Literature DB >> 15604141

Functional assembly of engineered myocardium by electrical stimulation of cardiac myocytes cultured on scaffolds.

Milica Radisic1, Hyoungshin Park, Helen Shing, Thomas Consi, Frederick J Schoen, Robert Langer, Lisa E Freed, Gordana Vunjak-Novakovic.   

Abstract

The major challenge of tissue engineering is directing the cells to establish the physiological structure and function of the tissue being replaced across different hierarchical scales. To engineer myocardium, biophysical regulation of the cells needs to recapitulate multiple signals present in the native heart. We hypothesized that excitation-contraction coupling, critical for the development and function of a normal heart, determines the development and function of engineered myocardium. To induce synchronous contractions of cultured cardiac constructs, we applied electrical signals designed to mimic those in the native heart. Over only 8 days in vitro, electrical field stimulation induced cell alignment and coupling, increased the amplitude of synchronous construct contractions by a factor of 7, and resulted in a remarkable level of ultrastructural organization. Development of conductive and contractile properties of cardiac constructs was concurrent, with strong dependence on the initiation and duration of electrical stimulation.

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Year:  2004        PMID: 15604141      PMCID: PMC539727          DOI: 10.1073/pnas.0407817101

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  22 in total

1.  Tissue engineering of functional cardiac muscle: molecular, structural, and electrophysiological studies.

Authors:  M Papadaki; N Bursac; R Langer; J Merok; G Vunjak-Novakovic; L E Freed
Journal:  Am J Physiol Heart Circ Physiol       Date:  2001-01       Impact factor: 4.733

2.  Tissue engineering of a differentiated cardiac muscle construct.

Authors:  W-H Zimmermann; K Schneiderbanger; P Schubert; M Didié; F Münzel; J F Heubach; S Kostin; W L Neuhuber; T Eschenhagen
Journal:  Circ Res       Date:  2002-02-08       Impact factor: 17.367

3.  High-density seeding of myocyte cells for cardiac tissue engineering.

Authors:  Milica Radisic; Michelle Euloth; Liming Yang; Robert Langer; Lisa E Freed; Gordana Vunjak-Novakovic
Journal:  Biotechnol Bioeng       Date:  2003-05-20       Impact factor: 4.530

4.  Medium perfusion enables engineering of compact and contractile cardiac tissue.

Authors:  Milica Radisic; Liming Yang; Jan Boublik; Richard J Cohen; Robert Langer; Lisa E Freed; Gordana Vunjak-Novakovic
Journal:  Am J Physiol Heart Circ Physiol       Date:  2003-10-09       Impact factor: 4.733

5.  Influence of electrical axis of stimulation on excitation of cardiac muscle cells.

Authors:  L Tung; N Sliz; M R Mulligan
Journal:  Circ Res       Date:  1991-09       Impact factor: 17.367

6.  Morphometric study of early postnatal development in the left and right ventricular myocardium of the rat. II. Tissue composition, capillary growth, and sarcoplasmic alterations.

Authors:  G Olivetti; P Anversa; A V Loud
Journal:  Circ Res       Date:  1980-04       Impact factor: 17.367

7.  Uncoupling of cardiac cells by fatty acids: structure-activity relationships.

Authors:  J M Burt; K D Massey; B N Minnich
Journal:  Am J Physiol       Date:  1991-03

8.  Developmental changes in contractility and sarcomeric proteins from the early embryonic to the adult stage in the mouse heart.

Authors:  Sharon Siedner; Martina Krüger; Mechthild Schroeter; Doris Metzler; Wilhelm Roell; Bernd K Fleischmann; Juergen Hescheler; Gabriele Pfitzer; Robert Stehle
Journal:  J Physiol       Date:  2003-03-14       Impact factor: 5.182

9.  Electrical stimulation directly induces pre-angiogenic responses in vascular endothelial cells by signaling through VEGF receptors.

Authors:  Min Zhao; Huai Bai; Entong Wang; John V Forrester; Colin D McCaig
Journal:  J Cell Sci       Date:  2003-12-16       Impact factor: 5.285

10.  The cardiac mechanical stretch sensor machinery involves a Z disc complex that is defective in a subset of human dilated cardiomyopathy.

Authors:  Ralph Knöll; Masahiko Hoshijima; Hal M Hoffman; Veronika Person; Ilka Lorenzen-Schmidt; Marie-Louise Bang; Takeharu Hayashi; Nobuyuki Shiga; Hideo Yasukawa; Wolfgang Schaper; William McKenna; Mitsuhiro Yokoyama; Nicholas J Schork; Jeffrey H Omens; Andrew D McCulloch; Akinori Kimura; Carol C Gregorio; Wolfgang Poller; Jutta Schaper; Heinz P Schultheiss; Kenneth R Chien
Journal:  Cell       Date:  2002-12-27       Impact factor: 41.582
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  277 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
Journal:  Tissue Eng Part A       Date:  2012-01-04       Impact factor: 3.845

3.  Nanomedicine: Gold nanowires to mend a heart.

Authors:  Marisa E Jaconi
Journal:  Nat Nanotechnol       Date:  2011-11-04       Impact factor: 39.213

4.  Functional scaffold-free 3-D cardiac microtissues: a novel model for the investigation of heart cells.

Authors:  B R Desroches; P Zhang; B-R Choi; M E King; A E Maldonado; W Li; A Rago; G Liu; N Nath; K M Hartmann; B Yang; G Koren; J R Morgan; U Mende
Journal:  Am J Physiol Heart Circ Physiol       Date:  2012-03-16       Impact factor: 4.733

Review 5.  Optimizing dynamic interactions between a cardiac patch and inflammatory host cells.

Authors:  Donald O Freytes; Laura Santambrogio; Gordana Vunjak-Novakovic
Journal:  Cells Tissues Organs       Date:  2011-10-12       Impact factor: 2.481

Review 6.  Getting to the heart of tissue engineering.

Authors:  Luda Khait; Louise Hecker; Nicole R Blan; Garrett Coyan; Francesco Migneco; Yen-Chih Huang; Ravi K Birla
Journal:  J Cardiovasc Transl Res       Date:  2008-01-29       Impact factor: 4.132

7.  In vitro and in vivo cardiomyogenic differentiation of amniotic fluid stem cells.

Authors:  Sveva Bollini; Michela Pozzobon; Muriel Nobles; Johannes Riegler; Xuebin Dong; Martina Piccoli; Angela Chiavegato; Anthony N Price; Marco Ghionzoli; King K Cheung; Anna Cabrelle; Paul R O'Mahoney; Emanuele Cozzi; Saverio Sartore; Andrew Tinker; Mark F Lythgoe; Paolo De Coppi
Journal:  Stem Cell Rev Rep       Date:  2011-06       Impact factor: 5.739

8.  A modular approach to cardiac tissue engineering.

Authors:  Brendan M Leung; Michael V Sefton
Journal:  Tissue Eng Part A       Date:  2010-10       Impact factor: 3.845

9.  Spatiotemporal tracking of cells in tissue-engineered cardiac organoids.

Authors:  Rohin K Iyer; Jane Chui; Milica Radisic
Journal:  J Tissue Eng Regen Med       Date:  2009-03       Impact factor: 3.963

Review 10.  A healthy dose of chaos: Using fractal frameworks for engineering higher-fidelity biomedical systems.

Authors:  Anastasia Korolj; Hau-Tieng Wu; Milica Radisic
Journal:  Biomaterials       Date:  2019-07-15       Impact factor: 12.479
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