
Precise
High sampling frequency locator /
High precision registration algorithm /
High precision robotic arm and control algorithm /
Sub-millimeter high precision osteotomy /
Efficient
One-click startup /
Efficient registration and matching /
AI image segmentation and reconstruction /
Safety
Bone resection boundary protection /
System safety design /
Robotic arm with medical safety certification /
Workflow Principle
Planningn
Import the patient's lower limb CT data into the TKA navigation system.
Perform 3D reconstruction after image segmentation to guide prosthesis selection, simulate installation, and plan the surgical procedure.
Registration
After exposure,perform bone registration and spatial alignment. The optical tracking system provides real-time tracking of patient movements.
During surgery,simulate the installation and measure gaps,adjusting the preoperative plan based on the condition of the soft tissue.
Osteotomy
Robotic arm positioning navigation, boundary protection,real-time simulation display of osteotomy status, accurately performing osteotomy according to planned positions.
Post-osteotomy plane accuracy verification, probe navigation guiding trial prosthesis installation, displaying lower limb alignment and gap balance conditions, providing real-time postoperative data assessment for doctors.
Workflow
01/Import Patient CT Data

02/Reconstruction

03/Preoperative planning

04/Surgical preparation

05/Skeletal registration

06/Gap measuremen

07/Precision osteotomy

08/Plane validation

09/Postoperative measurement

Core Technology

Multi-disciplinary Technology Integration
Interdisciplinary integration of medical andengineering fields, including dinical medicine, basic medicine,mathematics, physics, mechanical engineering, electrical engineering, computer science, and ergonomics, applying robotic techndlogy to surgical scenarios.

Boundary Protection
Equipped with boundary force feedback control, it provides an active soft tissue protecton mechanism to prevent ligament damage. lt also features a boundary adjustment function, allowing for intraop. erative adjustments to the bone resection amount based on real-time conditions.

Al Preoperative Planning
Based on preoperative CT scans, Al segmentation generates a 3D bone model, intelligently recommending prosthesis type, placement position, and orientation for a personalized surgical plan.

Gap Balance
After simulating installation pre-osteoto- my, displaying force lines and gaps allows doctors to further adjust preoperative planning based on actual patient condi. tions. Post-osteotomy, trial prosthesis installation allows for further measure ment, providing initial assessment of surgical outcomes.

Precision Registration
Using neural networks and lCP algorithms,high-precision spatial registration is achieved intraoperatively. Combining point and surface data, both coarse and fine registration are performed, enabing real-time visualization of the patient's 3D bone images and knee movement parameters.

Precision Osteotomy
Under 7-axis navigation quidance, the robotic arm is controlled on the planned plane with sub-millimeter positioning accuracy, it provides real-time precision compensation and visualizes accuracy status, effectively preventing excessive osteotomy.

High Flexion Total Knee System
EPS TKA Surgical Robotic System compatible with the SKII Total Knee System for enhanced surgical precision.
The SKII Total Knee System has over 10 years of clinical experience and more than 100,000 implants worldwide, ensuring reliable outcomes .Its high-flexion, multi-functional design is ideal for both primary and complex knee replacement procedures.
Product Features
1. Available in multiple specifications: PS, PS+, CR, and AS models.
2. Enhanced trochlear groove design with deeper, wider, longer, posteriorly inclined, and narrowed features.
3. Extended cam and elevated circular pillars to effectively prevent femorotibial dislocation.
4. Unique intercondylar polishing technology to maximize bone preservation.
5. Tibial component can be connected to augments and stem extention, addressing complex primary knee replacements, including severe varus and valgus deformities.


The EPS TKA Surgical Robotic System has successfully completed 138 clinical cases at top hospitals in China, including Peking University Third Hospital, demonstrating excellent clinical outcomes.

Workflow

Scan the code to activate the surgical process

Import the patient's surgical plan

Power on the module and calibration

Installation and registration

Adjustment and osteotomy

Intraoperative verification

Osteotomy result

Surgery completed
Total Knee&Total Hip
Preoperative Planning Software
First Step
Requirements for Hospital Submission of Hip or Knee X-ray Data.
The Second Step
JUST MED Receives X-rays.
The Third Step
System Imports and Measures X-rays.
Step Four
Preoperative Report Provided to Hospital.



