Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets. - Test2 - elhamkhani - TriplyDB

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

http://www.wikidata.org/entity/Q30477397

about

Creating living cellular machines Solid organ fabrication: comparison of decellularization to 3D bioprinting Living bacterial sacrificial porogens to engineer decellularized porous scaffolds A synergistic approach to the design, fabrication and evaluation of 3D printed micro and nano featured scaffolds for vascularized bone tissue repair Multiscale assembly for tissue engineering and regenerative medicine Highlights from the latest articles in advanced biomanufacturing at micro- and nano-scale.Engineering anisotropic biomimetic fibrocartilage microenvironment by bioprinting mesenchymal stem cells in nanoliter gel droplets Nanostructured substrates for isolation of circulating tumor cells.Bioprinting for stem cell research.Manipulating biological agents and cells in micro-scale volumes for applications in medicine.Simple precision creation of digitally specified, spatially heterogeneous, engineered tissue architectures Prediction and control of number of cells in microdroplets by stochastic modeling.Release of magnetic nanoparticles from cell-encapsulating biodegradable nanobiomaterials Lensless imaging for simultaneous microfluidic sperm monitoring and sorting.A three-dimensional in vitro ovarian cancer coculture model using a high-throughput cell patterning platform Emerging technologies for assembly of microscale hydrogels.Techniques for fabrication and construction of three-dimensional scaffolds for tissue engineering.Three-dimensional magnetic assembly of microscale hydrogels.The assembly of cell-encapsulating microscale hydrogels using acoustic waves.Microengineering methods for cell-based microarrays and high-throughput drug-screening applications Automated and adaptable quantification of cellular alignment from microscopic images for tissue engineering applications.Nanoliter droplet vitrification for oocyte cryopreservation Study of microscale hydraulic jump phenomenon for hydrodynamic trap-and-release of microparticles.Statistical modeling of single target cell encapsulation.Impact of a compound droplet on a flat surface: A model for single cell epitaxy.Embryonic stem cell bioprinting for uniform and controlled size embryoid body formation Engineering hydrogels as extracellular matrix mimics Direct-write bioprinting of cell-laden methacrylated gelatin hydrogels.Manipulating the microvasculature and its microenvironment.In-lab three-dimensional printing: an inexpensive tool for experimentation and visualization for the field of organogenesis.Three-dimensional bioprinting in tissue engineering and regenerative medicine.A developmentally inspired combined mechanical and biochemical signaling approach on zonal lineage commitment of mesenchymal stem cells in articular cartilage regeneration Three-dimensional printing of nanomaterial scaffolds for complex tissue regeneration.Biomaterials for integration with 3-D bioprinting.Recent advances in 3D printing of biomaterials.Optimizing cell viability in droplet-based cell deposition Stem cell bioprinting for applications in regenerative medicine.Analysis of multiple types of human cells subsequent to bioprinting with electrospraying technology Fiber-based tissue engineering: Progress, challenges, and opportunities Strategies for directing the structure and function of three-dimensional collagen biomaterials across length scales.

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P2860

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

http://www.wikidata.org/entity/Q30477397

description

2010 nî lūn-bûn

@nan

2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի փետրվարին հրատարակված գիտական հոդված

@hy

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@ast

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

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type

label

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@ast

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@en

prefLabel

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@ast

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@en

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TEN.TEC.2009.0179

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Tissue Engineering. Part C. Methods

P1476

Layer by layer three-dimensional tissue epitaxy by cell-laden hydrogel droplets.

@en

P2093

Edward Haeggstrom

http://www.w3.org/2001/XMLSchema#string

Fahim Manzur

http://www.w3.org/2001/XMLSchema#string

Feng Xu

http://www.w3.org/2001/XMLSchema#string

Jiro Nagatomi

http://www.w3.org/2001/XMLSchema#string

Jong Wook Hong

http://www.w3.org/2001/XMLSchema#string

SangJun Moon

http://www.w3.org/2001/XMLSchema#string

Sohan Mikkilineni

http://www.w3.org/2001/XMLSchema#string

Syed K Hasan

http://www.w3.org/2001/XMLSchema#string

Utkan Demirci

http://www.w3.org/2001/XMLSchema#string

Young S Song

http://www.w3.org/2001/XMLSchema#string

P2860

Tissue-engineered autologous bladders for patients needing cystoplasty

Tissue engineering

Title cell encapsulation by droplets.

Laser printing of pluripotent embryonal carcinoma cells.

Biological laser printing: a novel technique for creating heterogeneous 3-dimensional cell patterns.

Jet-based methods to print living cells.

Mineralized matrix deposition by marrow stromal osteoblasts in 3D perfusion culture increases with increasing fluid shear forces.

Microscale technologies for tissue engineering and biology

Clinical transplantation of a tissue-engineered airway.

The role of bioreactors in tissue engineering.

P304

157-166

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scholarly article

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10.1089/TEN.TEC.2009.0179

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P433

1

http://www.w3.org/2001/XMLSchema#string

P478

16

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Ali Khademhosseini

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2010-02-01T00:00:00Z

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26655685

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19586367

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2818246

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