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Seki H, Nozaki S, Ogihara N, Kokubo T, Nagura T. Morphological features of the non-affected side of the hindfoot in patients with unilateral varus ankle osteoarthritis. Ann Anat 2024; 252:152198. [PMID: 38101707 DOI: 10.1016/j.aanat.2023.152198] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/11/2023] [Revised: 11/19/2023] [Accepted: 12/06/2023] [Indexed: 12/17/2023]
Abstract
BACKGROUND The innate shape characteristics of the hindfoot bones alter the loading conditions of the foot and thus may be associated with an increased risk of developing varus ankle osteoarthritis (OA). This study aimed to clarify the innate morphological patterns of the hindfoot bones that may be associated with ankle OA by analyzing the differences between the bone morphology of the non-affected side of patients with unilateral varus ankle OA and that of healthy participants. METHODS In this case-control study, computed tomography images were used to develop three-dimensional models of three hindfoot bones (distal tibia with fibula, talus, and calcaneus) from 23 non-affected sides of patients with radiography-diagnosed unilateral ankle OA and 22 healthy control participants. Anatomical and sliding landmarks were placed on the surface of each bone, and the principal components (PCs) of shape variation among specimens were independently calculated for each bone, preserving homology between individuals. The PC modes representing 5% or more of the overall variation were statistically compared between the ankle OA and control groups. RESULTS Significant differences were identified between the OA and control groups in the fifth PC mode for the tibia with fibula (proportion of variance, 5.1%; p =.025), fifth PC mode for the talus (6.7%, p =.031), and third PC mode for the calcaneus (7.4%, p =.001). The hindfoot bones of the participants who developed ankle OA had the following innate morphological characteristics: the lateral malleolar articular surface of the fibula was shifted superiorly, tibial plafond was enlarged posteroinferiorly, posterior width of the talar trochlea was narrower, talonavicular articular surface of the talus was oriented more frontally, anterior-middle talocalcaneal articular surfaces of the talus were more medially shifted and those of the calcaneus were flatter, calcaneal sustentaculum tali was less protruding, and lateral plantar process of the calcaneus was more superiorly positioned. CONCLUSIONS These distinctive morphological alterations may increase the incidence and progression of varus ankle OA through aberrant anterior translation, internal rotation, and varus tilting of the talus.
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Affiliation(s)
- Hiroyuki Seki
- Department of Orthopaedics Surgery, Tachikawa Hospital, 4-2-22 Nishiki-cho, Tachikawa-shi, Tokyo 190-8531, Japan; Department of Orthopaedics Surgery, School of Medicine, Keio University, 35 Shinano-machi, Shinjuku-ku, Tokyo 160-8582, Japan; Department of Clinical Biomechanics, Keio University, 35 Shinano-machi, Shinjuku-ku, Tokyo 160-8582, Japan.
| | - Shuhei Nozaki
- Laboratory of Human Evolutionary Biomechanics, Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan
| | - Naomichi Ogihara
- Laboratory of Human Evolutionary Biomechanics, Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan.
| | - Tetsuro Kokubo
- Department of Orthopaedics Surgery, Tachikawa Hospital, 4-2-22 Nishiki-cho, Tachikawa-shi, Tokyo 190-8531, Japan
| | - Takeo Nagura
- Department of Orthopaedics Surgery, School of Medicine, Keio University, 35 Shinano-machi, Shinjuku-ku, Tokyo 160-8582, Japan; Department of Clinical Biomechanics, Keio University, 35 Shinano-machi, Shinjuku-ku, Tokyo 160-8582, Japan
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Khan N, Peterson AC, Aubert B, Morris A, Atkins PR, Lenz AL, Anderson AE, Elhabian SY. Statistical multi-level shape models for scalable modeling of multi-organ anatomies. Front Bioeng Biotechnol 2023; 11:1089113. [PMID: 36873362 PMCID: PMC9978224 DOI: 10.3389/fbioe.2023.1089113] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/03/2022] [Accepted: 02/06/2023] [Indexed: 02/18/2023] Open
Abstract
Statistical shape modeling is an indispensable tool in the quantitative analysis of anatomies. Particle-based shape modeling (PSM) is a state-of-the-art approach that enables the learning of population-level shape representation from medical imaging data (e.g., CT, MRI) and the associated 3D models of anatomy generated from them. PSM optimizes the placement of a dense set of landmarks (i.e., correspondence points) on a given shape cohort. PSM supports multi-organ modeling as a particular case of the conventional single-organ framework via a global statistical model, where multi-structure anatomy is considered as a single structure. However, global multi-organ models are not scalable for many organs, induce anatomical inconsistencies, and result in entangled shape statistics where modes of shape variation reflect both within- and between-organ variations. Hence, there is a need for an efficient modeling approach that can capture the inter-organ relations (i.e., pose variations) of the complex anatomy while simultaneously optimizing the morphological changes of each organ and capturing the population-level statistics. This paper leverages the PSM approach and proposes a new approach for correspondence-point optimization of multiple organs that overcomes these limitations. The central idea of multilevel component analysis, is that the shape statistics consists of two mutually orthogonal subspaces: the within-organ subspace and the between-organ subspace. We formulate the correspondence optimization objective using this generative model. We evaluate the proposed method using synthetic shape data and clinical data for articulated joint structures of the spine, foot and ankle, and hip joint.
