Throughout native artery, collagen and elastin play an important role, providing a mechanical backbone, preventing vessel rupture, and promoting recovery under pulsatile deformations. The goal of this study was to mimic the structure of native artery by fabricating a multi-layered electrospun conduit composed of poly(caprolactone) (PCL) with the addition of elastin and collagen with blends of 45-45-10, 55-35-10, and 65-25-10 PCL-ELAS-COL to demonstrate mechanical properties indicative of native arterial tissue, while remaining conducive to tissue regeneration. Whole grafts and individual layers were analyzed using uniaxial tensile testing, dynamic compliance, suture retention, and burst strength. Compliance results revealed that changes to ...
The process of reconstructing an arterial graft is a complex and dynamic process that is subject to ...
Cardiovascular diseases, including coronary artery and peripheral vascular pathologies, are leading ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
Throughout native artery, collagen, and elastin play an important role, providing a mechanical backb...
The purpose of this study was to create seamless, acellular, small diameter bioresorbable arterial g...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Contains fulltext : 88948.pdf (publisher's version ) (Closed access)There is a con...
Bionic grafts hold great promise for directing tissue regeneration. In vascular tissue engineering, ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Cardiovascular disease is the leading cause of death in the United States with many patients requiri...
For blood vessel tissue engineering, an ideal vascular graft should possess excellent biocompatibili...
The development of vascular grafts requires the matching of material and viscoelastic properties to ...
There is a pressing need to develop vascular graft since no clinically available appropriate prosthe...
The process of reconstructing an arterial graft is a complex and dynamic process that is subject to ...
Cardiovascular diseases, including coronary artery and peripheral vascular pathologies, are leading ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
Throughout native artery, collagen, and elastin play an important role, providing a mechanical backb...
The purpose of this study was to create seamless, acellular, small diameter bioresorbable arterial g...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Contains fulltext : 88948.pdf (publisher's version ) (Closed access)There is a con...
Bionic grafts hold great promise for directing tissue regeneration. In vascular tissue engineering, ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Cardiovascular disease is the leading cause of death in the United States with many patients requiri...
For blood vessel tissue engineering, an ideal vascular graft should possess excellent biocompatibili...
The development of vascular grafts requires the matching of material and viscoelastic properties to ...
There is a pressing need to develop vascular graft since no clinically available appropriate prosthe...
The process of reconstructing an arterial graft is a complex and dynamic process that is subject to ...
Cardiovascular diseases, including coronary artery and peripheral vascular pathologies, are leading ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...