There is a consistent need for a suitable natural biomaterial to function as an arterial prosthesis in achieving arterial regeneration. Natural grafts are generally obtained by decellularization of native blood vessels, but batch to batch variations may occur and the nature/content of remaining contaminants is generally unknown. In this study we fabricated a molecularly defined natural arterial graft from scratch resembling the native three layered architecture from the fibrillar extracellular matrix components collagen and elastin. Using casting, moulding, freezing and lyophilization techniques, a triple layered construct was prepared consisting of an inner layer of elastin fibres, a middle (porous) film layer of collagen fibrils and an ou...
Tissue engineering offers the opportunity to develop vascular scaffolds that mimic the morphology of...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, September, 2020Cataloged from...
Porous scaffolds composed of collagen or collagen and elastin were prepared by freeze drying at temp...
Contains fulltext : 88948.pdf (publisher's version ) (Closed access)There is a con...
A persistent clinical demand exists for a suitable arterial prosthesis. In this study, a vascular co...
The purpose of this study was to create seamless, acellular, small diameter bioresorbable arterial g...
Throughout native artery, collagen, and elastin play an important role, providing a mechanical backb...
For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease precl...
Cardiovascular disease is the leading cause of death worldwide, accounting for 29% of all global dea...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Bionic grafts hold great promise for directing tissue regeneration. In vascular tissue engineering, ...
Vascular disease is a leading cause of death worldwide, but surgical options are restricted by the l...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
The process of reconstructing an arterial graft is a complex and dynamic process that is subject to ...
Tissue engineering offers the opportunity to develop vascular scaffolds that mimic the morphology of...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, September, 2020Cataloged from...
Porous scaffolds composed of collagen or collagen and elastin were prepared by freeze drying at temp...
Contains fulltext : 88948.pdf (publisher's version ) (Closed access)There is a con...
A persistent clinical demand exists for a suitable arterial prosthesis. In this study, a vascular co...
The purpose of this study was to create seamless, acellular, small diameter bioresorbable arterial g...
Throughout native artery, collagen, and elastin play an important role, providing a mechanical backb...
For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease precl...
Cardiovascular disease is the leading cause of death worldwide, accounting for 29% of all global dea...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Bionic grafts hold great promise for directing tissue regeneration. In vascular tissue engineering, ...
Vascular disease is a leading cause of death worldwide, but surgical options are restricted by the l...
Throughout native artery, collagen and elastin play an important role, providing a mechanical backbo...
The process of reconstructing an arterial graft is a complex and dynamic process that is subject to ...
Tissue engineering offers the opportunity to develop vascular scaffolds that mimic the morphology of...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, September, 2020Cataloged from...
Porous scaffolds composed of collagen or collagen and elastin were prepared by freeze drying at temp...