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Affiliation(s)
- Nawazish Khan
- Scientific Computing and Imaging Institute, University of Utah, Salt Lake City, UT, United States
- School of Computing, University of Utah, Salt Lake City, UT, United States
- *Correspondence: Nawazish Khan ,
| | - Andrew C. Peterson
- Department of Orthopaedics, School of Medicine, University of Utah, Salt Lake City, UT, United States
| | | | - Alan Morris
- Scientific Computing and Imaging Institute, University of Utah, Salt Lake City, UT, United States
| | - Penny R. Atkins
- Scientific Computing and Imaging Institute, University of Utah, Salt Lake City, UT, United States
- Department of Orthopaedics, School of Medicine, University of Utah, Salt Lake City, UT, United States
| | - Amy L. Lenz
- Department of Orthopaedics, School of Medicine, University of Utah, Salt Lake City, UT, United States
| | - Andrew E. Anderson
- Scientific Computing and Imaging Institute, University of Utah, Salt Lake City, UT, United States
- Department of Orthopaedics, School of Medicine, University of Utah, Salt Lake City, UT, United States
| | - Shireen Y. Elhabian
- Scientific Computing and Imaging Institute, University of Utah, Salt Lake City, UT, United States
- School of Computing, University of Utah, Salt Lake City, UT, United States
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Ahn JY, Park CH, Jung JW, Lee WC. Plain Radiographs Underestimate Varus Deformity of the Tibial Plafond. J Foot Ankle Surg 2022; 61:836-840. [PMID: 34974979 DOI: 10.1053/j.jfas.2021.12.001] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 04/20/2020] [Revised: 04/01/2021] [Accepted: 12/01/2021] [Indexed: 02/08/2023]
Abstract
Understanding plain radiograph in association with 3-dimensional (3D) morphology of the ankle is essential for treatment about varus ankle osteoarthritis (OA). The aims of this study were to investigate whether the alignment of the tibial plafond as determined on plain radiograph reflected the alignment of the tibial plafond on computed tomography (CT) in varus ankle OA and whether the alignment of the tibial plafond changed as the OA progressed. The 3D CT and plain radiographs from 101 ankles with varus ankle OA were analyzed and compared with 40 ankles in control group. The tibial plafond was assessed in the coronal and sagittal planes using 3D CT. The medial angle between the vertical line and the tibial plafond was measured on 3 different coronal plane CT images which was anterior, middle and posterior area of the tibial plafond. The medial distal tibial angle on plain radiograph reflected the posterior area of the tibial plafond on CT. The amount of varus angulation on CT was larger in anterior and middle area of the tibial plafond than the posterior area. There was a difference in the degree of varus of the tibial plafond between control group and OA patients; however, there was no difference among patients in different stages of varus ankle OA. Weightbearing plain radiographs underestimate the varus deformity in anterior and middle area of the tibial plafond and there is no significant difference in deformity of the tibial plafond among patients in different stages of varus ankle OA.
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Affiliation(s)
- Ji-Yong Ahn
- Department of Orthopaedic Surgery, College of Medicine, The Catholic University of Korea, Seoul, South Korea
| | - Chul-Hyun Park
- Department of Orthopaedic Surgery, Yeungnam University Hospital, Daegu, South Korea
| | - Jae Woong Jung
- Department of Orthopaedic Surgery, College of Medicine, The Catholic University of Korea, Seoul, South Korea
| | - Woo-Chun Lee
- Seoul Foot and Ankle Center, Dubalo Orthopaedic Clinic, Seoul, South Korea.
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Flury A, Hasler J, Beeler S, Imhoff FB, Wirth SH, Viehöfer A. Talus morphology differs between flatfeet and controls, but its variety has no influence on extent of surgical deformity correction. Arch Orthop Trauma Surg 2022; 142:3103-3110. [PMID: 33970321 PMCID: PMC9522700 DOI: 10.1007/s00402-021-03925-w] [Citation(s) in RCA: 2] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 03/08/2021] [Accepted: 04/29/2021] [Indexed: 12/02/2022]
Abstract
BACKGROUND Progressive collapsing foot deformity (PCFD) is a complex 3-dimensional (3-D) deformity with varying degrees of hindfoot valgus, forefoot abduction, and midfoot varus. The first aim of this study was to perform a 3-D analysis of the talus morphology between symptomatic PCFD patients that underwent operative flatfoot correction and controls. The second aim was to investigate if there is an impact of individual talus morphology on the success of operative flatfoot correction. METHODS We reviewed all patients that underwent lateral calcaneal lengthening for correction of PCFD between 2008 and 2018 at our clinic. Radiographic flatfoot parameters on preoperative and postoperative radiographs were assessed. Additionally, 3-D surface models of the tali were generated using computed tomography (CT) data. The talus morphology of 44 flatfeet was compared to 3-D models of 50 controls without foot or ankle pain of any kind. RESULTS Groups were comparable regarding demographics. Talus morphology differed significantly between PCFD and controls in multiple aspects. There was a 2.6° increased plantar flexion (22.3° versus 26°; p = 0.02) and medial deviation (31.7° and 33.5°; p = 0.04) of the talar head in relation to the body in PCFD patients compared to controls. Moreover, PCFD were characterized by an increased valgus (difference of 4.6°; p = 0.01) alignment of the subtalar joint. Satisfactory correction was achieved in all cases, with an improvement of the talometatarsal-angle and the talonavicular uncoverage angle of 5.6° ± 9.7 (p = 0.02) and 9.9° ± 16.3 (p = 0.001), respectively. No statistically significant correlation was found between talus morphology and the correction achieved or loss of correction one year postoperatively. CONCLUSION The different morphological features mentioned above might be contributing or risk factors for progression to PCFD. However, despite the variety of talar morphology, which is different compared to controls, the surgical outcome of calcaneal lengthening osteotomy was not affected. LEVEL OF EVIDENCE III.
