Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass or replacement of small-diameter arteries remain a concern in the surgical community. These limitations could potentially be improved by a tissue engineering approach. We report here our progress in the development and in vivo testing of a stem-cell-based tissue-engineered vascular graft for arterial applications. Poly(ester urethane)urea scaffolds (length = 10 mm; inner diameter = 1.2 mm) were created by thermally induced phase separation (TIPS). Compound scaffolds were generated by reinforcing TIPS scaffolds with an outer electrospun layer of the same biomaterial (ES-TIPS). Both TIPS and ES-TIPS scaffolds were bulk-seeded with 10 x 10(6) a...
Vascular bypass grafting is a commonly performed procedure for ischemic heart disease and peripheral...
is an approach by which cells are grown in vitro onto biodegradable polymers to construct tissues fo...
Purpose: Investigate vascular neotissue formation in vivo within human tissue-engineered arterial gr...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
There is a clinical need for a tissue-engineered vascular graft (TEVG), and combining stem cells wit...
A tissue-engineered small-diameter arterial graft would be of benefit to patients requiring vascular...
Nondegradable synthetic polymer vascular grafts currently used in cardiovascular surgery have no gro...
Nondegradable synthetic polymer vascular grafts currently used in cardiovascular surgery have no gro...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
Abstract—Although the need for a functional arterial replacement is clear, the lower blood flow velo...
There is a continuous search for the ideal bioresorbable material to develop scaffolds for in situ v...
Electrospinning is a commonly proposed method for generating polymeric scaffolds for use in tissue a...
ObjectiveVarious tissue-engineered vascular grafts have been studied to overcome the clinical disadv...
The success of small-diameter tissue engineered vascular grafts (TEVGs) greatly relies on an appropr...
Vascular bypass grafting is a commonly performed procedure for ischemic heart disease and peripheral...
is an approach by which cells are grown in vitro onto biodegradable polymers to construct tissues fo...
Purpose: Investigate vascular neotissue formation in vivo within human tissue-engineered arterial gr...
Limited autologous vascular graft availability and poor patency rates of synthetic grafts for bypass...
BackgroundArterial bypass graft implantation remains the primary therapy for patients with advanced ...
There is a clinical need for a tissue-engineered vascular graft (TEVG), and combining stem cells wit...
A tissue-engineered small-diameter arterial graft would be of benefit to patients requiring vascular...
Nondegradable synthetic polymer vascular grafts currently used in cardiovascular surgery have no gro...
Nondegradable synthetic polymer vascular grafts currently used in cardiovascular surgery have no gro...
Tissue engineering has emerged as a promising approach to viable small-diameter vascular grafts that...
Abstract—Although the need for a functional arterial replacement is clear, the lower blood flow velo...
There is a continuous search for the ideal bioresorbable material to develop scaffolds for in situ v...
Electrospinning is a commonly proposed method for generating polymeric scaffolds for use in tissue a...
ObjectiveVarious tissue-engineered vascular grafts have been studied to overcome the clinical disadv...
The success of small-diameter tissue engineered vascular grafts (TEVGs) greatly relies on an appropr...
Vascular bypass grafting is a commonly performed procedure for ischemic heart disease and peripheral...
is an approach by which cells are grown in vitro onto biodegradable polymers to construct tissues fo...
Purpose: Investigate vascular neotissue formation in vivo within human tissue-engineered arterial gr...