Category: Ankle Arthritis; Ankle; Other Introduction/Purpose: Decision regarding ankle osteoarthritis (OA) management varies depending on the severity and distribution of the associated joint degeneration. Disease staging is typically based on subjective grading of appearance on conventional plain radiographs, with reported sub-par reproducibility and reliability. Weight-bearing computed tomography (WBCT) offers clinical advantages in the setting of OA, where thinning of the ankle cartilage, softening of the cartilage, and other deformities become more apparent under load. WBCT also provides a better geometric representation of the ankle and allows for more accurate measurements when compared to a conventional radiograph. The purpose of this study was to develop and describe computational methods to objectively quantify radiographic changes associated with ankle OA apparent on low-dose WBCT images. Methods: We analyzed two patients with ankle OA and one healthy control that had all undergone WBCT of the foot and ankle. The severity of OA in the ankle of each patient was scored using the Kellgren-Lawrence (KL) classification by plain weight-bearing radiographs. For each ankle, the subsequent analysis focused on a volume of interest (VOI) centered on the tibiotalar joint. Within the VOI, the initial computational analysis focused on measuring the 3D joint space width (JSW). Subsequent analyses utilized WBCT image intensity (Hounsfield Unit, or HU) profiles along lines perpendicular to the subchondral bone/cartilage interface of the distal tibia extending across the entire VOI. The HU intensity profiles were recorded, and graphical plots of the HU distributions were generated for each line. These plots were then used to calculate the HU contrast, a novel measure of the regional variation in bone density. Results: The average JSW was 3.89 mm for the healthy control ankle, 2.69 mm for the mildly arthritic ankle (KL 2), and 1.57 mm for the severely arthritic ankle (KL 4). The average HU contrast was 72.31 for the healthy control ankle, 62.69 for the mildly arthritic ankle, and 33.98 for the severely arthritic ankle. The use of four projections at different locations throughout the joint allowed us to visualize specifically which quadrants have reduced joint space width and contrast. One projection in the severely arthritic ankle had JSW and contrast values of 0 due to complete joint space loss along with projection 4, which corresponds in this case to the posterolateral part of the joint (Figure). Conclusion: We presented a novel computational assessment of ankle osteoarthritis using low-dose WBCT imaging. We were able to demonstrate differences between normal ankles and ankles with mild and severe OA using JSW and HU contrast measurements. This methodology represents an important step towards a more reliable OA assessment when compared to the current standard qualitative evaluations, potentially serving as a starting point for the development of a more robust osteoarthritis staging system. Additional studies are needed to assess the algorithm more rigorously over a variety of radiographic presentations.
Category: Ankle; Ankle Arthritis; Hindfoot; Other Introduction/Purpose: Total ankle replacement (TAR) has been shown as a viable surgical option to reduce pain, improve function, and preserve ankle joint range of motion in patients with Ankle osteoarthritis (AO). Standard anterior approach TAR capability in correcting deformities is already established by several studies. However, there is a paucity of literature evaluating patient outcomes as well as the potential to correct alignment using a lateral approach TAR. Therefore, the primary objective of this study was to assess the capability of lateral trans-fibular approach TAR in correcting coronal and sagittal plane deformity and secondarily to report the ability to improve patient-reported outcomes (PROs) following lateral TAR. Methods: This IRB-approved, retrospective comparative study included 14 consecutive patients that underwent lateral trans- fibular approach TAR for end-stage AO. Average age and BMI were 63.9 years (range 43-83) and 32.7 kg/m2 (SD 7.5). All patients had received pre- and post-operative weight-bearing CT imaging on the affected foot and ankle. Foot and Ankle Offset (FAO), Talar Tilt Angle (TTA), Hindfoot Moment Arm (HMA), and Lateral Talar Station (LTS) were performed. PROs were collected pre- and post-operatively at the latest clinical follow-up including: PROMIS Global Physical Health score, the Tampa Scale of Kinesiophobia (TSK), the European Foot and Ankle Society (EFAS) score, the Pain Catastrophizing Scale (PCS) and the Foot and Ankle Ability Measure (FAAM) Daily Living Score. One-way ANOVA and Wilcoxon tests were used for