Conductive polypyrrole-encapsulated silk fibroin fibers for cardiac tissue engineering

Cardiomyocyte Maturation

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Conducting Polymers, Hydrogels and Their Composites: Preparation, Properties and Bioapplications

(2019) Monika Tomczykowa et al.   Polymers

Engineering a naturally-derived adhesive and conductive cardiopatch

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Conductive Scaffolds for Cardiac and Neuronal Tissue Engineering: Governing Factors and Mechanisms

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Advances in Conducting, Biodegradable and Biocompatible Copolymers for Biomedical Applications

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Current research trends and challenges in tissue engineering for mending broken hearts

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Chitosan-PVA-CNT nanofibers as electrically conductive scaffolds for cardiovascular tissue engineering

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Nanofibrous Composite with Tailorable Electrical and Mechanical Properties for Cardiac Tissue Engineering

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Recent Advances in Biodegradable Conducting Polymers and Their Biomedical Applications

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Strategies for directing cells into building functional hearts and parts

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Conductive silk–polypyrrole composite scaffolds with bioinspired nanotopographic cues for cardiac tissue engineering

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Restoring electrical connection using a conductive biomaterial provides a new therapeutic strategy for rats with spinal cord injury

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Reduced graphene oxide functionalized nanofibrous silk fibroin matrices for engineering excitable tissues

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Neural interfaces engineered via micro- and nanostructured coatings

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Electrically conductive hydrogel-based micro-topographies for the development of organized cardiac tissues

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Electrical and mechanical stimulation of cardiac cells and tissue constructs

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Maturing human pluripotent stem cell-derived cardiomyocytes in human engineered cardiac tissues

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Mussel-Inspired Conductive Cryogel as Cardiac Tissue Patch to Repair Myocardial Infarction by Migration of Conductive Nanoparticles

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Cardiomyocyte behavior on biodegradable polyurethane/gold nanocomposite scaffolds under electrical stimulation

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Tuning the conductivity and inner structure of electrospun fibers to promote cardiomyocyte elongation and synchronous beating

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Anisotropic silk fibroin/gelatin scaffolds from unidirectional freezing

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Electroactive nanostructured scaffold produced by controlled deposition of PPy on electrospun PCL fibres

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Cell alignment induced by anisotropic electrospun fibrous scaffolds alone has limited effect on cardiomyocyte maturation

(2016) Jingjia Han et al.   Stem Cell Research

Direct Mechanical Stimulation of Stem Cells: A Beating Electromechanically Active Scaffold for Cardiac Tissue Engineering

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Conductive interpenetrating networks of polypyrrole and polycaprolactone encourage electrophysiological development of cardiac cells

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Recent Advances in Electrospun Nanofibrous Scaffolds for Cardiac Tissue Engineering

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A Conductive Polymer Hydrogel Supports Cell Electrical Signaling and Improves Cardiac Function After Implantation into Myocardial Infarct

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Tough and flexible CNT–polymeric hybrid scaffolds for engineering cardiac constructs

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Albumin fiber scaffolds for engineering functional cardiac tissues

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Sarcomere length nanometry in rat neonatal cardiomyocytes expressed with α-actinin–AcGFP in Z discs

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Coiled fiber scaffolds embedded with gold nanoparticles improve the performance of engineered cardiac tissues

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Biodegradable and electrically conducting polymers for biomedical applications

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Biocompatibility evaluation of electrically conductive nanofibrous scaffolds for cardiac tissue engineering

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Fabrication of conductive electrospun silk fibroin scaffolds by coating with polypyrrole for biomedical applications

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Angiotensin II-induced cardiomyocyte hypertrophy in vitro is TAK1-dependent and Smad2/3-independent

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Polypyrrole-contained electrospun conductive nanofibrous membranes for cardiac tissue engineering

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The mechanical characteristics and in vitro biocompatibility of poly(glycerol sebacate)-Bioglass® elastomeric composites

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Controlling silk fibroin particle features for drug delivery

(2010) Andreas S. Lammel et al.   BIOMATERIALS

Electrospinning of fibrous polymer scaffolds using positive voltage or negative voltage: a comparative study

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Polypyrrole-coated electrospun PLGA nanofibers for neural tissue applications

(2009) Jae Y. Lee et al.   BIOMATERIALS

Model of Excitation-Contraction Coupling of Rat Neonatal Ventricular Myocytes

(2009) Topi Korhonen et al.   BIOPHYSICAL JOURNAL

Electrical stimulation systems for cardiac tissue engineering

(2009) Nina Tandon et al.   Nature Protocols

Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs

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Modification of silk fibroin using diazonium coupling chemistry and the effects on hMSC proliferation and differentiation

(2008) Amanda R. Murphy et al.   BIOMATERIALS

Embryonic cardiomyocytes beat best on a matrix with heart-like elasticity: scar-like rigidity inhibits beating

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Theory and kinematic measurements of the mechanics of stable electrospun polymer jets

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Characterisation of a soft elastomer poly(glycerol sebacate) designed to match the mechanical properties of myocardial tissue

(2007) Qi-Zhi Chen et al.   BIOMATERIALS