Programming cellular alignment in engineered cardiac tissue via bioprinting anisotropic organ building blocks
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks.
JH Ahrens, SGM Uzel, M Skylar-Scott… - … (Deerfield Beach, Fla …, 2022 - europepmc.org
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel… - Advanced …, 2022 - pubmed.ncbi.nlm.nih.gov
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
[PDF][PDF] Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel, M Skylar-Scott… - Adv …, 2022 - lewisgroup.seas.harvard.edu
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
[PDF][PDF] Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel, M Skylar-Scott, MM Mata… - Adv …, 2022 - scholar.harvard.edu
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel, M Skylar-Scott… - Advanced …, 2022 - ui.adsabs.harvard.edu
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
[PDF][PDF] Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel, M Skylar-Scott, MM Mata… - Adv …, 2022 - scholar.harvard.edu
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
[PDF][PDF] Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks
JH Ahrens, SGM Uzel, M Skylar-Scott… - Adv …, 2022 - lewisgroup.seas.harvard.edu
The ability to replicate the 3D myocardial architecture found in human hearts is a grand
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …
challenge. Here, the fabrication of aligned cardiac tissues via bioprinting anisotropic organ …