Researchers at Virginia Commonwealth University, USA developed a novel biocomposite that has potential use for vascular grafts in patients undergoing coronary artery graft surgery. The purpose of the material is to help a patient regenerate a new artery. If it works as designed, the researchers hope that at six months post-surgery, there would be no more synthetic structure left
Over the years there has been considerable effort to develop biomedical textiles for applications ra...
Tissue engineering aims to understand the naturally-occurring, complexly efficient biological system...
The development of vascular grafts requires the matching of material and viscoelastic properties to ...
Virginia Commonwealth University (VCU), USA offers a biocomposite material which has a potential as ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Vascular disease is a leading cause of death worldwide, but surgical options are restricted by the l...
The process of electrospinning has seen a resurgence of interest in the last few decades which has l...
The clinical demand for a superior vascular graft is rising due to the increase in cardiovascular di...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Seamless, non-woven, bioresorbable vascular prosthetics composed of sub-micron fibers have been succ...
AbstractRecent developments in the field of tissue engineering have re-invigorated the quest for mor...
Over the years there has been considerable effort to develop biomedical textiles for applications ra...
Tissue engineering aims to understand the naturally-occurring, complexly efficient biological system...
The development of vascular grafts requires the matching of material and viscoelastic properties to ...
Virginia Commonwealth University (VCU), USA offers a biocomposite material which has a potential as ...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
An electrospun cardiovascular graft composed of polydioxanone (PDO) and elastin has been designed an...
Vascular disease is a leading cause of death worldwide, but surgical options are restricted by the l...
The process of electrospinning has seen a resurgence of interest in the last few decades which has l...
The clinical demand for a superior vascular graft is rising due to the increase in cardiovascular di...
Significant challenges must be overcome before the true benefit and economic impact of vascular tiss...
Seamless, non-woven, bioresorbable vascular prosthetics composed of sub-micron fibers have been succ...
AbstractRecent developments in the field of tissue engineering have re-invigorated the quest for mor...
Over the years there has been considerable effort to develop biomedical textiles for applications ra...
Tissue engineering aims to understand the naturally-occurring, complexly efficient biological system...
The development of vascular grafts requires the matching of material and viscoelastic properties to ...