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HomeHealthBodyRevolutionizing MRI Efficiency: Self-Powered Sensor Detects Patient Movement in Real Time

Revolutionizing MRI Efficiency: Self-Powered Sensor Detects Patient Movement in Real Time

MRI scans are a common way to diagnose different ‍conditions, such as liver disease and⁣ brain tumors. However,⁢ patients have to stay still​ during the scan to avoid blurry images and the ⁤need for a new scan. A new⁣ prototype device has been developed to address this issue.​ It is a self-powered sensor that ⁣can ⁣detect movement and stop ​the MRI scan in real time, which⁤ improves the overall process‌ for both patients and technicians.

During an MRI⁤ scan, it is crucial for the patient to‌ remain completely still in order‍ to avoid any blurring of the images‌ that would‌ necessitate a new scan. However, a new prototype device featured in ACS Sensors may change this. The device is able to detect ⁤movement and immediately stop ‍an MRI scan, improving the process ‌for both patients and technicians.

For a‌ clear picture, ‍it is essential to identify patient movement as soon as it occurs, allowing the scan to be halted and a new one to be taken by the technician. This can be​ achieved through motion tracking using sensors.The MRI table requires sensors to be embedded into it, however, traditional magnetic materials cannot be used because they interfere ⁢with the MRI technology. To address this issue, the team of Li Tao, Zhiyi Wu, and colleagues developed a sensor using triboelectric nanogenerator (TENG) ⁣technology. The TENG sensor utilizes static electricity generated‌ by friction between polymers, eliminating the⁢ need for‌ metal or ‍magnetic components. This unique sensor aims to prevent motion artifacts⁣ in MRI⁣ machines. The TENG was created by layering two plastic films coated with graphite-based conductive ink.The sensor used a combination of plastic film, conductive ink, and silicone to ensure that it would not interfere with MRI scans. When the plastic film and conductive⁢ ink were pressed together, it created a current that could flow through a ⁤wire. This sensor was integrated into an‍ MRI table for patients to lay on, specifically under⁣ the head. During tests, the sensor successfully detected movements‌ when​ the patient turned their​ head or raised it off the table. This information ​was then‌ transmitted⁢ to a ‍computer, triggering an alert and pausing the MRI scan.Researchers suggest that their work has the potential to improve ​MRI scans by generating better images in a more efficient and ‌less frustrating manner ​for ⁤both patients and technicians.‌