenous veins and xenogeneic and synthetic materials are used as vascular patch materials [50]. As a synthetic patch material, PTFE demonstrated acceptable suture strength and mechanical strength through its ability to resist blood pressure increase [51]. However, it carries the risk of inducing a foreign-body response that leads to chronic inflammation and thrombus formation [52].…”
Section: Discussionmentioning
confidence: 99%
“…Autogenous veins and xenogeneic and synthetic materials are used as vascular patch materials [50]. As a synthetic patch material, PTFE demonstrated acceptable suture strength and mechanical strength through its ability to resist blood pressure increase [51]. However, it carries the risk of inducing a foreign-body response that leads to chronic inflammation and thrombus formation [52].…”
Section: Discussionmentioning
confidence: 99%
“…There are multiple practical approaches for incorporating different NPs into decellularized matrices; these include immersion, multiple injections, and electron beam-physical vapor deposition. 5,37,38…”
Section: Mechanisms Of Np Binding To Decellularized Matricesmentioning
confidence: 99%
“…In another application, decellularized vascular tissue was conjugated with gold nanoparticles and used in patch angioplasty of the carotid artery in mice. The vascular patch with gold nanoparticles showed increased endothelial regeneration and a normal healing response with excellent tissue integration (Ostdiek et al, 2016 ). Both 3D printing and nanoparticle technology have shown promise in the regenerative field but like other biomaterial approaches, they require more research and optimization before they can be clinically employed.…”
Section: Future Directionsmentioning
confidence: 99%