Copying Life

Vitroscope is inspired by life's fundamental principle: perfusion. From blood flow to cerebrospinal fluid, the continuous exchange of nutrients and metabolites through forced liquid flow is essential to life and inter-organ communication.

To authentically model life in the laboratory, perfusion must therefore be replicated.

Vitroscope delivers precisely that: automated, scalable flow-based cell culture for 3D bioprints, vascularized organoids, and ex vivo tissue, unlocking unprecedented biological insights where it is needed most. For modeling diseases and enabling a glimpse at how a drug will perform in a human patient.

Scientific Publications

Vitroscope technology enables groundbreaking research in tissue engineering, organoid perfusion, and ex vivo modeling. Our platform has been featured in leading scientific journals.

Integrin Trafficking, Fibronectin Architecture, and Glomerular Injury upon Adiponectin Receptor 1 Depletion

Lindfors, S., Schmotz, C. et al.

Journal of the American Society of Nephrology (2025)

Using Vitroscope perfusion technology, the group investigated glomerular expression of the adiponection receptor 1 in the context of type 2 diabetes and how it correlates with podoyte loss.
Fully independent publication by customers of Vitroscope.

Sensor extended imaging workflow for creating fit for purpose models in basic and applied cell biology

Schüler, J., Sjöman, H., Kriesi, C.

Nature Communications Biology (2024)

Implementing an iterative process from perturbation to measurement and vice versa to develop fit-for-purpose cell models based on sensor extended imaging.
Co-authorship of Vitroscope with Dr. Julia Schüler, Therapeutic Area Lead Oncology at Charles River Laboratories.

Exploring the impact of microenvironmental perturbations on non-small cell lung cancer cultures

Dyer, T.H., Schüler, J., et al.

MPS Summit Poster (2025)

Investigating the effect of fluid-flow induced shear stress on non-small cell lung cancer.
Co-authorship of Vitroscope with Dr. Julia Schüler, Therapeutic Area Lead Oncology at Charles River Laboratories and SINTEF.

Integrated Flow Chamber System for Live Cell Microscopy

Kriesi, C., Steinert, M., Marmaras, A., Danzer, C., Meskenaite, V., Kurtcuoglu, V.

Frontiers In bioengineering and biotechnology (2019)

This article describes the underlying technology and some of the R&D work behind the original perfusion platform developed by the founders of Vitroscope. It also provides proof-of-concept data regarding imaging capabilities, biocompatibility, and technical benchmarks.