The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with exogenous FGF9 protein on chondrogenesis and ossification in engineered …
Dental pulp stem cells (DPSCs), which arise from cranial neural crest cells, are multipotent,
making them a candidate for use in tissue engineering that may be especially useful for …
making them a candidate for use in tissue engineering that may be especially useful for …
The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with exogenous FGF9 protein on chondrogenesis and ossification in engineered …
J Dai, J Wang, J Lu, D Zou, H Sun, Y Dong, H Yu… - Biomaterials, 2012 - europepmc.org
Dental pulp stem cells (DPSCs), which arise from cranial neural crest cells, are multipotent,
making them a candidate for use in tissue engineering that may be especially useful for …
making them a candidate for use in tissue engineering that may be especially useful for …
[引用][C] The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with exogenous FGF9 protein on chondrogenesis and ossification in …
J Dai, J Wang, J Lu, D Zou, H Sun, Y Dong, H Yu… - Biomaterials, 2012 - cir.nii.ac.jp
The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with
exogenous FGF9 protein on chondrogenesis and ossification in engineered cartilage | CiNii …
exogenous FGF9 protein on chondrogenesis and ossification in engineered cartilage | CiNii …
The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with exogenous FGF9 protein on chondrogenesis and ossification in engineered …
J Dai, J Wang, J Lu, D Zou, H Sun, Y Dong… - …, 2012 - pubmed.ncbi.nlm.nih.gov
Dental pulp stem cells (DPSCs), which arise from cranial neural crest cells, are multipotent,
making them a candidate for use in tissue engineering that may be especially useful for …
making them a candidate for use in tissue engineering that may be especially useful for …
The effect of co-culturing costal chondrocytes and dental pulp stem cells combined with exogenous FGF9 protein on chondrogenesis and ossification in engineered …
J Dai, J Wang, J Lu, D Zou, H Sun, Y Dong, H Yu… - Biomaterials, 2012 - infona.pl
Dental pulp stem cells (DPSCs), which arise from cranial neural crest cells, are multipotent,
making them a candidate for use in tissue engineering that may be especially useful for …
making them a candidate for use in tissue engineering that may be especially useful for …