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Fox News
7 hours ago
- Health
- Fox News
AI robot performs gallbladder surgery autonomously
Robots trained by watching expert surgeons can now perform complex operations with little human help. This breakthrough is happening right now. For the first time, an autonomous surgical robot completed a key phase of gallbladder removal on a lifelike patient. It worked independently and adapted in real time to unexpected challenges. Sign up for my FREE CyberGuy ReportGet my best tech tips, urgent security alerts and exclusive deals delivered straight to your inbox. Plus, you'll get instant access to my Ultimate Scam Survival Guide — free when you join my Unlike previous surgical robots that followed rigid, pre-programmed instructions, the new system, named Surgical Robot Transformer-Hierarchy (SRT-H), was trained using hours of surgery videos. Researchers at Johns Hopkins University fed the robot visual data and captions describing each step of the procedure. This approach allowed SRT-H to learn the sequence and nuances of gallbladder surgery, including identifying ducts and arteries, placing clips and making precise cuts. What sets SRT-H apart is its ability to respond to voice commands from the surgical team. For example, the robot can understand instructions like "grab the gallbladder head" or "move the left arm a bit to the left." This interactive feedback loop enables the robot to learn and self-correct, much like a surgical resident guided by a mentor. During trials, SRT-H demonstrated remarkable adaptability. It performed the 17-step gallbladder removal process with 100% accuracy, even when researchers altered its starting position or changed the appearance of tissues using blood-like dyes. The robot's performance matched that of skilled human surgeons, handling unexpected scenarios with composure and precision. "This advancement moves us from robots that can execute specific surgical tasks to robots that truly understand surgical procedures," said Axel Krieger, lead researcher at Johns Hopkins University. Traditional surgical robots have made procedures less invasive, but they still rely heavily on human control. The autonomous surgical robot represents a step forward by combining mechanical precision with the ability to adapt and make decisions in real time. This technology could one day lead to fully autonomous surgeries, potentially improving outcomes and expanding access to high-quality surgical care worldwide. The success of SRT-H in gallbladder surgery is just the beginning. Researchers plan to train the robot on a wider range of procedures and further enhance its capabilities. The ultimate goal is a robot that can perform entire surgeries autonomously, adapting to the unique anatomy and challenges of each patient. If you've ever faced a long wait for surgery or worried about human error in the operating room, this breakthrough could directly affect your care. Autonomous surgical robots like SRT-H promise faster procedures, fewer complications and better access, especially in rural or underserved areas. With their ability to learn from real surgeries and adjust in real time, these robots could support overworked surgical teams and help reduce burnout. For patients, that means more consistent outcomes and shorter recovery times. While fully autonomous surgery isn't available in U.S. hospitals just yet, the technology is moving fast. What happened in a research lab today could be part of your next hospital visit sooner than you think. The arrival of autonomous surgical robots is changing medicine fast. By combining artificial intelligence, machine learning and real-time feedback, these robots are ready to transform the operating room. As this technology improves, the gap between human skill and robotic precision will continue to shrink. This shift promises a future where surgery is safer and more efficient than ever before. If a robot can perform surgery with the skill of a top surgeon, would you trust an AI machine to operate on you or your loved ones? Let us know by writing us at Sign up for my FREE CyberGuy ReportGet my best tech tips, urgent security alerts and exclusive deals delivered straight to your inbox. Plus, you'll get instant access to my Ultimate Scam Survival Guide — free when you join my Copyright 2025 All rights reserved.
