Inflammation is a natural phase of the wound healing response, which can be harnessed for the in situ tissue engineering of small-diameter blood vessels using instructive, bioresorbable synthetic grafts. This process is dependent on colonization of the graft by host circulating cells and subsequent matrix formation. Typically, vascular regeneration in small animals is governed by transanastomotic cell ingrowth. However, this process is very rare in humans and hence less relevant for clinical translation. Therefore, a novel rat model was developed, in which cell ingrowth from the adjacent tissue is inhibited using Gore-Tex sheathing. Using this model, our aim here was to prove that functional blood vessels can be formed in situ through the h...
Cardiovascular disease is the largest cause of mortality in the world with coronary artery disease (...
Severely occluded coronary- and peripheral arteries, caused by atherosclerotic plaques, are treated ...
The objective of the study was to describe a novel small-animal model of tissue-engineered aortic va...
Inflammation is a natural phase of the wound healing response, which can be harnessed for the in sit...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
In this thesis, the feasibility of in situ TE for vascular and valvular purposes were tested with th...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
ObjectiveVarious types of natural and synthetic scaffolds with arterial tissue cells or differentiat...
A tissue-engineered small-diameter arterial graft would be of benefit to patients requiring vascular...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
There is a clinical need for tissue-engineered small-diameter (<6 mm) vascular grafts since clinical...
Modular tissue engineering is a novel microscale approach that aims to assemble tissue constructs wi...
Copyright © 2014 Luigi Dall’Olmo et al.This is an open access article distributed under theCreative ...
In situ vascular tissue engineering aims to regenerate vessels “at the target site” using synthetic ...
The peritoneum has the same developmental origin as blood vessels, is highly reactive and poorly thr...
Cardiovascular disease is the largest cause of mortality in the world with coronary artery disease (...
Severely occluded coronary- and peripheral arteries, caused by atherosclerotic plaques, are treated ...
The objective of the study was to describe a novel small-animal model of tissue-engineered aortic va...
Inflammation is a natural phase of the wound healing response, which can be harnessed for the in sit...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
In this thesis, the feasibility of in situ TE for vascular and valvular purposes were tested with th...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
ObjectiveVarious types of natural and synthetic scaffolds with arterial tissue cells or differentiat...
A tissue-engineered small-diameter arterial graft would be of benefit to patients requiring vascular...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
There is a clinical need for tissue-engineered small-diameter (<6 mm) vascular grafts since clinical...
Modular tissue engineering is a novel microscale approach that aims to assemble tissue constructs wi...
Copyright © 2014 Luigi Dall’Olmo et al.This is an open access article distributed under theCreative ...
In situ vascular tissue engineering aims to regenerate vessels “at the target site” using synthetic ...
The peritoneum has the same developmental origin as blood vessels, is highly reactive and poorly thr...
Cardiovascular disease is the largest cause of mortality in the world with coronary artery disease (...
Severely occluded coronary- and peripheral arteries, caused by atherosclerotic plaques, are treated ...
The objective of the study was to describe a novel small-animal model of tissue-engineered aortic va...