Publications

Vaginal Fibroblast Behavior as a Function of Stiffness Changes in a Polyisocyanide Hydrogel for Prolapse Repair

Year: 2023
First Author: Gudde
View publication

Autologous endothelialisation by the stromal vascular fraction on laminin-bioconjugated nanocellulose–alginate scaffolds

Year: 2023
First Author: Oskarsdotter
View publication

Reliable, standardized measurements for cell mechanical properties

Year: 2023
First Author: Pérez-Domínguez
View publication

Controlled Quenching of Agarose Defines Hydrogels with Tunable Structural, Bulk Mechanical, Surface Nanomechanical, and Cell Response in 2D Cultures

Year: 2023
First Author: Piazza
View publication

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

Year: 2023
First Author: Wallace
View publication

3D bioprinting microgels to construct implantable vascular tissue

Year: 2023
First Author: Wang
View publication

Tailorable biofunctionalization of poly(acrylamide) hydrogels via firefly luciferin-bioinspired click ligation accelerates cell attachment, spreading and proliferation

Year: 2023
First Author: Wofel
View publication

Mechano-biomimetic hydrogel 3D cell cultivation as a strategy to improve mammalian cell protein expression

Year: 2023
First Author: Zhang
View publication

Contact Stiffness Provides a Unified Frame of Reference for Understanding the Effects of Extracellular Matrix Mechanics on Cell Behaviors

Year: 2023
First Author: Zhao
View publication

Lem2 is essential for cardiac development by maintaining nuclear integrity

Year: 2023
First Author: Ross
View publication

The extracellular matrix viscoelasticity as a regulator of cell and tissue dynamics

Year: 2023
First Author: Iuliano
View publication

Low lamin A levels enhance confined cell migration and metastatic capacity in breast cancer

Year: 2022
First Author: Bell
View publication

Sign-up to our newsletter

to stay up to date on the latest insights, events, news, and more

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. 

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

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.

Resources

Contact

Quote Form

Get THE latest insights

Resource Request