Restoration of the anterior compartment after robotic total knee arthroplasty significantly improves functional outcome and range of motion at 1 year

Kafelov, Moussa; Batailler, Cécile; Servien, Elvire; Lustig, Sébastien

doi:10.1002/ksa.12337

Knee surg. sports traumatol. arthrosc.

2024

DOI: 10.1002/ksa.12337

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Restoration of the anterior compartment after robotic total knee arthroplasty significantly improves functional outcome and range of motion at 1 year

Moussa Kafelov,

Cécile Batailler,

Elvire Servien

et al.

Abstract: PurposeThis study aims to assess the functional outcomes based on restoring the anterior compartment after total knee arthroplasty (TKA).MethodsThis retrospective study included 96 primary TKAs performed between 2021 and 2022. Functional positioning principles were applied using an image‐based robotic‐assisted system. The mean age was 69.2 ± 7.9 years. Knee Society Score (KSS), Kujala score, Forgotten Joint Score (FJS) and knee flexion were collected preoperatively and at 1 year. The depth difference between n… Show more

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Cited by 3 publications

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Same same but different—Image‐based versus imageless robotic‐assisted total knee arthroplasty!

Hirschmann,

Avram,

Graichen

et al. 2024

J. exp. orthop.

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Robotic‐assisted total knee arthroplasty (RTKA) has gained widespread acceptance due to its demonstrated ability to improve surgical accuracy compared to conventional total knee arthroplasty (CTKA). While the precise impact of RTKA on postoperative patient‐reported outcome measures (PROMs) remains inconclusive, the increased accuracy in alignment and joint kinematics suggests potential improvements in patient satisfaction and functional outcomes. Two primary RTKA systems exist: image‐based, which uses preoperative CT scans for detailed 3D modeling, and image‐less, which relies on intra‐operative digitization of anatomical landmarks. Both systems aim to achieve accurate implant placement and soft‐tissue balancing, yet they differ in methodology and reliance on preoperative data.Despite RTKA's theoretical advantages, there is ongoing debate about whether accuracy alone is sufficient to achieve optimal postoperative outcomes, particularly concerning joint kinematics and alignment strategies. Literature reveals no significant difference in coronal plane alignment between image‐based and image‐less systems, though image‐less systems may be more prone to varus errors due to the reliance on intra‐articular landmarks. Additionally, image‐free systems may face challenges in replicating native knee anatomy, especially in the sagittal plane, leading to potential limitations in achieving ideal tibial slope reconstruction.The future of RTKA may lie in refining implant positioning strategies that minimize postoperative alterations to pre‐arthritic knee kinematics, particularly with standardized off‐the‐shelf implants. As robotic technology evolves, there is potential to enhance surgical outcomes by combining accuracy with personalized alignment approaches that better address individual patient anatomy. Further research is needed to assess the long‐term clinical benefits of RTKA and its capacity to improve patient‐specific functional outcomes.Level of evidencelevel 5

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Same same but different—Image‐based versus imageless robotic‐assisted total knee arthroplasty!

Hirschmann,

Avram,

Graichen

et al. 2024

J. exp. orthop.

View full text Add to dashboard Cite

show abstract

Optimizing the patellofemoral compartment in total knee arthroplasty: Is it time for dynamic assessment?

Koutserimpas,

Saffarini,

Bonnin

et al. 2024

Knee surg. sports traumatol. arthrosc.

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Despite improvements in implant design, surgical techniques and assistive technologies for total knee arthroplasty (TKA), anterior knee pain (AKP) remains frequently reported, even by satisfied patients. This persistent problem calls for better understanding and management of the patellofemoral or anterior compartment during surgery, just as the techniques and strategies deployed to optimize the flexion and extension spaces through personalized alignment, bone cuts and ligament balancing. Assistive technologies such as navigation and robotics provide new tools to manage this ‘third space’ through precise pre‐operative planning and dynamic intra‐operative assessment. Such endeavors must start with clear definitions of the ‘third space’, how it should be measured, what constitutes its ‘safe zone’, and how it affects outcomes. There are yet no established methods to evaluate the patellofemoral compartment, and no clear thresholds to define over‐ or under‐stuffing. Static assessment using lateral radiographs provides a limited understanding and depends considerably on flexion angle, while dynamic evaluation at multiple flexion angles or using intra‐operative computer or robotic‐assistance enables a broader perspective and solutions to manage patellar tracking and anterior offset. Future studies should investigate the impact of variations in anterior offset in TKA, define its safe zone, and understand the effects of of thresholds for over‐ or under‐stuffing. Experimental methods such as in‐vivo motion analysis and force sensors could elucidate the influence of anterior offset on flexion and extension biomechanics.

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Intraoperative patellar tracking assessment during image-based robotic-assisted total knee arthroplasty: technical note and reliability study

Batailler,

Greiner,

Rekik

et al. 2024

SICOT-J

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Introduction: Restoration of the anterior knee compartment is increasingly studied with the development of personalized surgery. However, evaluating the patellar tracking during the surgery is still subjective and at the surgeon’s discretion. This study aimed 1) to describe the assessment of the patellar tracking during robotic-assisted total knee arthroplasty (TKA), 2) to describe a new measurement technique for evaluating the evolution of this patellar tracking, and 3) to assess its reliability and repeatability. Method: This monocentric study assessed the evolution of patellar tracking for 20 robotic-assisted TKA. The sharp probe was used to perform patellar tracking in all the arcs of knee flexion before and after the bone cuts. The patella positioning was recorded every 10° of flexion between the full extension and 90° knee flexion and was assessed in the coronal and sagittal planes. For the measurements of the patellar tracking, we used a sagittal view and a coronal view of the knee on the MAKO software. From these two views, the difference between the patellar tracking before and after the bone cuts with the definitive implants was measured. Two independent reviewers performed the measurements to assess their reliability. To determine intraobserver variability, the first observer performed the measurements twice. Results: The mean age was 68.7 years old ± 5.2 [61; 75], the mean body mass index was 28.8 kg/m2 ± 4.2 [21.4; 36.2], the mean HKA angle was 176.3° ± 3.7° [174.1.4; 179.7]. The radiographic measurements showed very good to excellent intra-observer and inter-observer agreements (0.60 to 1.0). Conclusion: This new measurement technique assessed the evolution of patellar tracking after TKA with good inter and intra-observer reliability.

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Restoration of the anterior compartment after robotic total knee arthroplasty significantly improves functional outcome and range of motion at 1 year

Cited by 3 publications

References 31 publications

Same same but different—Image‐based versus imageless robotic‐assisted total knee arthroplasty!

Same same but different—Image‐based versus imageless robotic‐assisted total knee arthroplasty!

Optimizing the patellofemoral compartment in total knee arthroplasty: Is it time for dynamic assessment?

Intraoperative patellar tracking assessment during image-based robotic-assisted total knee arthroplasty: technical note and reliability study

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