The OMNIBotics® Technology

OMNIBotics® robotic-assisted total knee replacement

Recover your lifestyle and wellbeing with a personalized, robotic-assisted total knee replacement.

OMNIBotics is the first knee replacement procedure to use robotic instrumentation to measure your knee’s ligament balance and stability. This helps surgeons to plan and deliver a consistently balanced knee1, helping patients regain knee function and quality of life2, with reduced pain during recovery3.

  • The OMNIBotics procedure has demonstrated an overall patient satisfaction rate above 97%, compared to 81% from traditional methods4.
  • OMNIBotics ligament balancing procedure has been shown to provide improved outcomes with less pain during recovery3.

The OMNIBotics procedure helps your surgeon create a personalized implant fit, to help surgeons align your knee for improved function and longevity5,6.

  • OMNIBotics uses advanced Bone MorphingTM technology to create a 3D model of your knee, used to create a personalized fit for your knee replacement.
  • No pre-operative imaging requirements eliminates the need for additional scheduling, radiation, and costs.

Corin’s total knee replacement implants are clinically proven across the national joint registries. Combined with the OMNIBotics robotic-assisted procedure, you can be assured that your surgeon is well equipped to provide best possible knee replacement solutions.

  • By using patented technology with robotic instrumentation, surgeons can achieve more consistent results with greater accuracy7.
  • OMNIBotics has been trusted by surgeons since 2010, used in over  35,000 procedures worldwide8.
omniBotics introduction

A Procedure Designed Specifically For You

With OMNIBotics, your surgeon uses patented OMNIBotics Bone Morphing™ technology, that quickly produces a 3D model of your knee at the start of your surgery. Your surgeon uses that model to plan bone resections and implant position, with accuracy that has been shown to be significantly better than other knee replacement procedures available. When the implant is in place, the computer confirms its precise placement and overall alignment.

omniBotics knee replacement

The OMNIBotics Advantage

A Difference

Achieving precise placement and alignment of the implant offers a number of key benefits, beginning with the way it feels. OMNIBotics total knee replacement is designed to replicate the anatomy of a healthy knee to provide movement that feels more natural. Improved alignment may also extend the life of the implant and improve its functionality.

Minimizing Recovery Time And Risk

OMNIBotics less invasive procedures, which may promote a quicker recovery, enables you to get back on your feet faster. Thanks to OMNIBotics Bone Morphing technology, there is no need for costly, time-consuming MRI or CAT scans, reducing the potential risk of additional radiation exposure.

omniBotics Corin

Am I A Good Candidate For OMNIBotics Total Knee Replacement?

Almost all patients who have been identified as candidates for total knee replacement could benefit from the OMNIBotics approach. Please speak to Dr. Brigham Redd if your symptoms are not responding to non-surgical solutions or if your pain is no longer controlled by medication.

References:

  1. Shalhoub S, et al. 2019. Imageless, robotic-assisted total knee arthroplasty combined with a robotic tensioning system can help predict and achieve accurate postoperative ligament balance. Arthroplasty Today 5 (2019) 334-340
  2. Keggi JM, Wakelin EA, Koenig JA, Lawrence JM, Randall AL, Ponder CE, DeClaire JH et al. Impact of intra- operative predictive ligament balance on post-operative balance and patient outcome in TKA: a prospective multicenter study. Arch Orthop Trauma Surg. 2021 Jul 13. doi: 10.1007/s00402-021-04043-3
  3. Wakelin EA, Shalhoub S, Lawrence JM, Keggi JM, DeClaire JH, Randall AL, Ponder CE, Koenig JA, Lyman S, Plaskos C (2021) Improved total knee arthroplasty pain outcome when joint gap targets are achieved throughout flexion. Knee Surgery, Sports Traumatology, Arthroscopy:1-9
  4. Keggi JM, Wakelin EA, Koenig JA, Lawrence JM, Randall AL, Ponder CE, DeClaire JH et al. Impact of intra- operative predictive ligament balance on post-operative balance and patient outcome in TKA: a prospective multicenter study. Arch Orthop Trauma Surg. 2021 Jul 13. doi: 10.1007/s00402-021-04043-3
  5. Rebal BA, et al. Imageless computer navigation in total knee arthroplasty provides superior short term functional outcomes: a meta-analysis. J Arthroplasty. 2014 May;29(5):938-44..
  6. de Steiger RN, Liu YL, Graves SE. Computer navigation for total knee arthroplasty reduces revision rate for patients less than sixty-five years of age. J Bone Joint Surg Am. 2015 Apr 15;97(8):635-42.
  7. Koulalis D, O’Loughlin PF, Plaskos C, Kendoff D, Pearle AD. “Adjustable cutting blocks for computer- navigated total knee arthroplasty a cadaver study”. J Arthroplasty. 2010 Aug;25(5):807-11.
  8. Data on file at Corin Group ltd.