Surgical robots are among the most groundbreaking innovations in modern medicine, offering increasingly sophisticated solutions to enhance the precision and efficiency of surgical procedures. Their development is made possible by the integration of advanced technologies such as mechatronics, artificial intelligence, augmented reality, and motion sensors. These systems enable millimetric surgical precision while reducing the risks of human error.

Initially introduced in the 2000s, surgical robots have rapidly evolved, making it possible to perform increasingly complex procedures across various surgical fields. Today, surgical robots have become indispensable tools in numerous medical specialties, delivering significant benefits to both surgeons and patients.

• In cardiovascular surgery, these systems allow for complex procedures such as coronary artery bypasses or valve repairs with minimal incision sizes. This greatly reduces surgical trauma, lowers the risk of infection, and speeds up patient recovery, while providing the surgeon with enhanced precision.
• In gynecological surgery, robots are used for delicate procedures such as hysterectomies or tumor removals, particularly in hard-to-reach areas of the pelvis. Their precision helps preserve surrounding healthy tissue, ensures better control of bleeding, and leads to faster post-operative recovery.
• In orthopedic surgery, robotic systems are employed in procedures such as hip or knee prosthesis implantation. They allow for millimetric adjustments of the implant, optimizing joint alignment and significantly improving both the functionality and lifespan of the prostheses.
• In urological surgery, robots are widely used for prostate cancer treatment, especially in robot-assisted prostatectomies. Thanks to high-definition 3D visualization and enhanced maneuverability, surgeons can operate delicately within a confined anatomical space while minimizing side effects such as incontinence or erectile dysfunction.

However, designing and manufacturing a surgical robot is a highly complex technological and regulatory challenge. These Class IIb or III medical devices combine electronics, mechatronics, embedded software, smart sensors, and intuitive interfaces, all within an environment constrained by strict sterilization, electrical safety, and electromagnetic compatibility requirements.

Designing a surgical robot requires extreme standards in terms of precision, reliability, and safety. From fine mechatronics to regulatory compliance, every detail matters.

At Tame-Care, we support manufacturers in the development, industrialization, and production of these critical devices.

Our Strengths for Your Surgical Robotics Projects

• Mastery of complex systems: precision mechanics, embedded electronics, critical software
• Compliance with the strictest standards (ISO 13485, CE, FDA…)
• Secure and traceable production chain adapted to Class IIb / III medical devices
• Rapid prototyping, co-engineering, and controlled scaling
• Full respect for confidentiality and intellectual property

Your expectations are ours. Let’s design the surgery of tomorrow, together.