BRAND ELEMENTS
Experience
The
Welcome to the OMNIBotics experience, here you can explore the platform using our step by step guide to plan a customised knee arthoplasty procedure. Are you ready? Press start to play!
Start
Instructions Follow the arrows on the side to see the next or the previous step in the TKA planning journey.
Next
Instructions Be sure to use the pop-ups to learn more about the functions and elements to consider while planning your TKA procedure
A full range of implant solutions with varying levels of insert constraint in both CR and PS femoral designs, with cemented and porous coated fixation.
Apex knee
It is available in a variety of implants - cruciate retaining, condylar stabilised and posterior stabilised to cater to patient needs and restore the joint function.
Unity Knee
Pick an implant of your choice from Corin's leading knee portfolio
Implant selection
OMNIBotics supports multiple implant systems and technique options.
Pop-ups for implants – (parentheses) indicates place holders (Implant Name) (Implant types: i.e. CR, PS, etc) (Brief description) (Survivorship/clinical data)
Surgeons can customize their surgical preferences and save their profile settings.
DeVere
Jones
Smith
Intraoperative Bone Morphing technique uses anatomic landmarks to create a 3D model in real time, which can be immediately validated before proceeding. Click the play button to see the sequence.
Insert description
Insert title
Predict the postoperative ligament tension before cuts are performed
Robotic Balancing
Click the play button to see the sequence.
Maximum flexion/extension is recorded in the case files for patient records.
Assessing range of motion and general stability. A wider green bar indicates general varus/valgus instability
Preoperative kinematics and laxity are recorded and intuitively displayed to help determine patient’s native kinematics.
The Predictive Balance technique uses a tibia-first approach, with neutral tibia resection to help with gap balancing. The Nanoblock is pinned to the tibia and cutting guide navigated to proper cut depths. Press play to see the tibia cut with nanoblock.
Gaps acquisitions and leg alignment through the range of motion are captured on the graph.
Leg balance and alignment graph
- Adjust force settings - Engage/pause BalanceBot
Personalization:
The BalanceBot is used to measure the knee’s existing gap balance throughout range of motion. Click the play button to see how the balance assessment is captured.
The femoral planning screen uses implant position to ‘predict’ resulting gap balance. The “Autobalance” feature recommends implant size and position, which surgeons can refine.
The OMNIBot is mounted to the patient’s femur and robotically assists with the femoral cuts. Click the play button to see the OMNIBot in action.
Gaps acquisitions and leg alignment through the range of motion are captured on the graph
Personalized balancing
The BalanceBot is once again used to measure gap balance with trials in place. Click the play button to see the BalanceBot in action.
Click here to see the BalanceBot in action
Explanation of curves and goalposts….
- Adjust pressure settings - Engage/pause BalanceBot
Personalised balancing
The final kinematics can be compared against the initial assessment, and stored in the patient's record.
Click here to see a full OMNIBotics procedure
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