Humanoid robots perform surgeries for first time in breakthrough UC San Diego trial
In a significant breakthrough for robotic medicine, researchers at the University of California San Diego have successfully used teleoperated humanoid robots to perform surgeries during
In a significant breakthrough for robotic medicine, researchers at the University of California San Diego have successfully used teleoperated humanoid robots to perform surgeries during a preclinical trial. The achievement, marks the first time humanoid robots have carried out complete surgical procedures, potentially opening the door to a future where robots assist—or even perform—operations in hospitals, disaster zones and remote communities. Here's what happened and why it matters. What did researchers achieve? Scientists and surgeons from UC San Diego completed two successful surgeries using humanoid robots on large non-primate mammals. The procedures included A human-robot team, where a humanoid robot performed a gallbladder removal while a human surgeon assisted. A robot-robot team, where two humanoid robots worked together to complete another surgery. Researchers described the trial as a proof of concept showing that humanoid robots can safely perform complex surgical tasks under human supervision. How do these robots work? Unlike autonomous robots, these machines are teleoperated, meaning a surgeon controls every movement remotely using specialized controllers.
The robot essentially mirrors the surgeon's hand movements in real time, allowing human expertise to guide every step of the operation. Researchers say this technology could eventually enable expert surgeons to operate on patients hundreds—or even thousands—of kilometres away. Why are humanoid robots different? Today's robotic surgery systems, such as those commonly found in advanced hospitals, are designed specifically for surgery. Humanoid robots offer several advantages They can walk and move like humans They can perform multiple types of tasks, not just surgery They can use conventional surgical instruments with minimal modifications They fit into existing operating rooms without major infrastructure changes The robots used in the study, nicknamed Surgie, stand about 5 feet tall and weigh roughly 60 pounds, making them significantly smaller than conventional robotic surgical systems, which can weigh around 1,800 pounds. Why is this important? Researchers believe humanoid robots could help solve one of healthcare's biggest challenges: a shortage of surgeons.
Many rural and underserved regions struggle to recruit specialists, resulting in Longer waiting times Reduced access to surgery Greater healthcare inequality By allowing experienced surgeons to operate remotely, hospitals in isolated areas could gain access to specialised procedures without needing a full surgical team on-site. The technology could also prove valuable in Rural hospitals Military battlefields Disaster relief operations Search-and-rescue missions Future space missions Are the robots replacing surgeons? No. Researchers emphasise that the technology is intended to assist surgeons, not replace them. Initially, humanoid robots are expected to Assist during operations Hold surgical instruments Retrieve equipment Help prepare and clean operating rooms Only later, as the technology matures, could they perform more complex procedures under continuous human control. What challenges remain? Although the surgeries were successful, the technology is still in its early stages. Researchers identified several hurdles Longer operation times The robots required repeated recalibration during surgery, making procedures significantly slower than existing robotic systems.
