Emphasis:
- robots for minimally invasive surgeries
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microgrippers and drills for surgical robots
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robotic nurses for isolated patient care
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soft robotic exoskeletons to replace lost capabilities
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soft elastomeric actuators for assistive robotics
Related News
NIBIB-funded researchers are working to make bladder surgeries better, tackling the issue from two vantage points: improving bladder function using a biodegradable construct that facilitates tissue regeneration, and enhancing patient monitoring by developing an implantable bladder sensor.
Researchers at North Carolina State University have demonstrated a new method that leverages artificial intelligence (AI) and computer simulations to train robotic exoskeletons to autonomously help users save energy while walking, running and climbing stairs. Source: NC State University
If there were an unofficial theme of SIR 2024, it might be artificial intelligence—what it is, when to use it and where it might go next. From dedicated sessions to keynote lectures, the possibility of AI and robotics in interventional radiology was a frequent discussion. According to Bruce J. Tromberg, AI is changing the way physicians practice medicine. Source: SIRToday
NIBIB-supported researchers have developed a smart nanoprobe designed to infiltrate prostate tumors and send back a signal using an optical imaging technique known as Raman spectroscopy. The new probe, evaluated in mice, has the potential to determine tumor aggressiveness and could also enable sequential monitoring of tumors during therapy to quickly determine if a treatment strategy is working.
NIBIB is marking the 10-year anniversary of a commercialization program that helps innovators bring their medical devices from the lab to the marketplace.