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Affiliation(s)
- Andreas Flury
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland.
| | - Julian Hasler
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland
| | - Silvan Beeler
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland
| | - Florian B Imhoff
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland
| | - Stephan H Wirth
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland
| | - Arndt Viehöfer
- Orthopaedic Department, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008, Zurich, Switzerland
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Peterson AC, Lisonbee RJ, Krähenbühl N, Saltzman CL, Barg A, Khan N, Elhabian SY, Lenz AL. Multi-level multi-domain statistical shape model of the subtalar, talonavicular, and calcaneocuboid joints. Front Bioeng Biotechnol 2022; 10:1056536. [PMID: 36545681 PMCID: PMC9760736 DOI: 10.3389/fbioe.2022.1056536] [Citation(s) in RCA: 2] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/28/2022] [Accepted: 11/03/2022] [Indexed: 12/12/2022] Open
Abstract
Traditionally, two-dimensional conventional radiographs have been the primary tool to measure the complex morphology of the foot and ankle. However, the subtalar, talonavicular, and calcaneocuboid joints are challenging to assess due to their bone morphology and locations within the ankle. Weightbearing computed tomography is a novel high-resolution volumetric imaging mechanism that allows detailed generation of 3D bone reconstructions. This study aimed to develop a multi-domain statistical shape model to assess morphologic and alignment variation of the subtalar, talonavicular, and calcaneocuboid joints across an asymptomatic population and calculate 3D joint measurements in a consistent weightbearing position. Specific joint measurements included joint space distance, congruence, and coverage. Noteworthy anatomical variation predominantly included the talus and calcaneus, specifically an inverse relationship regarding talar dome heightening and calcaneal shortening. While there was minimal navicular and cuboid shape variation, there were alignment variations within these joints; the most notable is the rotational aspect about the anterior-posterior axis. This study also found that multi-domain modeling may be able to predict joint space distance measurements within a population. Additionally, variation across a population of these four bones may be driven far more by morphology than by alignment variation based on all three joint measurements. These data are beneficial in furthering our understanding of joint-level morphology and alignment variants to guide advancements in ankle joint pathological care and operative treatments.
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Affiliation(s)
- Andrew C. Peterson
- Department of Orthopaedics, University of Utah, Salt Lake City, UT, United States
| | - Rich J. Lisonbee
- Department of Orthopaedics, University of Utah, Salt Lake City, UT, United States
| | | | - Charles L. Saltzman
- Department of Orthopaedics, University of Utah, Salt Lake City, UT, United States
| | - Alexej Barg
- Department of Orthopaedics, University of Utah, Salt Lake City, UT, United States
- University Medical Center Hamburg-Eppendorf, Hamburg, Germany
| | - Nawazish Khan
- School of Computing, College of Engineering, University of Utah, Salt Lake City, UT, United States
- Scientific Computing and Imaging Institute, College of Engineering, University of Utah, Salt Lake City, UT, United States
| | - Shireen Y. Elhabian
- School of Computing, College of Engineering, University of Utah, Salt Lake City, UT, United States
- Scientific Computing and Imaging Institute, College of Engineering, University of Utah, Salt Lake City, UT, United States
| | - Amy L. Lenz
- Department of Orthopaedics, University of Utah, Salt Lake City, UT, United States
- Department of Biomedical Engineering, College of Engineering, University of Utah, Salt Lake City, UT, United States
- Department of Mechanical Engineering, College of Engineering, University of Utah, Salt Lake City, UT, United States
- *Correspondence: Amy L. Lenz,
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Visualization and quantification of the degenerative pattern of the distal tibia and fibula in unilateral varus ankle osteoarthritis. Sci Rep 2021; 11:21628. [PMID: 34732780 PMCID: PMC8566530 DOI: 10.1038/s41598-021-00874-7] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/26/2021] [Accepted: 10/19/2021] [Indexed: 11/19/2022] Open
Abstract
The present study aimed to quantify and visualize the degenerative patterns of the distal tibia and fibula due to ankle osteoarthritis (OA). We analyzed differences in tibial and fibular surface deviation between sides of patients with unilateral varus ankle OA (medial talar tilt > 4°) by registering each surface model to the mirror image of corresponding bone. Computed tomography images of both feet of 33 patients (OA: 22, control: 11) were examined. Statistically significant surface depression of approximately 2.5 mm on the anterior articular surface of the medial malleolus, and surface elevation of approximately 1 mm on the anterodistal edge of the tibiofibular joint and the lateral malleolus were observed in OA patients. These bone degenerations were found to be correlated with those on the other side of the ankle joint, the medial margin of the talar trochlea and the lateral articular surface of the talus, respectively. In contrast, the amount of bone depression on the plafond was smaller than previously anticipated. Such quantitative information about stereotypical patterns of bone degeneration in ankle OA would contribute to better understanding of the development of ankle OA and possible therapeutic interventions.
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Lenz AL, Strobel MA, Anderson AM, Fial AV, MacWilliams BA, Krzak JJ, Kruger KM. Assignment of local coordinate systems and methods to calculate tibiotalar and subtalar kinematics: A systematic review. J Biomech 2021; 120:110344. [PMID: 33744722 DOI: 10.1016/j.jbiomech.2021.110344] [Citation(s) in RCA: 16] [Impact Index Per Article: 5.3] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/10/2020] [Revised: 02/18/2021] [Accepted: 02/22/2021] [Indexed: 12/14/2022]
Abstract
The introduction of biplane fluoroscopy has created the ability to evaluate in vivo motion, enabling six degree-of-freedom measurement of the tibiotalar and subtalar joints. Although the International Society of Biomechanics defines a standard method of assigning local coordinate systems for the ankle joint complex, standards for the tibiotalar and subtalar joints are lacking. The objective of this systematic review was to summarize and appraise the existing literature that (1) defined coordinate systems for the tibia, talus, and/or calcaneus or (2) assigned kinematic definitions for the tibiotalar and/or subtalar joints. A systematic literature search was developed with search results limited to English Language from 2006 through 2020. Articles were screened by two independent reviewers based on title and abstract. Methodological quality was evaluated using a modified assessment tool. Following screening, 52 articles were identified as having met inclusion criteria. Methodological assessment of these articles varied in quality from 61 to 97. Included articles adopted primary methods for defining coordinate systems that included: (1) anatomical coordinate system (ACS) based on individual bone landmarks and/or geometric shapes, (2) orthogonal principal axes, and (3) interactive closest point (ICP) registration. Common methods for calculating kinematics included: (1) joint coordinate system (JCS) to calculate rotation and translation, (2) Cardan/Euler sequences, and (3) inclination and deviation angles for helical angles. The methods each have strengths and weaknesses. This summarized knowledge should provide the basis for the foot and ankle biomechanics community to create an accepted standard for calculating and reporting tibiotalar and subtalar kinematics.
