Robotron Surgical Technologies

Robotron Technologies is bringing AI-powered live video analytics (patent pending) to orthopedics, starting with knee arthroscopy. The goal behind our real-time image segmentation technology is to identify tissue morphology, pathology, and disease states, paving the way for AI-driven treatment insights. With the knee as our starting point, we aim to expand this breakthrough to other orthopedic procedures—enhancing precision, decision-making, and patient outcomes across the field. #orthopedics #arthroscopy #autonomous #machinelearning #ai #surgery

Robotron Pioneers Real-Time AI-Driven Surgical Navigation 🏥🤖 Robotron is redefining the future of minimally invasive surgery with its latest technology, introducing a groundbreaking machine learning-based system for real-time anatomical segmentation. This innovative approach integrates an AI-powered encoder-decoder neural network into an endoscopic platform, allowing surgeons to see hidden anatomical structures with unprecedented clarity. Unlike traditional visualization tools, Robotron's technology processes intraoperative images in real-time, providing a continuous overlay of segmented anatomy, depth mapping, and robotic-assisted precision—transforming surgical decision-making and patient safety. By leveraging stereoscopic imaging, deep learning-based segmentation, and semi-autonomous robotic assistance, this system dramatically enhances surgical accuracy in spinal, orthopedic, and neurosurgical procedures. As part of Robotron IP, this cutting-edge technology sets a new industry standard for AI-assisted surgery, bridging the gap between human expertise and computational intelligence. Stay tuned as we continue to push the boundaries of robotic-assisted, data-driven surgery! 🔹 #RoboticSurgery 🔹 #Autonomous 🔹 #Endoscopy 🔹 #Neurosurgery 🔹 #SpineSurgery 🔹 #MachineLearning 🔹 #DeepLearning 🔹 #ArtificialIntelligence 🔹 #HealthcareAI

At Robotron Technologies, we're transforming the future of surgery with SpineHawk, our platform combining stereoscopic imaging and AI-driven processing (patent-pending). Using real-time data from dual cameras, SpineHawk delivers depth perception and 3D visualization, enabling precise autonomous anatomy recognition and advanced analytics. Why it Matters Enhanced Precision: Stereoscopic imaging provides a true 3D view, accurately identifying structures like nerve roots, neuroforamina, and disc spaces in real time. Advanced Analytics: SpineHawk’s 3D data enables analytics like topographical mapping, allowing surgeons to measure disc space volume, endplate distances, and surgical field topography, enhancing precision. Time Savings in Surgery: By automating anatomy recognition and offering actionable insights instantly, SpineHawk reduces time spent on manual visualization and estimation, streamlining procedures and improving efficiency without sacrificing accuracy. Improved Outcomes: Precise visualization combined with AI-driven analytics has the potential to lead to better decompression, implant placement, and tissue removal, directly impacting patient care. By integrating AI, stereoscopic imaging, and advanced analytics, SpineHawk isn’t just a technological innovation—it’s redefining how we approach precision and efficiency in the operating room. #AI #Neurosurgery #3D #visualization #autonomous #anatomy #Surgery #endoscopy #spine Regulatory Status: Not Cleared by the Food and Drug Administration for Use in the United States

One of the key components of fully #autonomous surgery, is the ability to recognize #anatomy in real-time from live camera feeds. At Robotron Technologies we are building fully autonomous #neuroanatomy recognition software from #endoscopic camera feeds. Here is our version 2.0 directly from the SpineHawk 1mm digital camera feed.

SpineHawk dissector has a camera 1mm digital camera and LEDs at its distal end, allowing surgeons to visualize and interact with tissues during spine surgery procedures. This innovative modification builds upon the Penfield instruments existing strengths, while introducing new capabilities. Robotron has developed artificial intelligence algorithms to process the imaging data from the live camera feed to provide detailed analytics. This patent pending technology is currently undergoing testing and is not at the moment FDA cleared. #neurosurgery #spine #spinesurgery #endoscopy #autonomous #machinelearning

At Robotron Technologies, we are proud to introduce our cutting-edge vision system designed specifically for #spine, #orthopedic and #neurosurgeons. Our innovative solution features a state-of-the-art 1mm camera and illumination system embedded within a medical instrument, providing unparalleled resolution that enhances surgical precision. With the ability to capture intricate details of anatomical structures such as the exposed endplates inside the disc space, our vision system empowers surgeons to visualize the spine and surrounding tissues with remarkable clarity. This advancement not only has the potential to improve surgical outcomes but also enhances the safety and effectiveness of procedures. As we continue to push the boundaries of medical technology, our commitment to enhancing surgical visibility and accuracy remains steadfast. We look forward to transforming spine surgery and setting new standards in patient care. #endoscopy #SpineSurgery #MedicalInnovation #Neurosurgery #HealthcareTechnology

Introducing the SpineHawk: our 1mm disposable camera and surgical instrument designed for spine and cranial procedures. This video, captured during a surgical skills lab, highlights the exceptional visualization SpineHawk provides during L4-L5 disc space preparation. SpineHawk does not require costly towers, irrigation systems, nor complex instrumentation. https://lnkd.in/eJQ7F7U9 #spine #surgery #robotics #endoscopy

One of the key components of fully autonomous surgery, is the ability to recognize anatomy in real-time from live camera feeds. At Robotron Technologies, we are building fully autonomous #neuroanatomy recognition software from #endoscopic camera feeds. Here is our version 1.10

We are building the most advanced spine segmentation software to enhance our robotic spine navigation and predictive analytics capabilities. V1.0 is very robust with more to come soon. #machinelearning, #spine, #surgery, #AI, #robotics