[HTML][HTML] Printability–A key issue in extrusion-based bioprinting
Abstract Three-dimensional (3D) extrusion-based bioprinting is widely used in tissue
engineering and regenerative medicine to create cell-incorporated constructs or scaffolds …
engineering and regenerative medicine to create cell-incorporated constructs or scaffolds …
Poly (N-isopropylacrylamide)-based thermoresponsive surfaces provide new types of biomedical applications
Thermoresponsive surfaces, prepared by grafting of poly (N-isopropylacrylamide)(PIPAAm)
or its copolymers, have been investigated for biomedical applications. Thermoresponsive …
or its copolymers, have been investigated for biomedical applications. Thermoresponsive …
Cardiac tissue engineering: state of the art
MN Hirt, A Hansen, T Eschenhagen - Circulation research, 2014 - Am Heart Assoc
The engineering of 3-dimensional (3D) heart muscles has undergone exciting progress for
the past decade. Profound advances in human stem cell biology and technology, tissue …
the past decade. Profound advances in human stem cell biology and technology, tissue …
Vascularization strategies for tissue engineering
M Lovett, K Lee, A Edwards… - Tissue Engineering Part B …, 2009 - liebertpub.com
Tissue engineering is currently limited by the inability to adequately vascularize tissues in
vitro or in vivo. Issues of nutrient perfusion and mass transport limitations, especially oxygen …
vitro or in vivo. Issues of nutrient perfusion and mass transport limitations, especially oxygen …
Bioprinting of a mechanically enhanced three-dimensional dual cell-laden construct for osteochondral tissue engineering using a multi-head tissue/organ building …
The aim of this study was to build a mechanically enhanced three-dimensional (3D)
bioprinted construct containing two different cell types for osteochondral tissue regeneration …
bioprinted construct containing two different cell types for osteochondral tissue regeneration …
Bioprinting vessel-like constructs using hyaluronan hydrogels crosslinked with tetrahedral polyethylene glycol tetracrylates
A Skardal, J Zhang, GD Prestwich - Biomaterials, 2010 - Elsevier
Bioprinting enables deposition of cells and biomaterials into spatial orientations and
complexities that mirror physiologically relevant geometries. To facilitate the development of …
complexities that mirror physiologically relevant geometries. To facilitate the development of …
Biomaterials for vascular tissue engineering
S Ravi, EL Chaikof - Regenerative medicine, 2010 - Taylor & Francis
Cardiovascular disease is the leading cause of mortality in the USA. The limited availability
of healthy autologous vessels for bypass grafting procedures has led to the fabrication of …
of healthy autologous vessels for bypass grafting procedures has led to the fabrication of …
Reconstruction of functional tissues with cell sheet engineering
The field of tissue engineering has yielded several successes in early clinical trials of
regenerative medicine using living cells seeded into biodegradable scaffolds. In contrast to …
regenerative medicine using living cells seeded into biodegradable scaffolds. In contrast to …
Tissue engineering based on cell sheet technology
Cell sheet technology enables novel approaches to tissue engineering without the use of
biodegradable scaffolds. Cell sheet technology consists of a temperature‐responsive culture …
biodegradable scaffolds. Cell sheet technology consists of a temperature‐responsive culture …
Fabrication of scaffold-free tubular cardiac constructs using a Bio-3D printer
K Arai, D Murata, AR Verissimo, Y Mukae, M Itoh… - PloS one, 2018 - journals.plos.org
A major challenge in cardiac tissue engineering is the host's immune response to artificial
materials. To overcome this problem, we established a scaffold-free system for assembling …
materials. To overcome this problem, we established a scaffold-free system for assembling …