| 24 | 2024 Annual Report especially fascinating—we aim to detect neural signals when someone merely thinks about moving their hand, even if no movement occurs. These signals are subtle, but we believe that with our technology it's possible,” he explains. In the future, Ozana envisions expanding this technology to other brain functions and different brain areas. The recent Iron Swords war has placed additional challenges on Ozana and his team, affecting both their research and daily lives. “In the beginning, our lab had to shut down,” he shares. Despite these disruptions, his commitment to research has remained unwavering. “I believe that this is a time to work even harder,” he says. “It’s important to continue our research, even in difficult times, because we’re working to improve the world. This drive to create, innovate, and help others defines our lab and our mission.” His team is working on non-invasive techniques to monitor intracranial pressure (ICP) in brain injury cases— an area where accurate, real-time data can make a life-saving difference. Ozana’s work also has potential applications for injured in war. His team is working on non-invasive Multimodal Speckle Sensing of Cerebral Blood Flow Combined with Magnetoencephalography for Simultaneous Optical and Electrical Brain Signals Monitoring
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