Introduction and aims

Recently many implants for ankle arthroplasty have been developed around the world, and especially some mobile bearing, three-component implants have good results. Nevertheless, at our institution fixed two-component, semi-constrained alumina ceramic total ankle arthroplasty (TAA) with TNK Ankle had been performed since 1991 and led to improved outcomes. We report clinical results and in vivo kinematic analyses for TNK Ankle.

We have performed two-component total ankle arthroplasty (TNK ankle) since 1991 and reported good clinical results. However, in vivo kinematics of this implant are not well understood. The purpose of this study was to measure three-dimensional kinematics of total ankle arthroplasty during non-weightbearing and weightbearing activities.

Forty-seven patients with a mean age of 71 years were enrolled. Preoperative diagnosis was osteoarthritis in 36 patients and rheumatoid arthritis in 11 patients, and the mean followup was 50 months. Radiographs were taken during nonweightbearing maximal dorsiflexion and plantarflexion, and weightbearing maximal dorsiflexion and plantarflexion. Three-dimensional kinematics were determined using 3D-2D model registration techniques. Anatomic coordinate systems were embedded in the tibial and talar implant models, and they were projected onto the radiographic image. Three-dimensional positions and orientations of the implants were determined by matching the silhouette of the models with the silhouette of the image.

From non-weightbearing dorsiflexion to plantarflexion, the talar implant showed 18.1, 0.3, and 1.2 degrees of plantarflexion, inversion, and internal rotation respectively. It also translated 0.8mm posteriorly. There was not significant difference between non-weightbearing and weightbearing kinematics except for the plantarflexion angle (p = 0.007). Posterior hinging, in which tibiotalar contact was seen at only the posterior edge of the talar implant, was observed in 16 patients at either non-weightbearing or weightbearing plantarflexion. There was significantly larger plantarflexion in patients with posterior hinging than patients without hinging (p < 0.001). Nine patients showed anterior hinging at maximum dorsiflexion, and 11 patients showed talar lift-off at maximum plantarflexion.

More than half of the patients showed anterior or posterior edge contact, which might cause excessive contact stress and lead to implant failure in the longer term. This phenomenon is due to the difference in rotation axis between the natural ankle and the implant ankle arthroplasty.

To investigate the limitation of proximal spherical metatarsal osteotomies for feet with severe hallux valgus, a follow-up study was performed on the patients whose preoperative hallux valgus angles were 40 degrees or more.

Forty-eight feet in 37 patients (11 male, 37 female, 60 years range 20 to 84 years) were investigated. Mean follow-up was 4 years and 1 month ranging from two to eight years. The spherical osteotomy, performed using a curved chisel, was devised for correcting not only varus deviation of the first metatarsal but also pronation and dorsiflexion. A distal soft tissue procedure was done at the same time. Twenty feet received combined operations for their combined deformities.

Eighty-one percent of the patients were satisfied with the results. However, six of twelve patients whose preoperative hallux valgus angles were 50 degrees or more were unsatisfactory. Mild metatarsalgia remained in eight feet at the follow-up, but no new metatarsalgia developed in any patients. The mean value of the hallux valgus angle improved from 46.6 degrees to 11.1 degrees. The patients whose preoperative hallux valgus angle were 50 degrees or more showed 16.4 degrees of average hallux valgus angle at follow-up. Their results varied widely and most of them had inadequate correction. The mean correction toward plantar flexion was 0.7 degrees. Average shortening of the first metatarsal was 3.4mm. The shortening of the first metatarsal had not caused worsening of metatarsalgia if adequate correction of hallux valgus was achieved and malunion toward dorsi-flexion was prevented.

The proximal spherical osteotomy could consistently achieve satisfactory results for the patients whose hallux valgus angles are under 50 degrees. However, the results were worse in feet with more severe deformities. Other procedures for hallux valgus or proper combined operations were necessary for such patients.