[HTML][HTML] Printability–A key issue in extrusion-based bioprinting

S Naghieh, X Chen - Journal of pharmaceutical analysis, 2021 - Elsevier
Abstract Three-dimensional (3D) extrusion-based bioprinting is widely used in tissue
engineering and regenerative medicine to create cell-incorporated constructs or scaffolds …

Poly (N-isopropylacrylamide)-based thermoresponsive surfaces provide new types of biomedical applications

K Nagase, M Yamato, H Kanazawa, T Okano - Biomaterials, 2018 - Elsevier
Thermoresponsive surfaces, prepared by grafting of poly (N-isopropylacrylamide)(PIPAAm)
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 …

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 …

Bioprinting of a mechanically enhanced three-dimensional dual cell-laden construct for osteochondral tissue engineering using a multi-head tissue/organ building …

JH Shim, JS Lee, JY Kim, DW Cho - Journal of Micromechanics …, 2012 - iopscience.iop.org
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 …

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 …

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 …

Reconstruction of functional tissues with cell sheet engineering

J Yang, M Yamato, T Shimizu, H Sekine, K Ohashi… - Biomaterials, 2007 - Elsevier
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 …

Tissue engineering based on cell sheet technology

N Matsuda, T Shimizu, M Yamato… - Advanced Materials, 2007 - Wiley Online Library
Cell sheet technology enables novel approaches to tissue engineering without the use of
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 …