Bioengineered systems such as organsâonâchip, miniaturised tissue platforms, and advanced cellular bioreactors offer unprecedented potential for studying human physiology, modelling disease, and developing nextâgeneration therapies. However, to fully harness their capabilities, robust and precise monitoring technologies are essential. Developing continuous, nonâinvasive insights into the dynamic behaviour of the bioengineered systems is crucial for maintaining control, ensuring reproducibility, and generating meaningful biological data.
In this session, we explore the scientific and technological challenges that currently limit realâtime monitoring of engineered biological platforms. We will highlight emerging innovations in detection strategies, functional readouts, and sensor integration, ranging from electrical and optical approaches to biochemical and mechanical sensing. Special attention will be given to how these technologies can be embedded directly into bioengineered systems, enabling highâresolution, realâtime assessments of tissue function, microenvironmental conditions, and cellular responses.
Join us to discuss the latest advances, identify unmet needs, and envision the future of integrated monitoring solutions that will drive the next leap forward in bioengineered system design and implementation.