Literature DB >> 23164720

Engineering three-dimensional cell mechanical microenvironment with hydrogels.

Guoyou Huang1, Lin Wang, Shuqi Wang, Yulong Han, Jinhui Wu, Qiancheng Zhang, Feng Xu, Tian Jian Lu.   

Abstract

Cell mechanical microenvironment (CMM) significantly affects cell behaviors such as spreading, migration, proliferation and differentiation. However, most studies on cell response to mechanical stimulation are based on two-dimensional (2D) planar substrates, which cannot mimic native three-dimensional (3D) CMM. Accumulating evidence has shown that there is a significant difference in cell behavior in 2D and 3D microenvironments. Among the materials used for engineering 3D CMM, hydrogels have gained increasing attention due to their tunable properties (e.g. chemical and mechanical properties). In this paper, we provide an overview of recent advances in engineering hydrogel-based 3D CMM. Effects of mechanical cues (e.g. hydrogel stiffness and externally induced stress/strain in hydrogels) on cell behaviors are described. A variety of approaches to load mechanical stimuli in 3D hydrogel-based constructs are also discussed.

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Year:  2012        PMID: 23164720     DOI: 10.1088/1758-5082/4/4/042001

Source DB:  PubMed          Journal:  Biofabrication        ISSN: 1758-5082            Impact factor:   9.954


  28 in total

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Authors:  Alexander V Goponenko; Yuris A Dzenis
Journal:  Polymer (Guildf)       Date:  2016-08-24       Impact factor: 4.430

Review 3.  Opportunities and challenges of translational 3D bioprinting.

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Review 4.  Functional and Biomimetic Materials for Engineering of the Three-Dimensional Cell Microenvironment.

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Journal:  Chem Rev       Date:  2017-10-09       Impact factor: 60.622

Review 5.  3D Printing of Scaffolds for Tissue Regeneration Applications.

Authors:  Anh-Vu Do; Behnoush Khorsand; Sean M Geary; Aliasger K Salem
Journal:  Adv Healthc Mater       Date:  2015-06-10       Impact factor: 9.933

6.  Cytocompatible cell encapsulation via hydrogel photopolymerization in microfluidic emulsion droplets.

Authors:  Bingzhao Xia; Zhongliang Jiang; Daniel Debroy; Dongmei Li; John Oakey
Journal:  Biomicrofluidics       Date:  2017-07-12       Impact factor: 2.800

7.  Tunable 3D Hydrogel Microchannel Networks to Study Confined Mammalian Cell Migration.

Authors:  Katharina Siemsen; Sunil Rajput; Florian Rasch; Fereydoon Taheri; Rainer Adelung; Jan Lammerding; Christine Selhuber-Unkel
Journal:  Adv Healthc Mater       Date:  2021-10-20       Impact factor: 9.933

8.  A Systematically Reduced Mathematical Model for Organoid Expansion.

Authors:  Meredith A Ellis; Mohit P Dalwadi; Marianne J Ellis; Helen M Byrne; Sarah L Waters
Journal:  Front Bioeng Biotechnol       Date:  2021-06-10

9.  Development of a thermosensitive HAMA-containing bio-ink for the fabrication of composite cartilage repair constructs.

Authors:  V H M Mouser; A Abbadessa; R Levato; W E Hennink; T Vermonden; D Gawlitta; J Malda
Journal:  Biofabrication       Date:  2017-03-23       Impact factor: 9.954

10.  Yield stress determines bioprintability of hydrogels based on gelatin-methacryloyl and gellan gum for cartilage bioprinting.

Authors:  Vivian H M Mouser; Ferry P W Melchels; Jetze Visser; Wouter J A Dhert; Debby Gawlitta; Jos Malda
Journal:  Biofabrication       Date:  2016-07-19       Impact factor: 9.954
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