3D ENGINEERING AND DISEASE MODELLING

Metabolic Maturation Increases Susceptibility to Hypoxia- induced Damage in Human iPSC-derived Cardiomyocytes

Cyclic strain has antifibrotic effects on the human cardiac fibroblast transcriptome in a human cardiac fibrosis-on-a-chip platform

Convergence of melt electrowriting and extrusion- based bioprinting for vascular patterning of a myocardial construct

Generation, High-Throughput Screening, and Biobanking of Human-Induced Pluripotent Stem Cell-Derived Cardiac Spheroids

CARDIAC-DERIVED PROGENITOR CELLS DIFFERENTIATED TOWARDS CARDIOMYOCYTES

IPS-DERIVED CARDIOMYOCYTES

ENGINEERED CARDIAC TISSUE USING ELECTROSPIN WRITING AND IPS-CM

BRAV∃

Computational biomechanics and bioengineering 3D printing to develop a personalized regenerative
biological ventricular assist device to provide lasting functional support to damaged hearts

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RESCUE-COFUND

Research project: REgenerative Medicine & Stem Cells in UtrEcht

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EXPANDING HUMAN CARDIOMYOCYTES FOR CARDIAC REPAIR

(CELL STEM CELL 2020)

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EXCLUSIVE: 3D PRINTED CARDIAC PATCH SHOWS PROMISE FOR HEALING DAMAGED HEARTS (2018)

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MEDIA: HIGHLIGHTED ENGINEERED 3D CARDIAC FIBROTIC TISSUE TO STUDY FIBROTIC REMODELING ON NEWS WEBSITE ADVANCED SCIENCE NEWS (2017)

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MEDIA: HIGHLIGHTED PAPER ENTITLED "MELT ELECTROSPINNING WRITING OF POLY-HYDROXYMETHYLGLYCOLIDE-CO-Ε-CAPROLACTONE-BASED SCAFFOLDS FOR CARDIAC TISSUE ENGINEERING" ON NEWS WEBSITE ADVANCED SCIENCE NEWS (2017)

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SLUIJTERLAB

3D ENGINEERING AND DISEASE MODELLING

Metabolic Maturation Increases Susceptibility to Hypoxia- induced Damage in Human iPSC-derived Cardiomyocytes

Cyclic strain has antifibrotic effects on the human cardiac fibroblast transcriptome in a human cardiac fibrosis-on-a-chip platform

Convergence of melt electrowriting and extrusion- based bioprinting for vascular patterning of a myocardial construct

Generation, High-Throughput Screening, and Biobanking of Human-Induced Pluripotent Stem Cell-Derived Cardiac Spheroids

HUMAN CARDIOMYOCYTES

CARDIAC-DERIVED PROGENITOR CELLS DIFFERENTIATED TOWARDS CARDIOMYOCYTES

IPS-DERIVED CARDIOMYOCYTES

ENGINEERED CARDIAC TISSUE USING ELECTROSPIN WRITING AND IPS-CM

BRAV∃

RESCUE-COFUND

EXPANDING HUMAN CARDIOMYOCYTES FOR CARDIAC REPAIR

(CELL STEM CELL 2020)

EXCLUSIVE: 3D PRINTED CARDIAC PATCH SHOWS PROMISE FOR HEALING DAMAGED HEARTS (2018)

MEDIA: HIGHLIGHTED ENGINEERED 3D CARDIAC FIBROTIC TISSUE TO STUDY FIBROTIC REMODELING ON NEWS WEBSITE ADVANCED SCIENCE NEWS (2017)

MEDIA: HIGHLIGHTED PAPER ENTITLED "MELT ELECTROSPINNING WRITING OF POLY-HYDROXYMETHYLGLYCOLIDE-CO-Ε-CAPROLACTONE-BASED SCAFFOLDS FOR CARDIAC TISSUE ENGINEERING" ON NEWS WEBSITE ADVANCED SCIENCE NEWS (2017)