Literature DB >> 19180087

Electrical stimulation systems for cardiac tissue engineering.

Nina Tandon1, Christopher Cannizzaro, Pen-Hsiu Grace Chao, Robert Maidhof, Anna Marsano, Hoi Ting Heidi Au, Milica Radisic, Gordana Vunjak-Novakovic.   

Abstract

We describe a protocol for tissue engineering of synchronously contractile cardiac constructs by culturing cardiac cells with the application of pulsatile electrical fields designed to mimic those present in the native heart. Tissue culture is conducted in a customized chamber built to allow for cultivation of (i) engineered three-dimensional (3D) cardiac tissue constructs, (ii) cell monolayers on flat substrates or (iii) cells on patterned substrates. This also allows for analysis of the individual and interactive effects of pulsatile electrical field stimulation and substrate topography on cell differentiation and assembly. The protocol is designed to allow for delivery of predictable electrical field stimuli to cells, monitoring environmental parameters, and assessment of cell and tissue responses. The duration of the protocol is 5 d for two-dimensional cultures and 10 d for 3D cultures.

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Year:  2009        PMID: 19180087      PMCID: PMC2775058          DOI: 10.1038/nprot.2008.183

Source DB:  PubMed          Journal:  Nat Protoc        ISSN: 1750-2799            Impact factor:   13.491


  43 in total

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Journal:  Phys Med Biol       Date:  1998-10       Impact factor: 3.609

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Authors:  K Y Nishimura; R R Isseroff; R Nuccitelli
Journal:  J Cell Sci       Date:  1996-01       Impact factor: 5.285
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  157 in total

Review 1.  A review of the responses of two- and three-dimensional engineered tissues to electric fields.

Authors:  Marie Hronik-Tupaj; David L Kaplan
Journal:  Tissue Eng Part B Rev       Date:  2012-01-26       Impact factor: 6.389

2.  A microfabricated platform to measure and manipulate the mechanics of engineered cardiac microtissues.

Authors:  Thomas Boudou; Wesley R Legant; Anbin Mu; Michael A Borochin; Nimalan Thavandiran; Milica Radisic; Peter W Zandstra; Jonathan A Epstein; Kenneth B Margulies; Christopher S Chen
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Authors:  Donald O Freytes; Laura Santambrogio; Gordana Vunjak-Novakovic
Journal:  Cells Tissues Organs       Date:  2011-10-12       Impact factor: 2.481

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Journal:  Adv Drug Deliv Rev       Date:  2015-07-30       Impact factor: 15.470

Review 5.  Injectable Hydrogels for Cardiac Tissue Engineering.

Authors:  Brisa Peña; Melissa Laughter; Susan Jett; Teisha J Rowland; Matthew R G Taylor; Luisa Mestroni; Daewon Park
Journal:  Macromol Biosci       Date:  2018-05-07       Impact factor: 4.979

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Authors:  Yau-Chi Chan; Sherwin Ting; Yee-Ki Lee; Kwong-Man Ng; Jiao Zhang; Zi Chen; Chung-Wah Siu; Steve K W Oh; Hung-Fat Tse
Journal:  J Cardiovasc Transl Res       Date:  2013-10-01       Impact factor: 4.132

7.  Surface acoustic waves induced micropatterning of cells in gelatin methacryloyl (GelMA) hydrogels.

Authors:  Shahid M Naseer; Amir Manbachi; Mohamadmahdi Samandari; Philipp Walch; Yuan Gao; Yu Shrike Zhang; Farideh Davoudi; Wesley Wang; Karen Abrinia; Jonathan M Cooper; Ali Khademhosseini; Su Ryon Shin
Journal:  Biofabrication       Date:  2017-02-14       Impact factor: 9.954

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Authors:  Kathy Yuan Ye; Lauren Deems Black
Journal:  J Cardiovasc Transl Res       Date:  2011-08-05       Impact factor: 4.132

Review 9.  Challenges in cardiac tissue engineering.

Authors:  Gordana Vunjak-Novakovic; Nina Tandon; Amandine Godier; Robert Maidhof; Anna Marsano; Timothy P Martens; Milica Radisic
Journal:  Tissue Eng Part B Rev       Date:  2010-04       Impact factor: 6.389

10.  Alignment and elongation of human adipose-derived stem cells in response to direct-current electrical stimulation.

Authors:  Nina Tandon; Brian Goh; Anna Marsano; Pen-Hsiu Grace Chao; Chrystina Montouri-Sorrentino; Jeffrey Gimble; Gordana Vunjak-Novakovic
Journal:  Conf Proc IEEE Eng Med Biol Soc       Date:  2009
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