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Affiliation(s)
- Amy L Lenz
- Department of Orthopaedics, University of Utah, 590 Wakara Way, Salt Lake City, UT 84108, United States
| | - Marisa A Strobel
- Department of Biomedical Engineering, Marquette University, 1515 W Wisconsin Ave, Milwaukee, WI 53233, United States
| | - Abigail M Anderson
- Department of Biomedical Engineering, Marquette University, 1515 W Wisconsin Ave, Milwaukee, WI 53233, United States
| | - Alissa V Fial
- Research & Instruction Services, Marquette University, 1355 W. Wisconsin Ave, Milwaukee, WI 53201, United States
| | - Bruce A MacWilliams
- Department of Orthopaedics, University of Utah, 590 Wakara Way, Salt Lake City, UT 84108, United States; Motion Analysis Center, Shriners Hospitals for Children-Salt Lake City, 1275 Fairfax Rd., Salt Lake City, UT 84103, United States
| | - Joseph J Krzak
- Physical Therapy Program, Midwestern University, 555 31st St., Downers Grove, IL 60515, United States; Motion Analysis Center, Shriners Hospitals for Children-Chicago, 2211 N Oak Park Ave, Chicago, IL 60707, United States
| | - Karen M Kruger
- Department of Biomedical Engineering, Marquette University, 1515 W Wisconsin Ave, Milwaukee, WI 53233, United States; Motion Analysis Center, Shriners Hospitals for Children-Chicago, 2211 N Oak Park Ave, Chicago, IL 60707, United States.
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Eerdekens M, Deschamps K, Wuite S, Matricali GA. Loss of Mechanical Ankle Function Is Not Compensated by the Distal Foot Joints in Patients with Ankle Osteoarthritis. Clin Orthop Relat Res 2021; 479:105-115. [PMID: 32947288 PMCID: PMC7899609 DOI: 10.1097/corr.0000000000001443] [Citation(s) in RCA: 6] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 11/26/2019] [Accepted: 07/10/2020] [Indexed: 01/31/2023]
Abstract
BACKGROUND Patients with isolated ankle osteoarthritis (OA) often demonstrate disturbed ankle biomechanics during walking. Clinicians often believe that this triggers the distal foot joints to compensate these altered ankle biomechanics and that these foot joints are consequently subjected to degenerative joint diseases due to overuse. QUESTIONS/PURPOSES Do patients with isolated ankle OA differ from those without ankle OA in terms of (1) ankle and foot joint kinematics and (2) ankle and foot joint kinetics as measured using three-dimensional (3-D) gait analysis? (3) Do these patients demonstrate compensatory strategies in their Chopart, Lisfranc, or first metatarsophalangeal joints in terms of increased joint kinematic and kinetic outputs? METHODS Between 2015 and 2018, we treated 110 patients with unilateral ankle OA, and invited all of them to participate in the gait analysis laboratory. Of those, 47% (52) of patients did so, and of these, 16 patients met the inclusion criteria for this study, which were (1) diagnosis of unilateral ankle OA; (2) absence of radiographical signs of OA in the contralateral foot or lower limbs; (3) ability to walk at least 100 m without rest; and (4) being older than 18 years of age. A control group (n = 25) was recruited through intranet advertisements at the University Hospitals of Leuven. Participants were included if their age matched the age-range of the patient group and if they had no history of OA in any of the lower limb joints. Patients were slightly older (55.9 ± 11.2 years), with a slightly higher BMI (28 ± 6 kg/m2) than the control group participants (47.2 ± 4.4 years; p = 0.01 and 25 ± 3 kg/m2; p = 0.05). All participants underwent a 3-D gait analysis, during which a multisegment foot model was used to quantify the kinematic parameters (joint angles and ROM) and the kinetic parameters (rotational forces or moments), as well as power generation and absorption in the ankle, Chopart, Lisfranc, and first metatarsophalangeal joints during the stance phase of walking. Peak values were the maximum and minimum values of waveforms and the latter were time-normalized to 100% of the stance phase. RESULTS Regarding joint kinematics, patients demonstrated a sagittal plane ankle, Chopart, Lisfranc, and first metatarsophalangeal joint ROM of 11.4 ± 3.1°, 9.7 ± 2.7°, 8.6 ± 2.3° and 34.6 ± 8.1°, respectively, compared with 18.0 ± 2.7° (p < 0.001), 13.9 ± 3.2° (p < 0.001), 7.1 ± 2.0° (p = 0.046) and 38.1 ± 6.5° (p = 0.15), respectively, in the control group during the stance phase of walking. With regard to joint kinetics in the patient group, we found a mean decrease of 1.3 W/kg (95% CI confidence interval 1.0 to 1.6) (control group mean: 2.4 ± 0.4 W/kg, patient group mean: 1.1 ± 0.5 W/kg) and 0.8 W/kg (95% CI 0.4 to 1.0) (control group mean: 1.5 ± 0.3 W/kg, patient group mean: 0.7 ± 0.5 W/kg) of ankle (p < 0.001) and Chopart (p < 0.001) joint peak power generation. No changes in kinetic parameters (joint moment or power) were observed in any of the distal foot joints. CONCLUSION The findings of this study showed a decrease in ankle kinematics and kinetics of patients with isolated ankle OA during walking, whereas no change in kinematic or kinetic functions were observed in the distal foot joints, demonstrating that these do not compensate for the mechanical dysfunction of the ankle. CLINICAL RELEVANCE The current findings suggest that future experimental laboratory studies should look at whether tibiotalar joint fusion or total ankle replacement influence the biomechanical functioning of these distal joints.