comparison at each interval time period. A multivariate regression analysis was then performed to evaluate the association between change in alignment and improvements of PROs. Results: Three of 14 patients (21.4%) underwent a concomitant osseous re-alignment procedure. At an average of 16.1 months (range 11 to 24), all patients demonstrated a significant deformity correction in measurements performed: FAO (7.73% - 3.63%, p=0.031), HMA (10.93mm - 5.10mm, p=0.037), TTA (7.9o - 1.5o, p=0.003), and LTS (5.25mm - 2.83mm, p=0.018). Four of the PROs demonstrated significant improvement postoperatively: TSK (42.7-34.5, p=0.012), PROMIS Global Physical Health (46.1- 54.5, p=0.011), EFAS (5-10.3, p=0.004), and FAAM (60.5-79.7, p=0.04). PROMIS was associated (p=0.0015) with optimization of FAO (p=0.00065) and LTS (p=0.00436), R2 of 0.98). Improvements in TSK were associated with changes in the HMA (p=0.0074), R2 of 0.66. Improvements in FAAM correlated (p=0.048) with improvements in FAO (p=0.023) and TTA (p=0.029), and an R2 of 0.78. Conclusion: In this retrospective comparative cohort study, the results suggest that the lateral trans-fibular TAR can correct different aspects of AO deformity. Clinical benefit was also demonstrated by the impacted PROs, particularly TSK, PROMIS Global Physical Health, EFAS, and FAAM Daily Living. Direct and strong correlations between deformity correction measurements and the significantly improved PROs were found. The obtained data might help surgeons when planning treatment and may serve as the basis for future comparative prospective studies.
Category: Midfoot/Forefoot; Ankle; Hindfoot Introduction/Purpose: Progressive Collapsing Foot Deformity (PCFD) comprises five independent deformities represented by five classes: hindfoot valgus (class A), midfoot abduction (class B), forefoot varus (class C), peritalar subluxation (class D) and ankle valgus (class E). Conservative treatment includes the use of corrective insoles and orthotics. Longitudinal arch support inflatable ankle-foot orthoses (IAFO) help control pain in PCFD patients. But we have no knowledge about the ability of IAFOs to correct deformities in PCFD. The aim of this prospective case-controlled study was to assess the ability of longitudinal arch support IAFOs to correct 3D overall PCFD alignment as well as the five different PCFD classes independently. We hypothesized that IAFOs will correct PCFD 3D overall alignment as well as the five independent classes. Methods: After IRB approval we enrolled 24 symptomatic flexible PCFD and 24 controls matched on age, sex, and BMI. Patients were scanned using Weight-Bearing CT with and without a longitudinal arch support IAFO. The Foot and Ankle Offset (FAO) was used to assess the 3D foot overall alignment. We measured the Hindfoot moment arm (HMA, Class A), the Talonavicular coverage angle (TNCA, Class B), the Meary's angle and the distance between the floor and the medial cuneiform (C1-floor) for the Class C and the middle facet uncoverage (MFunco, Class D). We did not have any Class E deformity in our PCFD cohort. Data normality was assessed by Shapiro-Wilk test. Comparisons used normality based paired T-tests or paired-Wilcoxon tests. Hypothesizing that the IAFOs would be two times less efficient than the surgery (Day et al.) in correcting the FAO in PCFD, the requisite number of subjects was 24 per group. Results: Control measurements were all significantly different than unbraced PCFD measurements confirming our PCFD selection process. Comparing PCFD without and with IAFO via FAO did not show significant improvement (respectively 6.6+/- 3.7% vs 5.5+/-4.2%, p=0.101). The HMA (8.8+/-5.8 vs 8.1+/-5.8, p=0.66), the TNCA (24.2+/-10.6 vs 21.9+/-9.7, p=0.44) and the MFunco (37+/-12% vs 31+/-18%, p=0.17) did not show any significant improvement when applying the IAFOs. The Meary's angle (17.6+/-7.2 vs 10.8+/-7.3, p=0.002) and the C1-floor (17.2+/-3.3mm vs 24.1+/-5.3mm, p<0.001) were significantly improved by the IAFOs. The only measurements which was normalized when compare the PCFD to the control group after applying the IAFO was the C1-floor (24.1+/-5.3mm in PCFD with IAFO vs 25.7+/-5.4mm in controls, p=0.31) Conclusion: In this prospective case-control study, we found that longitudinal arch support IAFOs were less than half as effective as surgery in correcting overall 3D deformity in PCFD. Likewise, IAFOs were not efficient in correcting hindfoot valgus (Class A), midfoot abduction (Class B) and peritalar subluxation (Class D) in PCFD. On the other, IAFOs were effective in correcting forefoot varus and medial longitudinal arch collapse (Class C). This study provides relevant information to guide medical treatment and longitudinal arch support IAFO prescription in PCFD.