Sustainability Times
5 days ago
- Health
- Sustainability Times
'Not a Single Mistake': World's First Autonomous Surgical Robot Completes Complex Procedure With 100% Accuracy and Zero Human Intervention
IN A NUTSHELL 🤖 The SRT-H robot, developed at Johns Hopkins University, performed a successful gallbladder surgery with human-like precision. robot, developed at Johns Hopkins University, performed a successful gallbladder surgery with human-like precision. 📚 Trained on surgical videos, the robot can learn and adapt in real-time, enhancing its ability to handle complex procedures. in real-time, enhancing its ability to handle complex procedures. 🛠️ Equipped with machine learning technology similar to ChatGPT, SRT-H responds to voice commands and adjusts based on feedback. technology similar to ChatGPT, SRT-H responds to voice commands and adjusts based on feedback. 🔍 While not yet used on human patients, the robot's success in trials points to a future of autonomous surgery with minimal human oversight. In a groundbreaking development, an autonomous robot has performed a surgery with remarkable precision, moving us closer to an era where the only human presence in the operating room might be the patient. This achievement marks a significant milestone in medical robotics, showcasing the potential for machines to conduct complex procedures independently. The robot, trained by researchers at Johns Hopkins University, has demonstrated its ability to perform a gallbladder removal surgery with a level of skill comparable to experienced surgeons. This not only underscores the robot's capabilities but also highlights the transformative impact of artificial intelligence in healthcare. The Rise of SRT-H: A New Era in Surgical Robotics Named SRT-H (Surgical Robot Transformer-Hierarchy), this robot represents a leap beyond traditional surgical robots. Unlike its predecessors, SRT-H is not limited to executing pre-programmed tasks. Instead, it can respond and learn in real-time, adapting to the unpredictable nature of surgical procedures. This ability is a game-changer, as it allows the robot to navigate the complexities of surgery with a level of autonomy previously unattainable. The robot's training involved analyzing videos of surgical operations, enabling it to internalize and replicate the steps involved in a gallbladder removal procedure. During its trials, SRT-H successfully completed the surgery multiple times on a realistic human-like model, closely mimicking the intricacies of human tissue. This accomplishment is a testament to the robot's ability to perform tasks such as identifying ducts and arteries, applying clips, and using scissors with surgical precision. 'This Solar Ship Is the Future of River Travel,' Declares Visionary Engineer as 192 Sun-Powered Panels Drive the World's First Inland Marvel Understanding the Technology Behind SRT-H At the core of SRT-H's capabilities lies an advanced machine learning architecture, akin to the technology that powers AI systems like ChatGPT. This allows the robot to process voice commands from medical staff, making it a valuable assistant in the operating room. The robot's ability to adjust its actions based on real-time feedback is crucial for addressing unexpected challenges during surgery. The significance of this advancement is underscored by comments from medical roboticist Azwl Krieger, who highlighted the robot's transition from performing isolated tasks to truly understanding surgical procedures. This transformation is pivotal in creating autonomous surgical systems that are viable in real-world clinical settings, where unpredictability is the norm. 'This Ship Shouldn't Exist': Japan's Shocking Launch of World's First Dual LCO2 and Methanol Supercarrier Redefines Everything Real-World Implications and Future Directions While the SRT-H robot has achieved remarkable success in controlled environments, it is not yet ready for use on actual human patients. Nonetheless, its performance in trials provides a glimpse into the future of surgery, where robots could perform procedures with minimal human intervention. The development team envisions a future where SRT-H and similar robots are trained to conduct a wide range of surgeries, further reducing the need for human oversight. As Ji Woong 'Brian' Kim, a key figure in the development of SRT-H, noted, the reliability of AI models for surgical autonomy is now demonstrable. This progress opens up new possibilities for enhancing surgical precision and safety, potentially revolutionizing patient care by minimizing human error and improving outcomes. 'This Defies Everything We Knew': Sun-Powered Sponge Turns Saltwater Into Freshwater Without Using a Single Watt of Electricity Challenges and Ethical Considerations Despite the promising advancements, several challenges and ethical considerations remain. The transition from controlled models to live human surgeries involves significant scrutiny and regulatory approvals. Moreover, the reliance on autonomous systems raises questions about accountability and the role of human surgeons in the decision-making process. As the field of surgical robotics continues to evolve, it is crucial to address these ethical complexities while ensuring that technological advancements align with the principles of patient safety and care. The journey toward fully autonomous surgical robots will require ongoing collaboration between engineers, medical professionals, and ethicists to navigate these challenges responsibly. As we stand on the brink of a new era in healthcare, the question remains: How will the integration of autonomous robots in surgery reshape the landscape of medical practice, and what implications will it have for the future of patient care? This article is based on verified sources and supported by editorial technologies. Did you like it? 4.2/5 (24)
