Add to ORKGCopyright © 2015 Kai Wang et al.This is an open access article distributed under theCreativeCommonsAttribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Creating a long-lasting and functional vasculature represents one of the most fundamental challenges in tissue engineering. VEGF has been widely accepted as a potent angiogenic factor involved in the early stages of blood vessel formation. In this study, fibrous scaffolds that consist of PCL and gelatin fibers were fabricated. The gelatin fibers were further functionalized by heparin immobilization, which provides binding sites for VEGF and thus enables the sustained release of VEGF. In vitro release ...
In this study, novel fibrous matrices were developed as a depot to store and liberate growth factors...
Each year as cardiovascular disease continues to be one of the leading causes of death world wide, n...
Cell therapies are emerging as a new therapeutic frontier for the treatment of ischemic disease. How...
Creating a long-lasting and functional vasculature represents one of the most fundamental challenges...
Contains fulltext : 51608schalkwijk.pdf (publisher's version ) (Closed access)An i...
The study described here has made considerable progress in developing techniques and optimizing mate...
The tissue engineering field and regenerative medicine has emerged as a promising strategy to overco...
Timely vascularization is essential for optimal performance of bone regenerative constructs. Vascula...
Successful engineering of complex organs requires improved methods to promote rapid and stable vascu...
Clinical applications of tissue engineering are constrained by the ability of the implanted construc...
Successful therapeutic strategies for wound healing rely on proper vascularization while inhibiting ...
A reliable and cost-effective scaffold for tissue-engineered vascular graft that would not only supp...
The development of novel three-dimensional cell culture platforms for the culture of aortic valvular...
The objective of this study is to evaluate the angiogenic effects induced by biodegradable gelatin h...
The success of any tissue engineering implant relies upon prompt vascularization of the cellular con...
In this study, novel fibrous matrices were developed as a depot to store and liberate growth factors...
Each year as cardiovascular disease continues to be one of the leading causes of death world wide, n...
Cell therapies are emerging as a new therapeutic frontier for the treatment of ischemic disease. How...
Creating a long-lasting and functional vasculature represents one of the most fundamental challenges...
Contains fulltext : 51608schalkwijk.pdf (publisher's version ) (Closed access)An i...
The study described here has made considerable progress in developing techniques and optimizing mate...
The tissue engineering field and regenerative medicine has emerged as a promising strategy to overco...
Timely vascularization is essential for optimal performance of bone regenerative constructs. Vascula...
Successful engineering of complex organs requires improved methods to promote rapid and stable vascu...
Clinical applications of tissue engineering are constrained by the ability of the implanted construc...
Successful therapeutic strategies for wound healing rely on proper vascularization while inhibiting ...
A reliable and cost-effective scaffold for tissue-engineered vascular graft that would not only supp...
The development of novel three-dimensional cell culture platforms for the culture of aortic valvular...
The objective of this study is to evaluate the angiogenic effects induced by biodegradable gelatin h...
The success of any tissue engineering implant relies upon prompt vascularization of the cellular con...
In this study, novel fibrous matrices were developed as a depot to store and liberate growth factors...
Each year as cardiovascular disease continues to be one of the leading causes of death world wide, n...
Cell therapies are emerging as a new therapeutic frontier for the treatment of ischemic disease. How...