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New organ-on-chip system enables precise monitoring of 3D tumour tissue outside the body

3D tissue structures on the chip act as organs in miniature

Freiburg, Feb 17, 2022

New organ-on-chip system enables precise monitoring of 3D tumour tissue outside the body

Organ-on-chip systems with patient–derived cells could enable personalized therapies. Photo: Johannes Dornhof and Andreas Weltin

A research team around Dr. Andreas Weltin, Dr. Jochen Kieninger and Johannes Dornhof from the Department of Microsystems Engineering (IMTEK) at the University of Freiburg has developed a system that, among other things, makes it possible to study the development of tumour cells outside the human body in a three-dimensional environment. “We have realized an organ-on-chip system that can measure and control the culture conditions and metabolic rates of the cells at any time via microsensors. Until now, this has been only insufficiently possible in 3D cell cultures,” Weltin says. The system was developed in collaboration with the Molecular Gynecology group of the Department of Gynecology and Obstetrics at RWTH Aachen University Hospital. In the future, patient-derived cells in organ-on-chip systems could enable personalized cancer therapy. The scientists' work was published in the scientific journal “Lab on a Chip”.

Integrated sensors measure cellular metabolites

In organ-on-chip systems, three-dimensional tissue models are interconnected by an artificial circuit in such a way that they act like organs in miniature on a microchip. In this way, physiological processes – for example the growth of a tumour – can be reproduced and observed outside the human body. The research group created a chip design with integrated microsensors and microfluidics that can measure the cells’ metabolites directly in situ. In their system, the scientists grew breast cancer mini-tumours from individual stem cells and used electrochemical sensors to monitor cellular oxygen and glucose consumption and lactate production over a period of one week.

“Our platform enables the dynamic 3D culture of tumour organoids, whereas until now static 2D cultures have often been used, which can only recapitulate the complex microenvironment of a tumour to a limited extent,” says first author and PhD student Johannes Dornhof. In addition, the chip system can also be used to examine the effect of drugs on cell metabolism – for example, the cellular effect of chemotherapeutic agents could be recorded quantitatively and in real time in the context of cancer research.

Patient–derived cells could enable personalized therapy

The use of the patient’s own stem cells makes it possible to replicate an original tumour outside the body. This could offer new opportunities for personalized therapy, for example with regard to possible resistance to certain chemotherapeutic agents, which is crucial in aggressive triple-negative breast cancer. In the future, it should be possible to initially test drugs for a patient in organ-on-a-chip systems for effectiveness and side effects.

“Our results underline the potential of integrating microsensors into organ-on-chip systems in cancer research and drug development – especially with regard to personalized medicine,” says Weltin. And Dr. Jochen Kieninger explains: “This work nicely demonstrates the importance of interdisciplinary research. Bringing together different engineering disciplines with biology and medicine was essential for success.”

 

Original publication
Dornhof, J., Kieninger, J., Muralidharan, H., Maurer, J., Urban, G. A., Weltin, A. (2022): Microfluidic organ-on-chip system for multi-analyte monitoring of metabolites in 3D cell cultures. In: Lab on a Chip, 22 (2). DOI: 10.1039/d1lc00689d (free download without registration)

 

Pressphoto for Download
Photo: Johannes Dornhof and Andreas Weltin

 

Contact:
Dr. Andreas Weltin
Laboratory for Sensors
IMTEK – Department of Microsystems Engineering
University of Freiburg
Tel.:+49 761/203-7263
E-Mail:

Franziska Becker
University and Science communication
University of Freiburg
Tel.: +49 761/203-54271
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