AbstractRecent developments in the field of tissue engineering have re-invigorated the quest for more suitable biomaterials that are applicable to novel cardiovascular devices, including small-diameter vascular grafts. This review covers both commercially available and relevant newly developed experimental materials, including elastic polymers (polyurethane), the biodegradable and bioresorbable materials, and the naturally occurring materials, focusing on their potential applications in the development of future vascular substitutes. (J Vasc Surg 2003;37:472-80.
For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease precl...
International audienceThis article reviews the present state of small-diameter vascular substitution...
To address the need of alternatives to autologous vessels for small-calibre vascular applications (e...
AbstractRecent developments in the field of tissue engineering have re-invigorated the quest for mor...
The gold standard material in bypass surgery of blood vessels remains the patient’s own artery or ve...
Polyurethanes are an attractive class of material for bioprosthesis development due to the ability t...
In the field of tissue engineering, there is an increased demand for small diameter vascular grafts ...
Cardiovascular-related medical conditions remain a significant cause of death worldwide despite the ...
Current synthetic alternatives to autologous grafts have often failed in small diameter applications...
With the high occurrence of cardiovascular disease and increasing numbers of patients requiring vasc...
Although significant advances have been made in the development of artificial vascular grafts, small...
Although significant advances have been made in the development of artificial vascular grafts, small...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
Polymeric tubular vascular grafts represent a likely alternative to autologous vascular grafts for t...
Bibliography: pages 81-86.Failure of medium to small diameter vascular grafts is believed to be in p...
For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease precl...
International audienceThis article reviews the present state of small-diameter vascular substitution...
To address the need of alternatives to autologous vessels for small-calibre vascular applications (e...
AbstractRecent developments in the field of tissue engineering have re-invigorated the quest for mor...
The gold standard material in bypass surgery of blood vessels remains the patient’s own artery or ve...
Polyurethanes are an attractive class of material for bioprosthesis development due to the ability t...
In the field of tissue engineering, there is an increased demand for small diameter vascular grafts ...
Cardiovascular-related medical conditions remain a significant cause of death worldwide despite the ...
Current synthetic alternatives to autologous grafts have often failed in small diameter applications...
With the high occurrence of cardiovascular disease and increasing numbers of patients requiring vasc...
Although significant advances have been made in the development of artificial vascular grafts, small...
Although significant advances have been made in the development of artificial vascular grafts, small...
Objective: Previous tissue engineering approaches to create small caliber vascular grafts have been ...
Polymeric tubular vascular grafts represent a likely alternative to autologous vascular grafts for t...
Bibliography: pages 81-86.Failure of medium to small diameter vascular grafts is believed to be in p...
For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease precl...
International audienceThis article reviews the present state of small-diameter vascular substitution...
To address the need of alternatives to autologous vessels for small-calibre vascular applications (e...