Literature DB >> 16201789

A microfluidic biomaterial.

Mario Cabodi1, Nak Won Choi, Jason P Gleghorn, Christopher S D Lee, Lawrence J Bonassar, Abraham D Stroock.   

Abstract

We report on the incorporation of microfluidic structure within a high-water-content hydrogel [4% (w/v) calcium alginate]. We used the microfluidic network to control the chemical environment within the hydrogel and demonstrated higher rates of delivery and extraction of solutes than was achievable by diffusion alone.

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Year:  2005        PMID: 16201789     DOI: 10.1021/ja054820t

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  50 in total

1.  Rapid and cost-effective fabrication of selectively permeable calcium-alginate microfluidic device using "modified" embedded template method.

Authors:  Amit Asthana; Kwang Ho Lee; Kyeong-Ohn Kim; Dong-Myung Kim; Dong-Pyo Kim
Journal:  Biomicrofluidics       Date:  2012-03-15       Impact factor: 2.800

2.  Microbial and algal alginate gelation characterized by magnetic resonance.

Authors:  Hilary T Fabich; Sarah J Vogt; Matthew L Sherick; Joseph D Seymour; Jennifer R Brown; Michael J Franklin; Sarah L Codd
Journal:  J Biotechnol       Date:  2012-06-21       Impact factor: 3.307

3.  A 3D bioprinting system to produce human-scale tissue constructs with structural integrity.

Authors:  Hyun-Wook Kang; Sang Jin Lee; In Kap Ko; Carlos Kengla; James J Yoo; Anthony Atala
Journal:  Nat Biotechnol       Date:  2016-02-15       Impact factor: 54.908

4.  Silk Fibroin Microfluidic Devices.

Authors:  Christopher J Bettinger; Kathleen M Cyr; Akira Matsumoto; Robert Langer; Jeffrey T Borenstein; David L Kaplan
Journal:  Adv Mater       Date:  2007       Impact factor: 30.849

Review 5.  Integrated micro/nanoengineered functional biomaterials for cell mechanics and mechanobiology: a materials perspective.

Authors:  Yue Shao; Jianping Fu
Journal:  Adv Mater       Date:  2013-12-12       Impact factor: 30.849

6.  Formation of microvascular networks in vitro.

Authors:  John P Morgan; Peter F Delnero; Ying Zheng; Scott S Verbridge; Junmei Chen; Michael Craven; Nak Won Choi; Anthony Diaz-Santana; Pouneh Kermani; Barbara Hempstead; José A López; Thomas N Corso; Claudia Fischbach; Abraham D Stroock
Journal:  Nat Protoc       Date:  2013-08-29       Impact factor: 13.491

7.  Fabrication and Manipulation of Ionotropic Hydrogels Crosslinked by Paramagnetic Ions.

Authors:  Adam Winkleman; Paul J Bracher; Irina Gitlin; George M Whitesides
Journal:  Chem Mater       Date:  2007       Impact factor: 9.811

8.  Facile fabrication processes for hydrogel-based microfluidic devices made of natural biopolymers.

Authors:  Yuya Yajima; Masumi Yamada; Emi Yamada; Masaki Iwase; Minoru Seki
Journal:  Biomicrofluidics       Date:  2014-04-17       Impact factor: 2.800

9.  Stereolithographic printing of ionically-crosslinked alginate hydrogels for degradable biomaterials and microfluidics.

Authors:  Thomas M Valentin; Susan E Leggett; Po-Yen Chen; Jaskiranjeet K Sodhi; Lauren H Stephens; Hayley D McClintock; Jea Yun Sim; Ian Y Wong
Journal:  Lab Chip       Date:  2017-10-11       Impact factor: 6.799

10.  Patterning alginate hydrogels using light-directed release of caged calcium in a microfluidic device.

Authors:  Bor-han Chueh; Ying Zheng; Yu-suke Torisawa; Amy Y Hsiao; Chunxi Ge; Susan Hsiong; Nathaniel Huebsch; Renny Franceschi; David J Mooney; Shuichi Takayama
Journal:  Biomed Microdevices       Date:  2010-02       Impact factor: 2.838
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