Journal ArticleDOI
Organ printing: computer-aided jet-based 3D tissue engineering
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TLDR
Combination of an engineering approach with the developmental biology concept of embryonic tissue fluidity enables the creation of a new rapid prototyping 3D organ printing technology, which will dramatically accelerate and optimize tissue and organ assembly.About:
This article is published in Trends in Biotechnology.The article was published on 2003-04-01. It has received 1213 citations till now.read more
Citations
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Journal ArticleDOI
Exploring and engineering the cell surface interface.
TL;DR: Current approaches to control cell behavior through the nanoscale engineering of materials surfaces are reviewed and implications are emerging for applications including medical implants, cell supports, and materials that can be used as instructive three-dimensional environments for tissue regeneration.
Journal ArticleDOI
Hydrogels in regenerative medicine
Brandon V. Slaughter,Shahana S. Khurshid,Omar Z. Fisher,Ali Khademhosseini,Nicholas A. Peppas +4 more
TL;DR: The properties of hydrogels that are important for tissue engineering applications and the inherent material design constraints and challenges are discussed.
Journal ArticleDOI
Polymers for 3D Printing and Customized Additive Manufacturing
TL;DR: Polymers are by far the most utilized class of materials for AM and their design, additives, and processing parameters as they relate to enhancing build speed and improving accuracy, functionality, surface finish, stability, mechanical properties, and porosity are addressed.
Journal ArticleDOI
A 3D bioprinting system to produce human-scale tissue constructs with structural integrity
TL;DR: An integrated tissue–organ printer (ITOP) that can fabricate stable, human-scale tissue constructs of any shape is presented and the incorporation of microchannels into the tissue constructs facilitates diffusion of nutrients to printed cells, thereby overcoming the diffusion limit of 100–200 μm for cell survival in engineered tissues.
Journal ArticleDOI
3D Bioprinting of Vascularized, Heterogeneous Cell‐Laden Tissue Constructs
David B. Kolesky,Ryan L. Truby,A. Sydney Gladman,Travis Alexander Busbee,Kimberly A. Homan,Jennifer A. Lewis +5 more
TL;DR: A new bioprinting method is reported for fabricating 3D tissue constructs replete with vasculature, multiple types of cells, and extracellular matrix that open new -avenues for drug screening and fundamental studies of wound healing, angiogenesis, and stem-cell niches.
References
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Journal ArticleDOI
Tumor Angiogenesis: Therapeutic Implications
TL;DR: This new capillary growth is even more vigorous and continuous than a similar outgrowth of capillary sprouts observed in 2016 and is likely to be accompanied by neovascularization.
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Self-assembly at all scales.
TL;DR: Self-assembling processes are common throughout nature and technology and involve components from the molecular to the planetary scale and many different kinds of interactions.
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Recent developments in dea : the mathematical programming approach to frontier analysis
TL;DR: In this paper, the authors discuss the mathematical programming approach to frontier estimation known as Data Envelopment Analysis (DEA) and examine the effect of model orientation on the efficient frontier.
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Fused deposition modeling of novel scaffold architectures for tissue engineering applications.
TL;DR: Analysis of the measured data shows a high correlation between the scaffold porosity and the compressive properties based on a power-law relationship.
Book
Principles of tissue engineering
TL;DR: The history and Scope of Tissue Engineering, J.P. Vavanti and C.A. Vacanti, and Quantitative Aspects of Tissues Engineering: Basic Issues in Kinetics, Transport, and Mechanics are reviewed.