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Affiliation(s)
- Maarten Eerdekens
- M. Eerdekens, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Heverlee, Belgium
- M. Eerdekens, K. Deschamps, UZ Leuven, Clinical Motion Analysis Laboratorium, Pellenberg, Belgium
- K. Deschamps, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Campus Brugge, Belgium
- S. Wuite, G. A. Matricali, UZ Leuven, Department of Orthopedics, Leuven, Belgium
- S. Wuite, G. A. Matricali, KU Leuven, Institute for Orthopaedic Research & Training, Leuven, Belgium
- G. A. Matricali, KU Leuven, Department of development and regeneration, Leuven, Belgium
| | - Kevin Deschamps
- M. Eerdekens, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Heverlee, Belgium
- M. Eerdekens, K. Deschamps, UZ Leuven, Clinical Motion Analysis Laboratorium, Pellenberg, Belgium
- K. Deschamps, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Campus Brugge, Belgium
- S. Wuite, G. A. Matricali, UZ Leuven, Department of Orthopedics, Leuven, Belgium
- S. Wuite, G. A. Matricali, KU Leuven, Institute for Orthopaedic Research & Training, Leuven, Belgium
- G. A. Matricali, KU Leuven, Department of development and regeneration, Leuven, Belgium
| | - Sander Wuite
- M. Eerdekens, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Heverlee, Belgium
- M. Eerdekens, K. Deschamps, UZ Leuven, Clinical Motion Analysis Laboratorium, Pellenberg, Belgium
- K. Deschamps, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Campus Brugge, Belgium
- S. Wuite, G. A. Matricali, UZ Leuven, Department of Orthopedics, Leuven, Belgium
- S. Wuite, G. A. Matricali, KU Leuven, Institute for Orthopaedic Research & Training, Leuven, Belgium
- G. A. Matricali, KU Leuven, Department of development and regeneration, Leuven, Belgium
| | - Giovanni A Matricali
- M. Eerdekens, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Heverlee, Belgium
- M. Eerdekens, K. Deschamps, UZ Leuven, Clinical Motion Analysis Laboratorium, Pellenberg, Belgium
- K. Deschamps, KU Leuven, Department of Rehabilitation Sciences, Musculoskeletal Rehabilitation Research Group, Campus Brugge, Belgium
- S. Wuite, G. A. Matricali, UZ Leuven, Department of Orthopedics, Leuven, Belgium
- S. Wuite, G. A. Matricali, KU Leuven, Institute for Orthopaedic Research & Training, Leuven, Belgium
- G. A. Matricali, KU Leuven, Department of development and regeneration, Leuven, Belgium
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Is Lower-limb Alignment Associated with Hindfoot Deformity in the Coronal Plane? A Weightbearing CT Analysis. Clin Orthop Relat Res 2020; 478:154-168. [PMID: 31809289 PMCID: PMC7000051 DOI: 10.1097/corr.0000000000001067] [Citation(s) in RCA: 39] [Impact Index Per Article: 9.8] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Indexed: 01/31/2023]
Abstract
BACKGROUND The goals of lower limb reconstruction are to restore alignment, to improve function, and to reduce pain. However, it remains unclear whether alignment of the lower limb and hindfoot are associated because an accurate assessment of hindfoot deformities has been limited by superposition on plain radiography. Consequently, surgeons often overlook hindfoot deformity when planning orthopaedic procedures of the lower limb. Therefore, we used weight-bearing CT to quantify hindfoot deformity related to lower limb alignment in the coronal plane. QUESTIONS/PURPOSES (1) Is lower-limb alignment different in varus than in valgus hindfoot deformities for patients with and without tibiotalar joint osteoarthritis? (2) Does a hindfoot deformity correlate with lower-limb alignment in patients with and without tibiotalar joint osteoarthritis? (3) Is joint line orientation different in varus than in valgus hindfoot deformities for patients with tibiotalar joint osteoarthritis? (4) Does a hindfoot deformity correlate with joint line orientation in patients with tibiotalar joint osteoarthritis? METHODS Between January 2015 and December 2017, one foot and ankle surgeon obtained weightbearing CT scans as second-line imaging for 184 patients with ankle and hindfoot disorders. In 69% (127 of 184 patients) of this cohort, a combined weightbearing CT and full-leg radiograph was performed when symptomatic hindfoot deformities were present. Of those, 85% (109 of 127 patients) with a median (range) age of 53 years (23 to 75) were confirmed eligible based on the inclusion and exclusion criteria of this retrospective comparative study. The Takakura classification was used to divide the cohort into patients with (n = 74) and without (n = 35) osteoarthritis of the tibiotalar joint. Lower-limb measurements, obtained from the full-leg radiographs, consisted of the mechanical tibiofemoral angle, mechanical tibia angle, and proximal tibial joint line angle. Weightbearing CT images were used to determine the hindfoot's alignment (mechanical hindfoot angle), the tibiotalar joint alignment (distal tibial joint line angle and talar tilt angle) and the subtalar joint alignment (subtalar vertical angle). These values were statistically assessed with an ANOVA and a pairwise comparison was subsequently performed with Tukey's adjustment. A linear regression analysis was performed using the Pearson correlation coefficient (r). A reliability analysis was performed using the intraclass correlation coefficient. RESULTS Lower limb alignment differed among patients with hindfoot deformity and among patients with or without tibiotalar joint osteoarthritis. In patients with tibiotalar joint osteoarthritis, we found knee valgus in presence of hindfoot varus deformity and knee varus in presence of hindfoot valgus deformity (mechanical tibiofemoral angle 0.3 ± 2.6° versus -1.8 ± 2.1°; p < 0.001; mechanical tibia angle -1.4 ± 2.2° versus -4.3 ± 1.9°; p < 0.001). Patients without tibiotalar joint osteoarthritis demonstrated knee varus in the presence of hindfoot varus deformity compared with knee valgus in presence of hindfoot valgus deformity (mechanical tibiofemoral angle -2.2 ± 2.2° versus 0.9 ± 2.4°; p < 0.001; mechanical tibia angle -1.8 ± 2.1° versus -4.3 ± 1.9°; p < 0.001). Patients with more valgus deformity in the hindfoot tended to have more tibiofemoral varus (r = -0.38) and tibial varus (r = -0.53), when tibiotalar joint osteoarthritis was present (p < 0.001). Conversely, patients with more valgus deformity in the hindfoot tended to have more tibiofemoral valgus (r = 0.4) and tibial valgus (r = 0.46), when tibiotalar joint osteoarthritis was absent (p < 0.001). The proximal joint line of the tibia had greater varus orientation in patients with a hindfoot valgus deformity compared with greater valgus orientation in patients with a hindfoot varus deformity (proximal tibial joint line angle 88.5 ± 2.0° versus 90.6 ± 2.2°; p < 0.05). Patients with more valgus deformity in the hindfoot tended to have more varus angulation of the proximal tibial joint line angle (r = 0.31; p < 0.05). CONCLUSIONS In patients with osteoarthritis of the tibiotalar joint, varus angulation of the knee was associated with hindfoot valgus deformity and valgus angulation of the knee was associated with hindfoot varus deformity. Patients without tibiotalar joint osteoarthritis exhibited the same deviation at the level of the knee and hindfoot. These distinct radiographic findings were most pronounced in the alignment of the tibia relative to the hindfoot deformity. This suggests a detailed examination of hindfoot alignment before knee deformity correction at the level of the proximal tibia, to avoid postoperative increase of pre-existing hindfoot deformity. Other differences detected between the radiographic parameters were less pronounced and varied within the subgroups. Future research could identify prospectively which of these parameters contain clinical relevance by progressing osteoarthritis or deformity and how they can be altered by corrective treatment. LEVEL OF EVIDENCE Level III, prognostic study.
