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Literature DB >> 24127293

Biophysically defined and cytocompatible covalently adaptable networks as viscoelastic 3D cell culture systems.

Daniel D McKinnon¹, Dylan W Domaille, Jennifer N Cha, Kristi S Anseth.

Abstract

Presented here is a cytocompatible covalently adaptable hydrogel uniquely capable of mimicking the complex biophysical properties of native tissue and enabling natural cell functions without matrix degradation. Demonstrated is both the ability to control elastic modulus and stress relaxation time constants by more than an order of magnitude while predicting these values based on fundamental theoretical understanding and the simulation of muscle tissue and the encapsulation of myoblasts.

Entities: Chemical

Keywords: dynamic materials; hydrogels; polymeric materials; self-healing materials; supramolecular chemistry

Mesh：

Substances：

Year: 2013 PMID： 24127293 PMCID： PMC4582033 DOI： 10.1002/adma.201303680

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

52 in total

1. Sarcomeric visco-elasticity of chemically skinned skeletal muscle fibres of the rabbit at rest.

Authors: K W Ranatunga
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2. Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment.

Authors: Rowena McBeath; Dana M Pirone; Celeste M Nelson; Kiran Bhadriraju; Christopher S Chen
Journal: Dev Cell Date: 2004-04 Impact factor: 12.270

Review 3. Engineering the extracellular environment: Strategies for building 2D and 3D cellular structures.

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4. Matrix elasticity directs stem cell lineage specification.

Authors: Adam J Engler; Shamik Sen; H Lee Sweeney; Dennis E Discher
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5. A synthetic strategy for mimicking the extracellular matrix provides new insight about tumor cell migration.

Authors: Michael P Schwartz; Benjamin D Fairbanks; Robert E Rogers; Rajagopal Rangarajan; Muhammad H Zaman; Kristi S Anseth
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6. In situ gelable interpenetrating double network hydrogel formulated from binary components: thiolated chitosan and oxidized dextran.

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7. Hydrogel properties influence ECM production by chondrocytes photoencapsulated in poly(ethylene glycol) hydrogels.

Authors: Stephanie J Bryant; Kristi S Anseth
Journal: J Biomed Mater Res Date: 2002-01

8. Synthetic hydrogel niches that promote hMSC viability.

Authors: Charles R Nuttelman; Margaret C Tripodi; Kristi S Anseth
Journal: Matrix Biol Date: 2005-05 Impact factor: 11.583

9. Maleimide cross-linked bioactive PEG hydrogel exhibits improved reaction kinetics and cross-linking for cell encapsulation and in situ delivery.

Authors: Edward A Phelps; Nduka O Enemchukwu; Vincent F Fiore; Jay C Sy; Niren Murthy; Todd A Sulchek; Thomas H Barker; Andrés J García
Journal: Adv Mater Date: 2011-12-16 Impact factor: 30.849

10. In situ elasticity modulation with dynamic substrates to direct cell phenotype.

Authors: April M Kloxin; Julie A Benton; Kristi S Anseth
Journal: Biomaterials Date: 2009-09-27 Impact factor: 12.479

103 in total

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Journal: Biomaterials Date: 2017-03-03 Impact factor: 12.479

2. Three-dimensional extrusion bioprinting of single- and double-network hydrogels containing dynamic covalent crosslinks.

Authors: Leo L Wang; Christopher B Highley; Yi-Cheun Yeh; Jonathan H Galarraga; Selen Uman; Jason A Burdick
Journal: J Biomed Mater Res A Date: 2018-01-23 Impact factor: 4.396

3. Photopolymerized dynamic hydrogels with tunable viscoelastic properties through thioester exchange.

Authors: Tobin E Brown; Benjamin J Carberry; Brady T Worrell; Oksana Y Dudaryeva; Matthew K McBride; Christopher N Bowman; Kristi S Anseth
Journal: Biomaterials Date: 2018-04-04 Impact factor: 12.479

4. Self-healing hydrogels formed by complexation between calcium ions and bisphosphonate-functionalized star-shaped polymers.

Authors: Paula M Lopez-Perez; Ricardo M P da Silva; Iossif Strehin; Paul H J Kouwer; Sander C G Leeuwenburgh; Phillip B Messersmith
Journal: Macromolecules Date: 2017-10-19 Impact factor: 5.985