Centre of Rotation of the Human Subtalar Joint Using Weight-Bearing Clinical Computed Tomography

Fernández, Marta Peña; Hoxha, Dorela; Chan, Oliver; Mordecai, Simon; Blunn, Gordon; Tozzi, Gianluca; Goldberg, Andy

doi:10.1038/s41598-020-57912-z

Cited by 34 publications

(24 citation statements)

References 63 publications

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“…Also, in planning a joint replacement, a sound knowledge of the joint morphology is needed with consideration of the interrelationship of both joint levels. 28 F I G U R E 3 Cylinder radii (mean and standard deviation) of the superior talar facet (TalusSF) and the posteroinferior talar facet (TalusIF). The dot indicates an outliers (>3 times the standard deviation from the mean value).…”

Section: Discussionmentioning

confidence: 99%

Difference in orientation of the talar articular facets between healthy ankle joints and ankle joints with chronic instability

Kleipool

Stufkens

Dahmen

et al. 2021

Journal Orthopaedic Research

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Since both the talocrural and subtalar joints can be involved in chronic ankle instability, the present study assessed the talar morphology as this bone is the key player between both joint levels. The 3D orientation and curvature of the superior and the posteroinferior facet between subjects with chronic ankle instability and healthy controls were compared. Hereto, the talus was segmented in the computed tomography images of a control group and a chronic ankle instability group, after which they were reconstructed to 3D surface models. A cylinder was fitted to the subchondral articulating surfaces. The axis of a cylinder represented the facet orientation, which was expressed by an inclination and deviation angle in a coordinate system based on the cylinder of the superior talar facet and the geometric principal axes of the subject's talus.The curvature of the surface was expressed as the radius of the cylinder. The results demonstrated no significant differences in the radius or deviation angle.However, the inclination angle of the posteroinferior talar facet was significantly more plantarly orientated (by 3.5°) in the chronic instability group (14.7 ± 3.1°) compared to the control group (11.2 ± 4.9°) (p < 0.05). In the coronal plane this corresponds to a valgus orientation of the posteroinferior talar facet relative to the talar dome. In conclusion, a more plantarly and valgus orientated posteroinferior talar facet may be associated to chronic ankle instability.

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Section: Discussionmentioning

confidence: 99%

Difference in orientation of the talar articular facets between healthy ankle joints and ankle joints with chronic instability

Kleipool

Stufkens

Dahmen

et al. 2021

Journal Orthopaedic Research

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“…24 Newer technology using weightbearing computed tomography to determine the center of rotation of the subtalar joint may obviate the limitations of biomechanical studies such as ours by allowing for a more direct and accurate means of assessing the effects of lateral column lengthening on both subtalar and transverse tarsal mechanics. 18…”

Section: Discussionmentioning

confidence: 99%

Effect of Lateral Column Lengthening on Subtalar Motion in a Cadaveric Model

et al. 2020

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Background: Although lengthening of the lateral column through a calcaneal neck osteotomy is an integral component of flatfoot reconstruction in younger patients with flexible planovalgus deformities, concern exists as to the effect of this intra-articular osteotomy on subtalar motion. The purpose of this study was to quantify the alterations in subtalar motion following lateral column lengthening (LCL). Methods: The subtalar motion of 14 fresh-frozen cadaveric feet was assessed using a 3-dimensional motion capture system and materials testing system (MTS). Following potting of the tibia and calcaneus, optic markers were placed into the tibia, calcaneus, and talus. The MTS was used to apply a rotational force across the subtalar joint to a torque of 5 Nm. Abduction/adduction, supination/pronation, and plantarflexion/dorsiflexion about the talus were recorded. Specimens then underwent LCL via a calcaneal neck osteotomy, which was maintained with a 12-mm porous titanium wedge. Repeat subtalar motion analysis was performed and compared to pre-LCL motion using a paired t test. Results: No statistically significant differences in subtalar abduction/adduction (10.9 vs 11.8 degrees, P = .48), supination/pronation (3.5 vs 2.7 degrees, P = .31), or plantarflexion/dorsiflexion (1.6 vs 1.0 degrees, P = .10) were identified following LCL. Conclusion: No significant changes in subtalar motion were observed following lateral column lengthening in this biomechanical cadaveric study. Clinical Relevance: Although these findings do not obviate concerns of clinical subtalar stiffness following lateral column lengthening for planovalgus deformity correction, they suggest that diminished postoperative subtalar motion, when it occurs, may be due to soft tissue scarring rather than alterations of joint anatomy.

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“…The fixed-axis rotating model has a simple and effective transmission structure. However, as the rotation axis of human joints is not constant [4]-i.e., it is polycentric-the monocentric rotation model causes inconsistencies between human limbs and the exoskeletons during movement. N-bar linkages are popular for facilitating path trajectories [5], and these models can replicate a specific motion of human limbs with a proper linkage design (Fig.…”

Section: Introductionmentioning

confidence: 99%

A General Arthropod Joint Model and its Applications in Modeling Human Robotic Joints

Liang

Teng

et al. 2021

IEEE Access

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Centre of Rotation of the Human Subtalar Joint Using Weight-Bearing Clinical Computed Tomography

Cited by 34 publications

References 63 publications

Difference in orientation of the talar articular facets between healthy ankle joints and ankle joints with chronic instability

Difference in orientation of the talar articular facets between healthy ankle joints and ankle joints with chronic instability

Effect of Lateral Column Lengthening on Subtalar Motion in a Cadaveric Model

A General Arthropod Joint Model and its Applications in Modeling Human Robotic Joints

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