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Visualization and quantification of the degenerative pattern of the talus in unilateral varus ankle osteoarthritis. Sci Rep 2019; 9:17438. [PMID: 31767944 PMCID: PMC6877636 DOI: 10.1038/s41598-019-53746-6] [Citation(s) in RCA: 8] [Impact Index Per Article: 1.6] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/30/2019] [Accepted: 10/22/2019] [Indexed: 02/07/2023] Open
Abstract
The aim of this study was to quantify and visualize the degenerative patterns of the talus in ankle osteoarthritis (OA). The differences in talar morphology between sides of patients with unilateral varus ankle OA (medial talar tilt > 4°) were compared. Computed tomography images of both feet of 35 patients (OA: 22 patients, control: 13 patients) were analyzed. Each surface model of the right and left tali was registered to the opposite talus via a mirror-image technique and an iterative closest point algorithm. The surface deviation between the two models was quantified and visualized by deviation color maps. The results quantitatively demonstrated that osteophytes are generated in the area under the antero-medial margin of the trochlea in OA tali. In severe OA tali, bone resorption of more than 2 mm in the medial portion of the trochlea, as well as a similar degree of osteophyte formation on the lateral surface, was also seen. Stereotypical patterns of degeneration occurring in OA tali were successfully visualized and quantified by left-right comparison of patients with unilateral ankle OA. Such information would contribute to better understanding of the development of ankle OA and preoperative planning of total ankle arthroplasty and arthrodesis.
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Moore ES, Kindig MW, McKearney DA, Telfer S, Sangeorzan BJ, Ledoux WR. Hind- and midfoot bone morphology varies with foot type and sex. J Orthop Res 2019; 37:744-759. [PMID: 30537297 DOI: 10.1002/jor.24197] [Citation(s) in RCA: 14] [Impact Index Per Article: 2.8] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 09/19/2018] [Accepted: 11/30/2018] [Indexed: 02/04/2023]
Abstract
Foot type has been associated with pain, injury, and altered gait mechanics. Morphological variations in foot bones due to foot type variation may impact surgical and therapeutic treatments. The purpose of this study was to utilize principal component analysis (PCA) to determine how morphology of the hind- and midfoot bones differs among foot types and sex. The calcaneus, talus, navicular, and cuboid were segmented using previously obtained computed tomography (CT) scans and converted to surface models. The CTs were sorted into four foot types-cavus, neutrally aligned, asymptomatic planus, and symptomatic planus. Morphometric shape analysis software (Geomorph) was used to perform a PCA to determine which components varied between foot types and between sexes. The calcaneus showed planus feet of both types to have calcanei that have decreased height and increased length compared to neutrally aligned feet. The talus demonstrated increased posterior mass for cavus feet compared to neutrally aligned feet. For the navicular, symptomatic planus had a more posteriorly positioned tuberosity and were wider than asymptomatic planus feet. The cuboid did not exhibit any differences between foot types. Sex differences, found only at the talus and navicular, were subtle. PCA is an objective technique that helped elucidate differences in bone morphology between foot types and sex without needing to determine the features of interest before comparing groups. Understanding these variations can help inform diagnosis of foot pathologies and surgical protocols as well as improve computer models of the foot. Published 2018. This article is a U.S. Government work and is in the public domain in the USA. J Orthop Res 9999:1-16, 2019.
