Patellofemoral arthroplasty

Last revised by Arlene Campos on 22 Jul 2024

Patellofemoral arthroplasties (PFA) are orthopedic procedures where the patella and femoral trochlear articular surface are replaced by prostheses 1. This differs from unicompartmental knee arthroplasties, which replace the medial or lateral articular surface of the knee 1. Globally, PFAs make up ~1% (range 0.6-1.1%) of primary knee arthroplasties 1,2.

The first PFA was proposed in 1955 by McKeever to avoid patellectomy in patients with isolated patellofemoral arthritis 3. There have been mainly two generations designs since the the first PFA. The latest designs aim to improve the patella tracking and reduce the revision rates.

Appropriate selection is important to reduce revision rates in PFA. Indications include 3:

Compared to TKA, patellofemoral arthroplasties have 4:

  • shorter surgical times, reduced blood loss, and faster recovery times

  • ligament preservation

  • improved function

  • more cost-effective

Contraindications include 3:

Relative contraindications include 3:

The first-generation protheses were an inlay design that replaced the trochlear cartilage only and left the subchondral bone intact 3. These initial designs had a high revision rate. Modern inlay designs have since been introduced which aim to recreate the complex anatomy and kinematics of the patellofemoral joint 5.

Second-generation prostheses have an onlay design, that uses an anterior femoral cut to replace the whole trochlear with a prothesis 3.

The two components are made of different materials:

  • patella component: cemented polyethylene button

  • femoral component: metallic anatomic conforming femoral component

Further design progression includes improving the anatomical conformity of the femoral component, and improving the trochlear flange and the patella button to improve the patellar tracking ref.

The level of constraint can be increased at either the femoral or patellar side:

  • trochlea: constraint can be increased by deepening the trochlear groove, changing the radius of curvature or changing lateral trochlear ridge 3

  • patella: constraint can be increased by having a more conforming patella button to the implanted trochlea; the trade-off is that it is less forgiving and more prone to malpositioning 6

This view may be helpful in reviewing the rotation of the femoral component and direction of the trochlear groove.

Pre-operatively, this view assesses patellar tilt, displacement and subluxation.

Post-operatively, this view can be used to ensure the operative plan was carried out and re-assess the parameters above.

Pre-operatively, this view assesses patellar height.

The pre- and post-operative views can be compared to look for overstuffing of the post-operative patella. 

Pre-operatively, a CT scan or an MRI may be used to help assess the patient’s Q-angle and their lower limb rotational profile. This may include assessing the tibial tubercle-trochlear groove (TT-TG) distance, rotational malalignment and patient bone stock 3.

Metal artifact reduction reconstruction can assist in answering the following clinical questions:

  • implant assessment, e.g. component rotation or overhang, polyethylene wear

  • assessment for fractures or microfractures

  • assessing for osteolysis, i.e. aseptic loosening, periprosthetic infection

Pre-operatively, an MRI can assess for trochlear dysplasia and the quality of intra-articular ligamentous and fibrocartilage structures.

Post-operatively, an MRI may be used to assess for a cause for post operative pain such as early tibiofemoral arthritis. The amount of information achievable may be limited due to metal artifact.

Bone scintigraphy may be useful in the case of a painful PFA to look for radiotracer uptake and assess for potential aseptic loosening.

Potential complications of PFA include 3:

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