Bone Tissue Engineering with Multilayered Scaffolds—Part II: Combining Vascularization with Bone Formation in Critical-Sized Bone Defect
Our previous in vivo study showed that multilayered scaffolds made of an angiogenic layer
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
Bone Tissue Engineering with Multilayered Scaffolds-Part II: Combining Vascularization with Bone Formation in Critical-Sized Bone Defect.
BN Sathy, BM Watson, LA Kinard, PP Spicer… - … engineering. Part A, 2015 - europepmc.org
Our previous in vivo study showed that multilayered scaffolds made of an angiogenic layer
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
Bone Tissue Engineering with Multilayered Scaffolds--Part II: Combining Vascularization with Bone Formation in Critical-Sized Bone Defect
BN Sathy, BM Watson, LA Kinard… - … Engineering Part A, 2015 - search.proquest.com
Our previous in vivo study showed that multilayered scaffolds made of an angiogenic layer
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
Bone Tissue Engineering with Multilayered Scaffolds-Part II: Combining Vascularization with Bone Formation in Critical-Sized Bone Defect
BN Sathy, BM Watson, LA Kinard… - Tissue …, 2015 - pubmed.ncbi.nlm.nih.gov
Our previous in vivo study showed that multilayered scaffolds made of an angiogenic layer
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
Bone tissue engineering with multilayered scaffolds-Part II: Combining vascularization with bone formation in critical-sized bone defect
BN Sathy, BM Watson, LA Kinard… - … Engineering-Part A, 2015 - profiles.wustl.edu
Our previous in vivo study showed that multilayered scaffolds made of an angiogenic layer
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …
embedded between an osteogenic layer and an osteoconductive layer, with layer thickness …