3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts
C McBeth, J Lauer, M Ottersbach, J Campbell… - …, 2017 - iopscience.iop.org
Due to its relatively low level of antigenicity and high durability, titanium has successfully
been used as the major material for biological implants. However, because the typical …
been used as the major material for biological implants. However, because the typical …
3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts.
C McBeth, J Lauer, M Ottersbach, J Campbell… - Biofabrication, 2017 - europepmc.org
Due to its relatively low level of antigenicity and high durability, titanium has successfully
been used as the major material for biological implants. However, because the typical …
been used as the major material for biological implants. However, because the typical …
3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts
C McBeth, J Lauer, M Ottersbach… - …, 2017 - pubmed.ncbi.nlm.nih.gov
Due to its relatively low level of antigenicity and high durability, titanium has successfully
been used as the major material for biological implants. However, because the typical …
been used as the major material for biological implants. However, because the typical …
3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts
C McBeth, J Lauer, M Ottersbach, J Campbell… - …, 2017 - ui.adsabs.harvard.edu
Due to its relatively low level of antigenicity and high durability, titanium has successfully
been used as the major material for biological implants. However, because the typical …
been used as the major material for biological implants. However, because the typical …
3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts
C McBeth, J Lauer, M Ottersbach, J Campbell… - 2017 - publica.fraunhofer.de
Due to its relatively low level of antigenicity and high durability, titanium has successfully
been used as the major material for biological implants. However, because the typical …
been used as the major material for biological implants. However, because the typical …
[引用][C] 3D bioprinting of GelMA scaffolds triggers mineral deposition by primary human osteoblasts
C McBeth, J Lauer, M Ottersbach, J Campbell… - Biofabrication, 2017 - cir.nii.ac.jp