Researchers from the University of Tokyo and an international team have developed a novel sensor inspired by the lateral line system in fish to measure the pulse of lab-grown 3D cardiac organoids. The device, called a biomechanical well plate, uses liquid-filled wells and a cantilever-based sensor to detect changes in air pressure caused by each heartbeat, sending live data wirelessly to an app. This technology offers a scalable and efficient method for monitoring multiple organoids simultaneously, improving drug screening and personalized medicine research. Traditional methods involved either 2D cell cultures or animal testing, which were less accurate. The innovation allows for high-throughput analysis, enabling faster and more detailed insights into heart development and disease.
Bias read (Center): The article presents scientific research without political implications. It focuses on technological advancement in biomedical engineering and does not take a stance on any political issue.


