Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong, JU Menon… - Acta …, 2014 - pubmed.ncbi.nlm.nih.gov
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong… - Acta …, 2014 - mdanderson.elsevierpure.com
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong, JU Menon, KT Nguyen… - Acta Biomaterialia, 2014 - infona.pl
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong… - Acta …, 2014 - mahidol.elsevierpure.com
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
[PDF][PDF] Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong, JU Menon… - Acta Biomater. Author …, 2015 - researchgate.net
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts.
P Punnakitikashem, D Truong, JU Menon… - Acta …, 2014 - europepmc.org
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
[HTML][HTML] Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts
P Punnakitikashem, D Truong, JU Menon… - Acta …, 2014 - ncbi.nlm.nih.gov
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
Electrospun biodegradable elastic polyurethane scaffolds with dipyridamole release for small diameter vascular grafts.
P Punnakitikashem, D Truong, JU Menon… - Acta …, 2014 - europepmc.org
Acellular biodegradable small diameter vascular grafts (SDVGs) require antithrombosis,
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …
intimal hyperplasia inhibition and rapid endothelialization to improve the graft patency …