Pore architecture effects on chondrogenic potential of patient-specific 3-dimensionally printed porous tissue bioscaffolds for auricular tissue engineering
DA Zopf, CL Flanagan, AG Mitsak, JR Brennan… - International journal of …, 2018 - Elsevier
Objective This study aims to determine the effect of auricular scaffold microarchitecture on
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
[HTML][HTML] Pore Architecture Effects on Chondrogenic Potential of Patient-Specific 3-Dimensionally Printed Porous Tissue Bioscaffolds for Auricular Tissue Engineering
DA Zopf, CL Flanagan, AG Mitsak… - … journal of pediatric …, 2018 - ncbi.nlm.nih.gov
Objective: This study aims to determine the effect of auricular scaffold microarchitecture on
chondrogenic potential in an in vivo animal model. Methods: DICOM computed tomography …
chondrogenic potential in an in vivo animal model. Methods: DICOM computed tomography …
Pore architecture effects on chondrogenic potential of patient-specific 3-dimensionally printed porous tissue bioscaffolds for auricular tissue engineering
DA Zopf, CL Flanagan, AG Mitsak… - … journal of pediatric …, 2018 - pubmed.ncbi.nlm.nih.gov
Objective This study aims to determine the effect of auricular scaffold microarchitecture on
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
Pore architecture effects on chondrogenic potential of patient-specific 3-dimensionally printed porous tissue bioscaffolds for auricular tissue engineering.
DA Zopf, CL Flanagan, AG Mitsak… - … Journal of Pediatric …, 2018 - europepmc.org
Objective This study aims to determine the effect of auricular scaffold microarchitecture on
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
chondrogenic potential in an in vivo animal model. Methods DICOM computed tomography …
[引用][C] Pore architecture effects on chondrogenic potential of patient-specific 3-dimensionally printed porous tissue bioscaffolds for auricular tissue engineering
DA Zopf, CL Flanagan, AG Mitsak, JR Brennan… - International Journal of …, 2018 - cir.nii.ac.jp
Pore architecture effects on chondrogenic potential of patient-specific 3-dimensionally printed
porous tissue bioscaffolds for auricular tissue engineering | CiNii Research CiNii 国立情報学 …
porous tissue bioscaffolds for auricular tissue engineering | CiNii Research CiNii 国立情報学 …