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Affiliation(s)
- Erik S Moore
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington.,School of Medicine, University of Washington, Seattle, Washington
| | - Matthew W Kindig
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington
| | - Daniel A McKearney
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington.,School of Medicine, University of Washington, Seattle, Washington
| | - Scott Telfer
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington.,Department of Orthopaedics & Sports Medicine, University of Washington, Seattle, Washington
| | - Bruce J Sangeorzan
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington.,Department of Orthopaedics & Sports Medicine, University of Washington, Seattle, Washington
| | - William R Ledoux
- RR&D Center for Limb Loss and MoBility, VA Puget Sound, Seattle, Washington.,Department of Orthopaedics & Sports Medicine, University of Washington, Seattle, Washington.,Department of Mechanical Engineering, University of Washington, Seattle, Washington
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12
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Radius of curvature at the talocrural joint surface: inference of subject-specific kinematics. Surg Radiol Anat 2018; 41:53-64. [DOI: 10.1007/s00276-018-2098-x] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/19/2018] [Accepted: 07/18/2018] [Indexed: 11/25/2022]
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13
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Nelson AE, Golightly YM, Lateef S, Renner JB, Jordan JM, Aspden RM, Hillstrom H, Gregory JS. Cross-sectional associations between variations in ankle shape by statistical shape modeling, injury history, and race: the Johnston County Osteoarthritis Project. J Foot Ankle Res 2017; 10:34. [PMID: 28770007 PMCID: PMC5530536 DOI: 10.1186/s13047-017-0216-3] [Citation(s) in RCA: 8] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 01/25/2017] [Accepted: 07/17/2017] [Indexed: 02/07/2023] Open
Abstract
Background Injury is an important risk factor for osteoarthritis (OA), a highly prevalent and disabling joint disease. Joint shape is linked to OA, but the interplay of injury and joint shape and their combined role in OA, particularly at the ankle, is not well known. Therefore, we explored cross-sectional associations between ankle shape and injury in a large community-based cohort. Methods Ankles without radiographic OA were selected from the current data collection of the Johnston County OA Project. Ankles with self-reported prior injury were included as injury cases (n = 108) along with 1:1 randomly selected non-injured ankles. To define ankle shape, a 68 point model on weight-bearing lateral ankle radiographs was entered into a statistical shape model, producing a mean shape and a set of continuous variables (modes) representing variation in that shape. Nineteen modes, explaining 80% of shape variance, were simultaneously included in a logistic regression model with injury status as the dependent variable, adjusted for intra-person correlation, sex, race, body mass index (BMI), baseline OA radiographic grade, and baseline symptoms. Results A total of 194 participants (213 ankles) were included; mean age 71 years, BMI 30 kg/m2, 67% white and 71% women. Injured ankles were more often symptomatic and from whites. In a model adjusted only for intra-person correlation, associations were seen between injury status and modes 1, 6, 13, and 19. In a fully adjusted model, race strongly affected the estimate for mode 1 (which was no longer statistically significant). Conclusions This study showed variations in ankle shape and history of injury as well as with race. These novel findings may indicate a change in ankle morphology following injury, or that ankle morphology predisposes to injury, and suggest that ankle shape is a potentially important factor in the development of ankle OA.
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Affiliation(s)
- Amanda E Nelson
- Thurston Arthritis Research Center, University of North Carolina at Chapel Hill, 3300 Doc J. Thurston Building, Campus Box 7280, Chapel Hill, NC 27599-7280 USA.,University of North Carolina at Chapel Hill School of Medicine, Chapel Hill, NC USA
| | - Yvonne M Golightly
- Thurston Arthritis Research Center, University of North Carolina at Chapel Hill, 3300 Doc J. Thurston Building, Campus Box 7280, Chapel Hill, NC 27599-7280 USA.,Department of Epidemiology, Gillings School of Global Public Health, University of North Carolina at Chapel Hill, Chapel Hill, NC USA.,Injury Prevention Research Center University of North Carolina at Chapel Hill, Chapel Hill, NC USA
| | - Shahmeer Lateef
- University of North Carolina at Chapel Hill School of Medicine, Chapel Hill, NC USA
| | - Jordan B Renner
- Thurston Arthritis Research Center, University of North Carolina at Chapel Hill, 3300 Doc J. Thurston Building, Campus Box 7280, Chapel Hill, NC 27599-7280 USA.,Department of Radiology, University of North Carolina at Chapel Hill, Chapel Hill, NC USA
| | - Joanne M Jordan
- Thurston Arthritis Research Center, University of North Carolina at Chapel Hill, 3300 Doc J. Thurston Building, Campus Box 7280, Chapel Hill, NC 27599-7280 USA.,University of North Carolina at Chapel Hill School of Medicine, Chapel Hill, NC USA.,Department of Epidemiology, Gillings School of Global Public Health, University of North Carolina at Chapel Hill, Chapel Hill, NC USA.,Department of Orthopaedics, University of North Carolina at Chapel Hill, Chapel Hill, NC USA
| | - Richard M Aspden
- Arthritis and Musculoskeletal Medicine, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Aberdeen, UK
| | - Howard Hillstrom
- Leon Root Motion Analysis Laboratory, Hospital for Special Surgery, New York City, NY USA
| | - Jennifer S Gregory
- Arthritis and Musculoskeletal Medicine, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Aberdeen, UK
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Pradid J, Keawwatana W, Boonyang U, Tangbunsuk S. Biological properties and enzymatic degradation studies of clindamycin-loaded PLA/HAp microspheres prepared from crocodile bones. Polym Bull (Berl) 2017. [DOI: 10.1007/s00289-017-2006-2] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/04/2023]
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15
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Nozaki S, Watanabe K, Katayose M. Three-dimensional analysis of talar trochlea morphology: Implications for subject-specific kinematics of the talocrural joint. Clin Anat 2016; 29:1066-1074. [DOI: 10.1002/ca.22785] [Citation(s) in RCA: 16] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/19/2016] [Revised: 08/27/2016] [Accepted: 08/28/2016] [Indexed: 11/07/2022]
Affiliation(s)
- Shuhei Nozaki
- Department of Rehabilitation; Hokkaido Obihiro Kyokai Hospital; Obihiro Hokkaido Japan
- Second Division of Physical Therapy; School of Health Sciences, Sapporo Medical University; Sapporo Hokkaido Japan
| | - Kota Watanabe
- Second Division of Physical Therapy; School of Health Sciences, Sapporo Medical University; Sapporo Hokkaido Japan
| | - Masaki Katayose
- Second Division of Physical Therapy; School of Health Sciences, Sapporo Medical University; Sapporo Hokkaido Japan
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Christensen JC, Schuberth JM, Powell EG. Talolisthesis in end stage ankle arthrosis. Foot Ankle Surg 2016; 22:200-204. [PMID: 27502231 DOI: 10.1016/j.fas.2015.09.002] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 07/10/2015] [Revised: 09/06/2015] [Accepted: 09/10/2015] [Indexed: 02/04/2023]
Abstract
BACKGROUND Sagittal displacement in patients with end stage ankle arthritis has been described as the tibiotalar ratio (TTR). Yet the incidence, distribution and predictive factors of talolisthesis are unknown. METHODS The radiographs of 470 cases of ankle arthritis were compared with a control group of 49 normal ankles. The TTR was measured for both groups. Additional co-variables included the anterior and lateral distal tibial angles, and talar tilt. RESULTS The mean TTR in the arthritis cohort was 34.8+9.12 compared to the normal group of 34.1+2.62. Twenty-eight percent of the ankles had anterior displacement and twenty-eight percent had posterior talolisthesis, while forty-four percent had normal tibiotalar alignment. Multivariate linear regression revealed significant predictors of anterior distal tibial angle (p<0.0001) and talar tilt (p=0.0007) for abnormal TTR. CONCLUSION Sagittal displacement is common in end stage ankle arthritis and is affected by ligamentous laxity and joint morphology.
