In recent years, advancements in surgical technology have driven the development of smarter and more precise medical equipment. Among these, the ultrasonic scalpel has become an essential tool for surgeons due to its exceptional performance in cutting soft tissues and achieving hemostasis. Compared to traditional electrosurgical devices, ultrasonic scalpels utilize high-frequency vibrations to minimize thermal damage to tissues, ensuring more accurate operations and speeding up postoperative recovery. With ongoing innovations, ultrasonic scalpels are steering modern surgeries towards being minimally invasive and intelligent, becoming indispensable in modern operating rooms.
Supported by key research projects under the National Ministry of Science and Technology and major technical initiatives from Shenzhen, Surgsci has leveraged deep technical expertise and adopted a full-stack independent R&D model to launch a new generation of AI-powered ultrasonic scalpel systems. These systems integrate intelligent algorithms with precise engineering to enhance surgical safety and operational efficiency, offering medical professionals an exceptional surgical experience.
The core host of the system is equipped with a high-performance Neural Processing Unit (NPU) with computing power of 3.6 TOPS, comparable to small AI workstations. The system incorporates five advanced AI algorithms ensuring precision and efficiency in surgery:
Tissue Adaptive Cutting Algorithm (tACA): Precisely adjusts and adapts to tissue requirements for high surgical standards.
Tissue Cutting Alert Algorithm (tCAA): Provides real-time alerts, reducing risks of tissue damage.
Metal Collision Brake Algorithm (mCBA): Instantly senses collisions, ensuring instrument safety.
Intelligent Overheat Alert Algorithm (iOTA): Monitors temperatures to prevent overheating.
Low-Temperature Cutting Control Algorithm (cCCA): Reduces heat damage, enhancing recovery speeds.
Additionally, the system supports four cutting modes: Standard™, Comforta™, Sport™, and Turbo™, optimized to meet diverse surgical needs. Each mode has undergone extensive clinical training and fine-tuning for personalized application in various scenarios.
Gun-type and Scissor-type Shears
Surgsci offers gun-type and scissor-type shears, catering to both laparoscopic and open surgeries. The clamp design ensures accurate cutting and stable gripping, making them suitable for precise dissection and tissue separation. Advanced heat conduction reduction technology minimizes tissue damage, enhancing surgical efficiency and safety for precision medicine.
Breaking Material Technology Barriers
Specialized TC4 Titanium Alloy for Ultrasonic Scalpels: Boasts superior fatigue performance and ultra-low ultrasonic attenuation, surpassing imported materials and achieving domestic substitution, breaking technological monopolies.
AI Low-Temperature Algorithm and Optimized Closed Clamp Design: Address misting issues, controlling vapor direction for clearer surgical vision and safer operations.
Non-Coating Anti-Adhesion Technology: Innovations beyond traditional PTFE coatings create titanium alloy anti-adhesion surfaces for improved durability and surgical experience.
Ultrasonic Scalpel Empowers Robotic Surgery Innovations
As laparoscopic robots become the future of surgeries, Surgsci has partnered with “Tuodao” to develop a 54cm long ultrasonic scalpel, tailored for Tuodao surgical robots, within just three months. This breakthrough has garnered widespread acclaim in clinical applications, marking a significant advancement in surgical robot technology. It highlights the necessity of deep integration between traditional medical device manufacturers and robotic technologies. Surgsci will continue advancing robotic surgical instruments and high-end energy platforms, exploring technological boundaries to innovate in the industry.
Invite Partnerships for a High-End Medical Future
Surgsci’s ultrasonic scalpel system has received MDR (EU Medical Device Regulation) certification, meeting international standards and successfully entering the global market. We aim to drive surgical innovations, offering advanced solutions for hospitals and surgeons. We invite national and international partners to share technological achievements. Contact us to explore innovative applications and empower precision minimally invasive surgeries.
