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Smarter,* more efficient** handheld robotics

Our latest technology features image-free smart mapping to build 3D models of the joint in surgery (without the need for CT/MRI scans), real-time planning for personalised surgery, handheld precision milling and intra-operative gap balancing.

Designed with a small OR footprint, the CORI Surgical System uses Real Intelligence software to offer broad capabilities and an expanding range of joint reconstruction indications,*** such as:

  • Total and partial knee surgery: Designed to achieve accuracy in bone resection, alignment and soft tissue balance.
  • Revision knee surgery: The first system indicated for robotic-assisted revision knee surgery. Image-free smart mapping eliminates potential for image distortion caused by in-situ components, with 3D joint models registering anatomy and bony defects after implant extraction.
  • Total hip surgery: RI.HIP NAVIGATION allows surgeons to assess pelvic tilt, providing a predicted view of the post-operative anteroposterior (AP) X-ray in surgery and digital measurement of leg length/offset changes.
  • RI.INSIGHTS: A data management system for procedural reports.

Product Features

Videos

Medical Education

Disclaimers

*Compared to conventional techniques.

**Compared to the NAVIO Surgical System and previous software versions. 29% faster resection demonstrated in total knee cadaver studies.

***Availability of supported applications or solutions may differ according to country or region. Revision knee arthroplasty currently only indicated in the USA. Please contact us for more information.

****While the ENGAGE CONCELOC porous surface may be comparable in porosity and pore size range to the CONCELOC Advanced Porous Titanium surface in Smith+Nephew Cementless Total Knee and Revision Acetabular Systems, other technological and performance characteristics, including biomechanical properties, have not been evaluated for equivalence and may not be presumed comparable.

For detailed product information, including indications for use, contraindications, precautions and warnings, please consult the product’s applicable Instructions for Use (IFU) prior to use.

Products may not be available in all markets because product availability is subject to the regulatory and/or medical practices in individual markets. Please contact your Smith+Nephew representative or distributor if you have questions about the availability of Smith+Nephew products in your area.

Citations

1. Smith+Nephew 2019. Internal report. TR1521.

2. Smith+Nephew 2020. Internal report. TR1700 REVA.

3. Gregori A, et al. International Society for Computer Assisted Orthopaedic Surgery (CAOS) 15th Annual Meeting;2015; Vancover, Canada.

4. Gregori A, et al. Handheld Precision Sculpting Tool for Unicondylar Knee Arthroplasty. A Clinical Review. Poster presented at: 15th EFORT Congress;4-6 June, 2014; London, UK.

5. Bollars P, et al. The Learning Curve and Alignment Assessment of an Image-Free Handheld Robot in TKA: The First Patient Series in Europe. Poster presented at: 19th Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery 2019; New York, USA.

6. Kopjar B, et al. NAVIO Robotic Assisted Surgical System for Total Knee Arthroplasty Using JOURNEY II Guided-Motion Total Knee System. Poster presented at: ISTA 2-5 October, 2019; Toronto, Canada.

7. Geller JA, et al. Rate of learning curve and alignment accuracy of an image-free handheld robot for total Knee Arthroplasty. European Knee Society Arthroplasty Conference; 2019; Valencia, Spain.

8. Mitra R, Jaramaz B, Nikou C, Kung C. Accuracy Assessment of a Novel Image-Free Handheld Robot for Knee Arthroplasty in Bi-Cruciate retaining knee and total knee replacement - A Cadaveric Study. World Arthroplasty Congress; 2018; Rome, Italy.

9. Kaper BP, Villa A. Accuracy and Precision of a Handheld Robotic-guided Distal Femoral Osteotomy in Robotic-assisted Total Knee Arthroplasty. European Knee Society Arthroplasty Conference; 2019; Valencia, Spain.

10. Smith+Nephew 2020. Internal report. ER0488 Rev. B.

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