Category: Ankle; Hindfoot; Midfoot/Forefoot; Other Introduction/Purpose: The same Consensus that proposed a new nomenclature for Flatfoot, Progressive Collapsing Foot Deformity (PCFD), also introduced a new classification system for the disease. The idea of staging was supplemented by the construction of a system combining deformity classes and its flexibilities, using clinical and radiographic signs. The capacity of the weight-bearing computed tomography (WBCT) in evaluating PCFD and all components of peritalar subluxation has been established. The objective of this study was to compare PCFD classifications performed utilizing clinical and conventional radiographs (CR) findings with classifications established using clinical and WBCT findings. We hypothesized that evaluations considering WBCT would significantly change PCFD classifications, portraying a different picture of the disease. Methods: This retrospective IRB-approved case-control diagnostic study evaluated 89 consecutive PCFD feet (84 patients) with different presentations of the disease. Three fellowship-trained foot and ankle surgeons performed chart reviews and CR evaluations, determining PCFD classifications for the studied subjects. After a two-week washout period, the sequence was randomized, and a new classification was executed using clinical data and WBCT assessment. One of the readers repeated the WBCT evaluation two weeks later for intrarater reliability purposes. Assessments included the presence or absence of classes, such as hindfoot valgus (A), midfoot abduction/sinus tarsi impingement (B), medial column instability (C), subtalar joint subluxation/subfibular impingement (D), and valgus of the ankle joint (E) as well as flexibility (1) and rigidity (2) of existing deformities. Fleiss kappa was used for interrater and Cohen's kappa for intrarater agreements. Differences between studied groups were determined by distribution comparison. Results: Mean BMI and age were 54.4 (+-17.1) and 33.6 (+-7.6) respectively. Interrater reliability was found to be moderate (0.55) and intrarater to be excellent (0.98). Evaluation using CR produced 22.8% of 1ABC, 13% of 1AC, 8,7% of 1ABCD and 7% of 2EABCD as most prevalent classifications. WBCT assessment found 31.5% of 1ABC, 11.2% of 1ABCD, 10.1% of 2ABCDE and 5.6% 1ABCDE. Class A was the most frequent component in CR (93.5%) and WBCT (94.5%). Class B had a higher prevalence in WBCT (94.38%) than in CR (71.7%) as well as Classes C (89.9% and 88.0%), D (44.9% and 29.3%) and E (31.5% and 23.9%). The percentage of combined flexible (1) and rigid (2) deformities was also higher in the WBCT evaluation (39.3% compared to 35.8%). Conclusion: As the new classification proposes the combination of different PCFD components to better support clinical decisions, proper identification of the classes is mandatory for a complete diagnosis. WBCT showed a different rate of deformity recognition, which increased the incidence of all classes, especially B (midfoot abduction/sinus tarsi impingement) and D (peritalar subluxation/subfibular impingement). An excellent intrarater agreement was found, which infers reliability of patient assessment combining clinical and WBCT evaluation. The obtained information could help providers to enhance comprehension of the disease and to supply patients with the most precise individual care.
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