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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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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PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

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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.

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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.

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PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

WHO WE ARE

SERVICE & SUPPORT

Publications

Nuclear damage in LMNA mutant iPSC-derived cardiomyocytes is associated with impaired lamin localization to the nuclear envelope

Mechanical confinement promotes heat resistance of hepatocellular carcinoma via SP1/IL4I1/AHR axis

Reliable, standardized measurements for cell mechanical properties

Multiscale Rheology of Aging Cancer Spheroids

Endoplasmic reticulum-mitochondrial calcium transport contributes to soft extracellular matrix-triggered mitochondrial dynamics and mitophagy in breast carcinoma cells

In Situ Regulation and Mechanisms of 3D Matrix Stiffness on the Activation and Reversion of Hepatic Stellate Cells

A highly versatile biopolymer-based platform for the maturation of human pluripotent stem cell-derived cardiomyocytes enables functional analysis in vitro and 3D printing of heart patches

Local tissue mechanics control cardiac pacemaker cell embryonic patterning

Extracellular matrix drives tumor organoids toward desmoplastic matrix deposition and mesenchymal transition

Modelling metastatic colonization of cholangiocarcinoma organoids in decellularized lung and lymph nodes

Tumor decellularization reveals proteomic and mechanical characteristics of the extracellular matrix of primary liver cancer

Suppression of auto-fluorescence from high-resolution 3D polymeric architectures fabricated via two-photon polymerization for cell biology applications

Sign-up to our newsletter

PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

WHO WE ARE

SERVICE & SUPPORT

Publications

Nuclear damage in LMNA mutant iPSC-derived cardiomyocytes is associated with impaired lamin localization to the nuclear envelope

Mechanical confinement promotes heat resistance of hepatocellular carcinoma via SP1/IL4I1/AHR axis

Reliable, standardized measurements for cell mechanical properties

Multiscale Rheology of Aging Cancer Spheroids

Endoplasmic reticulum-mitochondrial calcium transport contributes to soft extracellular matrix-triggered mitochondrial dynamics and mitophagy in breast carcinoma cells

In Situ Regulation and Mechanisms of 3D Matrix Stiffness on the Activation and Reversion of Hepatic Stellate Cells

A highly versatile biopolymer-based platform for the maturation of human pluripotent stem cell-derived cardiomyocytes enables functional analysis in vitro and 3D printing of heart patches

Local tissue mechanics control cardiac pacemaker cell embryonic patterning

Extracellular matrix drives tumor organoids toward desmoplastic matrix deposition and mesenchymal transition

Modelling metastatic colonization of cholangiocarcinoma organoids in decellularized lung and lymph nodes

Tumor decellularization reveals proteomic and mechanical characteristics of the extracellular matrix of primary liver cancer

Suppression of auto-fluorescence from high-resolution 3D polymeric architectures fabricated via two-photon polymerization for cell biology applications

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PLATFORMS THAT ACCELERATE TRANSLATIONAL RESEARCH

UNLOCK THE POWER OF MECHANOBIOLOGY

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SERVICE & SUPPORT

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