Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration. - Wikidata - awgldk - TriplyDB

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

http://www.wikidata.org/entity/Q37904762

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Microtissues in Cardiovascular Medicine: Regenerative Potential Based on a 3D Microenvironment Concise review: growing hearts in the right place: on the design of biomimetic materials for cardiac stem cell differentiation Acoustofluidic chemical waveform generator and switch.Organs-on-chips at the frontiers of drug discovery Monitoring/Imaging and Regenerative Agents for Enhancing Tissue Engineering Characterization and Therapies Organs-on-chips: breaking the in vitro impasse.Controlled electromechanical cell stimulation on-a-chip.Regulation of fibrochondrogenesis of mesenchymal stem cells in an integrated microfluidic platform embedded with biomimetic nanofibrous scaffolds Deciphering the combinatorial roles of geometric, mechanical, and adhesion cues in regulation of cell spreading.Electrical and Mechanical Strategies to Enable Cardiac Repair and Regeneration.Flip channel: A microfluidic device for uniform-sized embryoid body formation and differentiation.Electrophysiological and contractile function of cardiomyocytes derived from human embryonic stem cells.Microsystems for biomimetic stimulation of cardiac cells.Microfluidics for manipulating cells.Biomimetic approaches for cell implantation to the restoration of infarcted myocardium.Interdigitated array of Pt electrodes for electrical stimulation and engineering of aligned muscle tissue.Cardiac Progenitor Cells and the Interplay with Their Microenvironment In situ generation of human brain organoids on a micropillar array.Nano-sized collagen I molecules enhanced the differentiation of rat mesenchymal stem cells into cardiomyocytes.Electrical stimulation of cardiac adipose tissue-derived progenitor cells modulates cell phenotype and genetic machinery.Beating heart on a chip: a novel microfluidic platform to generate functional 3D cardiac microtissues.Direct Mechanical Stimulation of Stem Cells: A Beating Electromechanically Active Scaffold for Cardiac Tissue Engineering.

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Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

http://www.wikidata.org/entity/Q37904762

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 25 July 2011

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@en

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@nl

type

label

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@en

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@nl

prefLabel

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@en

Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

@nl

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Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

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Ebrahim Ghafar-Zadeh

http://www.w3.org/2001/XMLSchema#string

John R Waldeisen

http://www.w3.org/2001/XMLSchema#string

Luke P Lee

http://www.w3.org/2001/XMLSchema#string

P2860

Biomaterials for the Treatment of Myocardial Infarction

Tunable microdoublet lens array

Designing materials to direct stem-cell fate

Microwell-mediated control of embryoid body size regulates embryonic stem cell fate via differential expression of WNT5a and WNT11

Dynamics of Drosophila embryonic patterning network perturbed in space and time using microfluidics

Matrix elasticity directs stem cell lineage specification

Induction of pluripotent stem cells from adult human fibroblasts by defined factors

Perfusion-decellularized matrix: using nature's platform to engineer a bioartificial heart

Tissue cells feel and respond to the stiffness of their substrate

Growth factors, matrices, and forces combine and control stem cells

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3031-3048

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scholarly article

P356

10.1039/C1LC20284G

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18

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11

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2011-07-25T00:00:00Z

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51518085

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21785806

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