Abstract
Little is known about differences in the size and morphology of the right and left human tali. The present study demonstrates differences between right and left talar morphometric geometric profiles as fluctuating asymmetry in matched pairs of cadaveric specimens. In total, 24 tali were collected in this study. All eligible tali were systematically measured with a Vernier caliper and three-dimensional laser scanner, which provided data for further analysis regarding the talar morphometric geometric profiles. Data were calculated to demonstrate differences between the right and left talar profiles using a matched-pair method, including the general size of the talus. The average talar length was 53.5 mm, the average talar dome height was 31.2 mm, and the average talar body width was 41.3 mm. The average anterior trochlear width, middle trochlear width, posterior trochlear width, and trochlear length were 31.8, 31.2, 28.3, and 30.7 mm, respectively. Eleven matched pairs of intact tali were eligible for the matched-pair study. Paired t-tests showed significant differences in the talar dome height (P = 0.019), middle trochlear width (P = 0.027), and posterior trochlear width (P = 0.016) between the right and left tali. However, there were no significant differences in the surface area or volume between the right and left tali. Significant differences in the morphometric profile were found between the right and left matched pairs of tali. This basic information indicates that the profile of the contralateral talus may not be used as a single reference to reconstruct or duplicate the talus of interest in certain conditions such as talar prosthesis implantation or customized total ankle replacement.
Highlights
Knowledge and technology in the field of foot and ankle surgery have progressed rapidly in recent decades
Eleven matched pairs of intact tali were eligible for the matched-pair study
This basic information indicates that the profile of the contralateral talus may not be used as a single reference to reconstruct or duplicate the talus of interest in certain conditions such as talar prosthesis implantation or customized total ankle replacement
Summary
Knowledge and technology in the field of foot and ankle surgery have progressed rapidly in recent decades. This is evident by the advances in total ankle replacement surgery [1], replacement surgery using total artificial tali [2], and arthroscopic surgery [3] Such substantial technological progress in foot and ankle surgery has been made possible by the knowledge gained from morphological research in technologies such as computed tomography (CT) [4], threedimensional (3D) printing technology [5], and computer-aided design programs, which transform CT images into 3D images [2]. The present study was performed to demonstrate the morphometric geometric variations between the right and left tali in matched pairs of human cadaveric specimens. The present study demonstrates differences between right and left talar morphometric geometric profiles as fluctuating asymmetry in matched pairs of cadaveric specimens
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