MECANMED, a pioneer in China’s medical equipment industry since 2006, is redefining orthopedic care through innovation. As a certified one-stop medical equipment solution provider, we have earned the trust of over 5,000 healthcare institutions across Africa, Southeast Asia, and beyond. Recognized by the governments of Ghana, Zambia, and the Philippines, and certified by SGS, TUV, and BV, we proudly introduce a groundbreaking advancement: the Integrated Orthopedic Robotic Surgery and 3D C-Arm Solution.
This next-generation solution is engineered to address the limitations of traditional orthopedic surgery—eliminating manual inefficiencies, minimizing human error, and enhancing patient safety with robotic precision and intraoperative 3D imaging.
Traditional Orthopedic Surgery: Relies heavily on the surgeon’s skill and experience. Precision may vary due to human limitations in hand-eye coordination.
Robot-Assisted Orthopedic Surgery: Uses advanced imaging and robotic arms for sub-millimeter accuracy, reducing human error in bone cuts, implant placement, and alignment.
Traditional Orthopedic Surgery: Often requires larger incisions, leading to more tissue damage, blood loss, and longer recovery times.
Robot-Assisted Orthopedic Surgery: Typically minimally invasive, with smaller incisions, less trauma, reduced blood loss, and faster postoperative recovery.
Traditional Orthopedic Surgery: Preoperative planning depends on 2D imaging (X-rays, CT scans), with adjustments made during surgery.
Robot-Assisted Orthopedic Surgery: Utilizes 3D modeling and real-time navigation, allowing personalized surgical plans and intraoperative adjustments.
Traditional Orthopedic Surgery: Surgeons train for years to master techniques, but variability exists between practitioners.
Robot-Assisted Orthopedic Surgery: Requires additional training in robotic systems but standardizes techniques, reducing variability among surgeons.
Traditional Orthopedic Surgery: Higher risk of human error (e.g., misaligned implants, nerve damage).
Robot-Assisted Orthopedic Surgery: Lower complication rates in complex procedures (e.g., spinal fusion, knee/hip replacements).
1) Medical Imaging: The process begins with high-resolution CT or MRI scans of the patient’s anatomy.
2) Surgical Plan Customization: Specialized software guides surgeons in pre-surgical planning, assisting in evaluation and timely adjustment of surgical pathway design.
1) Optical Tracking: Before surgery, the robot is calibrated, and infrared cameras track reflective markers on surgical tools and the patient’s anatomy.
2) Bone Motion Tracking: Real-time feedback ensures the robot adjusts for any movement (e.g., breathing or accidental shifts).
The robotic arm moves to the target operating area based on the pre-operative plan and locks onto the surgical path using force feedback or optical navigation. The surgeon can then hold specialized surgical instruments (such as drills or screwdrivers) and operate along the planned path under the guidance and constraints of the robotic arm (preventing hand tremors or path deviation).
1) Force Sensors: Detect resistance to recognize the positioning deviation.
2) Dynamic Navigation: Continuously track patient movement in real time, dynamically monitor positional displacement, and implement immediate corrections.
Confirm implant placement via post-op X-rays.
Our latest-generation orthopedic surgical robot is designed to assist surgeons in performing complex procedures with unparalleled accuracy, fluency and convenience. It is applicable to multi-segment spinal surgical procedures, such as lumbar vertebrae, thoracic vertebrae, cervical vertebrae, and sacral vertebrae.
1) High system precision
The system precision can reach ≤ 0.7mm, reducing surgical risks, and improving surgical outcomes and patient recovery effects.
2) 3D trajectory registration
It provides sub-millimeter accuracy, real-time adjustments, streamlined workflow and efficiency, reduced radiation exposure, and personalized surgical planning.
3) Wireless transmission
Transmit signal through encrypted local area network. It has mainly four advantages:
① Eliminate “cable constraints” to enhance surgical maneuverability;
② Reducing “physical interference” during procedures to lower equipment failure risks;
③ Streamline pre-operative preparation and post-operative cleanup to improve surgical efficiency;
④ Support “multi-device collaboration” and “data sharing” to enable smarter surgeries.
Traditional C-arms are limited by 2D imaging and manual adjustments. Our orthopedic C-arms are equipped with the 3D intraoperative 3D imaging. It provides multi-dimensional diagnostic information to assist surgeons in intraoperative evaluation, such as fracture reduction and the size and position of internal screws, to facilitate better completion of the procedure.
1) Large dynamic flat panel detector
The 30cmx30cm (12 inches) large flat panel detector with 16-bit grayscale generates large, high-resolution 2D and 3D images, clearly depicting the position and contour of the implant.
2) Large 3D imaging area
It achieves an 18cm-edge cubic field of view, which can help capture a larger area ( full-segment cervical spine, full-segment lumbar spine, seven thoracic vertebrae, bilateral sacroiliac joints, femoral heads, and unilateral pelvis).
3) Easy-sterilized design
The cable is hidden between the C-arm and the base, making it easy to install a sterile cover and avoiding contamination caused by an exposed cable.The surface has antibacterial coating, which is convenient for medical staff to clean and sterilize.
By combining our orthopedic surgery robots and orthopedic C-arms into an integrated solution, we offer healthcare providers a comprehensive and efficient approach to orthopedic surgery.
Our orthopedic surgical robot and 3D orthopedic C-arms continuously, ensuring surgical instruments are tracked in perfect alignment with the patient’s anatomy.
During the operation, the 3D orthopedic C-arm provides real-time three-dimensional imaging of the surgical site. The orthopedic surgical robot, guided by both the predefined surgical plan and real-time imaging feedback, precisely positions and manipulates surgical instruments through its robotic arm system.
During the procedure, the 3D orthopedic C-arm can be used for repeated scans to verify the accuracy of surgical actions. If deviations are detected, the surgeon can promptly adjust the robotic system’s operation based on the real-time 3D imaging, ensuring the surgery proceeds as planned.
After completing the surgery, another 3D orthopedic C-arm scan is performed to obtain postoperative 3D images for surgical outcome evaluation, providing critical data for postoperative treatment and rehabilitation planning.
Our Integrated Orthopedic Robotic Surgery and 3D C-Arm Solution has been successfully applied in a wide range of orthopedic procedures, such as percutaneous vertebroplasty (PVP), percutaneous biopsy of sacral tumors, percutaneous pedicle screw fixation, and so on.
Percutaneous Vertebroplasty (PVP) – Uniform bone cement distribution.
Percutaneous Biopsy of Sacral Tumors – Precise tissue extraction.
Percutaneous Pedicle Screw Fixation – Precise screw placement.
At MECANMED, we don’t just provide technology—we deliver transformative surgical solutions that redefine orthopedic care. We cooperate with a lot of partner hospitals, universities and expert advisory groups. With these assistance, our solutions are continuously evolving, with our products incorporating increasingly advanced features.
Here’s why leading hospitals and surgeons trust our solutions:
1) Unmatched Precision – Our solution ensure sub-millimeter accuracy (≤0.7mm), minimizing human error and optimizing implant placement.
2) Uniform Platform: Our orthopedic surgical robot and 3D orthopedic C-arms use the same platform, quick and safe for data tranmission.
3) Proven Clinical Success: Our solution has been deployed in multiple tier-1 hospitals, with a cumulative surgical case volume exceeding 1,000 procedures..
4) Comprehensive Support: We have established a comprehensive in-house after-sales and clinical support team, committed to delivering timely responses.
We are committed to offering transformative medical equipment to health providers around the world. If you’re ready to take the next step towards a seamless and integrated orthopedic surgical robotic, our team is here to assist you.