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Affiliation(s)
- Jeffrey C Christensen
- Attending Surgeon, Department of Orthopedics Swedish Medical Center, Seattle, WA. 3131 Nassau Street, Suite 101, Everett WA 98201.
| | - John M Schuberth
- Chief of Foot & Ankle Service, Kaiser Permanente, San Francisco, CA. Department of Orthopedic Surgery, 450 6(th) Avenue, San Francisco, CA 94118.
| | - Eric G Powell
- Attending Staff, Minor and James Medical Clinic 515 Minor Avenue, Suite 24 Seattle, WA 98122.
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Colin F, Horn Lang T, Zwicky L, Hintermann B, Knupp M. Subtalar joint configuration on weightbearing CT scan. Foot Ankle Int 2014; 35:1057-62. [PMID: 25015393 DOI: 10.1177/1071100714540890] [Citation(s) in RCA: 66] [Impact Index Per Article: 6.6] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Indexed: 02/01/2023]
Abstract
BACKGROUND Standard values that describe the morphology of the subtalar (ST) joint have previously been obtained from cadaveric studies or by using conventional unloaded radiographs. It is known that these parameters differ significantly from those measured in vivo and in loaded images, limiting the diagnostic value of the previously published morphological parameters in the literature. However, the morphology of the ST joint clearly affects its function. The objective of this study was to determine the morphology of the posterior facet of the ST joint using loaded computed tomography (CT) images and to describe the different configurations found in asymptomatic patients. METHODS A weightbearing CT scan was performed on 59 patients without any history of hindfoot and ankle pathology. The shape of the posterior facet and the subtalar vertical angle (SVA) were measured in 3 different coronal planes of the ST joint. RESULTS The posterior facet was concave in 88% and flat in 12%. The posterior facet was oriented in valgus in 90% and varus in 10% when measured in the middle coronal plane. However, the SVA changed depending on which coronal plane it was measured in. CONCLUSION We believe it is important to get a better insight into the morphological parameters of the ST joint. CLINICAL RELEVANCE Knowledge of subtalar joint morphology could help clarify why certain failures have occurred in reconstructive hindfoot surgery and thus might help plan the surgical procedure to reduce these failures in the future.
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Affiliation(s)
- Fabrice Colin
- Clinic of Orthopaedic & Traumatology Surgery, Nantes, France
| | | | - Lukas Zwicky
- Clinic of Orthopaedic Surgery, Liestal, Switzerland
| | | | - Markus Knupp
- Clinic of Orthopaedic Surgery, Liestal, Switzerland
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Louie PK, Sangeorzan BJ, Fassbind MJ, Ledoux WR. Talonavicular joint coverage and bone morphology between different foot types. J Orthop Res 2014; 32:958-66. [PMID: 24719271 DOI: 10.1002/jor.22612] [Citation(s) in RCA: 31] [Impact Index Per Article: 3.1] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 03/08/2013] [Accepted: 02/18/2014] [Indexed: 02/04/2023]
Abstract
This study explored three dimensional (3D) talonavicular joint (TNJ) coverage/orientation and bone morphology to reveal parameters that could classify and identify predispositions to cavus and planus feet. 3D models of 65 feet from 40 subjects were generated from computed tomography images classified as pes cavus, neutrally aligned, or asymptomatic/symptomatic pes planus. We calculated the talar and navicular overlap (TNJ coverage). We also measured orientation of the navicular, morphological parameters of the talus and navicular, and angular position of the talar head to body. Pes cavus showed significantly less talonavicular coverage (58 ± 2% talus and 86 ± 2% navicular) compared to asymptomatic pes planus (63 ± 2% and 95 ± 2%) and neutrally aligned feet (98 ± 2% navicular), and significantly more navicular dorsiflexion and adduction relative to the talus (p < 0.0083). The talar head in cavus feet was inverted relative to the body compared to planus feet (p < 0.0083). For symptomatic pes planus, significant abduction was measured for the navicular relative to the talus and the talar head was plantar flexed relative to the body (p < 0.0083). The talar head in planus feet was everted relative to the body compared to neutrally aligned feet. Both intrinsic (bone morphology) and extrinsic (bone position) differences exist in groups of feet described as cavus and planus.
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Affiliation(s)
- Philip K Louie
- RR&D Center of Excellence for Limb Loss Prevention and Prosthetic Engineering, VA Puget Sound, Seattle, Washington, 98108; School of Medicine, University of Washington, Seattle, Washington, 98195
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Marx RC, Mizel MS. What's new in foot and ankle surgery. J Bone Joint Surg Am 2014; 96:872-8. [PMID: 24875031 DOI: 10.2106/jbjs.n.00084] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Indexed: 02/01/2023]
Affiliation(s)
- Randall C Marx
- The San Antonio Orthopedic Group, 2829 Babcock Road, Suite #700, San Antonio, TX 78229
| | - Mark S Mizel
- P.O. Box 32577, Palm Beach Gardens, FL 33420. E-mail address:
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