| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2978620 | The Journal of Thoracic and Cardiovascular Surgery | 2016 | 14 Pages |
Abstract
Biological valve conduits can enlarge via passive dilatation without matrix synthesis, but this would result in decreased cusp coaptational areas. Bioengineered valves demonstrated similar annulus enlargement as cryopreserved valves but usually retained larger areas of cuspal coaptation. Heat-shock protein 47-positive (collagen-synthesizing) cells were present in previously acellular bioengineered sinus walls and cusp bases, but rarely in more distal cusp matrices.
Keywords
PCNAα-SMACardiac valve prosthesisAllograftsEOAvWFVECVICTEEECMRVOTBSAH&Ealpha smooth muscle actinProliferating Cell Nuclear AntigenTransesophageal echocardiographypulmonary valvecardiac valvesbody surface areaValve interstitial cellPulmonary arteryVon Willebrand factorExtracellular matrixRight ventricular outflow tractTissue engineeringBioengineeringeffective orifice areaHematoxylin and Eosin
Related Topics
Health Sciences
Medicine and Dentistry
Cardiology and Cardiovascular Medicine
Authors
Rachael W. PhD, Arthur A. MD, Gabriel L. PhD, Eric E. MS (BME), Stephen L. PhD, MD, William B. MD, MS, Richard A. MD,