<b><i>In vivo</i></b>patellar kinematics during total knee arthroplasty

Anglin, Carolyn; Kc, Ho; Jl, Briard; C, de Lambilly; Plaskos, Christopher; Nodwell, E; Stindel, Éric

doi:10.3109/10929080802594563

Cited by 34 publications

(28 citation statements)

References 54 publications

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“…Since the use of a bone screw to attach the marker array to the bone was considered undesirable due to the time required and the potential to cause fracture, other attachment methods should be sought out. Although patellar bone screws were used to attach marker arrays in kinematic studies [17][18][19] and are commonly used to attach marker arrays to other bones, concerns over the risk of fracture in thinner patellae would prevent widespread use. Use of a commercially available patellar marker array allowed us to test the feasibility of the system, but the attachment will need to be improved before clinical implementation.…”

Section: Discussionmentioning

confidence: 99%

Computer‐assisted patellar resection system: Development and insights

Wai

Lee

et al. 2011

Journal Orthopaedic Research

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Incorrect resection of the patella during total knee arthroplasty (TKA) can lead to anterior knee pain (AKP), patellar maltracking, patellofemoral impingement, patellar fracture, component loosening, and reduced range of motion. Computer-assisted surgery (CAS) systems for the tibia and femur improve cut accuracy, but no CAS system is available for patellar resection. We developed a system that included an optoelectronic localizer, marker arrays on the patella and instruments, and navigation software. Three users performed resections on artificial patellae mounted in a simulated surgical setup using five techniques (two CAS, three conventional), each repeated at least three times in randomized order. Computer-assisted patellar resection produced better or equal cut symmetry compared to conventional techniques, particularly superoinferiorly. Using CAS with a sawguide produced better results than using CAS freehand with an oscillating saw. This study showed the feasibility of computer-assisted patellar resection, which could lead to reduced pain and complications after TKA. The feedback provided could also make patellar CAS a valuable training tool. ß

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Section: Discussionmentioning

confidence: 99%

Computer‐assisted patellar resection system: Development and insights

Wai

Lee

et al. 2011

Journal Orthopaedic Research

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“…A drawback of the current system is that it uses a bone screw to attach the baseplate. Patellar bone screws have been used clinically in kinematic studies [16]; however, a non-invasive attachment mechanism, which is currently under development, would increase acceptance of the system.…”

Section: Discussionmentioning

confidence: 99%

“…A marker array was then attached to the baseplate such that the three markers faced the localizer when the patella was everted. The baseplate and marker array system had been used clinically with the Praxim system to study patellar kinematics [16]. At the end of each cadaveric experiment, the metal marker array base was replaced with an acrylic base having the same dimensions, such that the base appeared in the postoperative CT scans without creating metal artefacts.…”

Section: Methodsmentioning

confidence: 99%

“…The flat, arrow-shaped baseplate portion of the patellar marker array, with three shallow spikes on the bottom [11,16], was screwed securely into the bone using a screw 3 mm in diameter and 9 mm long positioned at the center of the patellar anterior surface. A marker array was then attached to the baseplate such that the three markers faced the localizer when the patella was everted.…”

Section: Methodsmentioning

confidence: 99%

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Computer-assisted patellar resection for total knee arthroplasty

Wai²,

Lee³

et al. 2011

Computer Aided Surgery

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Incorrect patellar resection during total knee arthroplasty can lead to anterior knee pain, patellar maltracking, patellofemoral impingement, patellar fracture, component loosening and reduced range of motion. A computer-assisted surgery (CAS) system was developed to improve the accuracy of the patellar cut. Twelve cadaveric knee specimens (6 pairs) were surgically prepared and the patella resected by two senior orthopaedic residents using either a conventional sawguide technique (right knee) or a computer-assisted sawguide technique (left knee). Multiple cuts and measurements were permitted for the conventional technique, to reflect the clinical situation, whereas only a single cut was permitted for the CAS technique. Prior training had been provided on artificial bones for both techniques. Custom marker arrays were mounted on the sawguide and patella. The user positioned the sawguide based on a real-time display that compared the current sawguide plane to the ideal resection. The resulting mediolateral and superoinferior resection angles and central thickness were measured from CT scans of the specimens, relative to the anterior surface of the patella. Both techniques resulted in symmetric cuts (<7 ). Repeatability in the mediolateral direction was better for the CAS technique than for the conventional technique ( p < 0.01). This study demonstrated that computer-assisted patellar resection is a feasible approach that can produce results equal to or better than those obtained with conventional techniques, even when the experimental conditions favor the conventional technique. Improvements in the CAS hardware could further improve the accuracy and usability of the system, resulting in reductions in postoperative complications. Patellar CAS could also serve as a valuable tool for feedback and training.

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“…Sowohl Veränderungen der Patellaverkippung und/oder lateralisation können potenti ell zu einem vorderen Knieschmerz oder einem Impingement nach endoprotheti scher Versorgung führen [3].…”

Section: Patellalateralisation Und -Verkippungunclassified