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PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

Whether your focus lies on mechanical measurements and characterization at the cell scale, or you work with muscle tissues, our platforms offer you precise, fast, and accurate outcomes. Discover more about how our products can help you accelerate and achieve your research goals.
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Cuore

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With a wide range of application areas, across an array of samples, for various disease areas and testing needs, we can provide you with precise insights into mechanical cues to advance your translational research. Learn more about our applications here.
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We are a growing team of 60+ passionate people, headquartered in Amsterdam, the Netherlands. Learn more about our journey so far, meet our team of professionals, and our career opportunities.

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From initial interest to full-scale implementation, and throughout the entire lifecycle of our instruments, we offer our customers a dedicated and customized experience. We focus on optimizing the functionality and operation of our instruments, to ensure peak efficiency, enhancing their research productivity.

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Products

PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

Whether your focus lies on mechanical measurements and characterization at the cell scale, or you work with muscle tissues, our platforms offer you precise, fast, and accurate outcomes. Discover more about how our products can help you accelerate and achieve your research goals.

Solutions

UNLOCK THE POWER OF MECHANOBIOLOGY

With a wide range of application areas, across an array of samples, for various disease areas and testing needs, we can provide you with precise insights into mechanical cues to advance your translational research. Learn more about our applications here.

Company

WHO WE ARE

We are a growing team of 60+ passionate people, headquartered in Amsterdam, the Netherlands. Learn more about our journey so far, meet our team of professionals, and our career opportunities.

Service & Support

SERVICE & SUPPORT

From initial interest to full-scale implementation, and throughout the entire lifecycle of our instruments, we offer our customers a dedicated and customized experience. We focus on optimizing the functionality and operation of our instruments, to ensure peak efficiency, enhancing their research productivity.

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PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

WHO WE ARE

SERVICE & SUPPORT

Publications

Chlorite oxidized oxyamylose differentially influences the microstructure of fibrin and self assembling peptide hydrogels as well as dental pulp stem cell behavior

Anisotropic Mechanical Properties of the Human Uterus Measured by Spherical Indentation

Engineering injectable vascularized tissues from the bottom-up: Dynamics of in-gel extra-spheroid dermal tissue assembly

Hydroplastic Micromolding of 2D Sheets

Multicellular Spheroids Formation on Hydrogel Enhances Osteogenic/Odontogenic Differentiation of Dental Pulp Stem Cells Under Magnetic Nanoparticles Induction

Vascular Network Formation on Macroporous Polydioxanone Scaffolds

The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

Repurposing mesalazine against cardiac fibrosis in vitro

The Combined Influence of Viscoelastic and Adhesive Cues on Fibroblast Spreading and Focal Adhesion Organization

A poroelastic master curve for time‐dependent and multiscale mechanics of hydrogel

Physico-chemical modification of gelatine for the improvement of 3D printability of oxidized alginate-gelatine hydrogels towards cartilage tissue engineering

A fully defined matrix to support a pluripotent stem cell derived multi-cell-liver steatohepatitis and fibrosis model

Sign-up to our newsletter

PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

WHO WE ARE

SERVICE & SUPPORT

PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

WHO WE ARE

SERVICE & SUPPORT

Publications

Chlorite oxidized oxyamylose differentially influences the microstructure of fibrin and self assembling peptide hydrogels as well as dental pulp stem cell behavior

Anisotropic Mechanical Properties of the Human Uterus Measured by Spherical Indentation

Engineering injectable vascularized tissues from the bottom-up: Dynamics of in-gel extra-spheroid dermal tissue assembly

Hydroplastic Micromolding of 2D Sheets

Multicellular Spheroids Formation on Hydrogel Enhances Osteogenic/Odontogenic Differentiation of Dental Pulp Stem Cells Under Magnetic Nanoparticles Induction

Vascular Network Formation on Macroporous Polydioxanone Scaffolds

The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

Repurposing mesalazine against cardiac fibrosis in vitro

The Combined Influence of Viscoelastic and Adhesive Cues on Fibroblast Spreading and Focal Adhesion Organization

A poroelastic master curve for time‐dependent and multiscale mechanics of hydrogel

Physico-chemical modification of gelatine for the improvement of 3D printability of oxidized alginate-gelatine hydrogels towards cartilage tissue engineering

A fully defined matrix to support a pluripotent stem cell derived multi-cell-liver steatohepatitis and fibrosis model

Sign-up to our newsletter

PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

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