Intraobserver Reliability Research Articles

CT-based five-segment classification in Freiberg's infarction: Evaluation of its intraobserver and interobserver reliability

BackgroundAccording to the location and frequency of osteonecrosis zone of metatarsal head, a map of osteonecrosis zone was drawn for Freiberg’s infarction. The objective of the current study is to develop a new computed tomography-based Five-Segment classification system for Freiberg's infarction and testify if it has good intra- and interobserver reliability or not. MethodsAccording to the location and its frequency of osteonecrosis zone of metatarsal head, a map of osteonecrosis zone was drawn. According to the distribution of osteonecrosis zones of metatarsal heads, we proposed the Five-Segment classification system. Four evaluators evaluated each radiography and computed tomography (CT) twice at 8-week intervals. To test the reproducibility of the Five-Segment classification system, the interobserver and intraobserver reliability of this classification system comparing with that of the Smillie classification by four observers using the kappa statistic. ResultsThe 80 cases were classified into five reproducible types by using Five-Segment classification system: type Ⅰ, two (2.5%) cases; type Ⅱ, ten (12.5%) cases; type Ⅲ, 42 (52.5) cases; type Ⅳ, 24 (30.0%) cases; type Ⅴ, two (2.5%) cases. The mean kappa value for interobserver reliability using Smillie classification systems was 0.562 (95% CI: 0.531–0.585), whereas the mean kappa value was 0.828 (95% CI: 0.801–0.852), by using Five-Segment classification; the mean kappa values for intraobserver reliability by using Smillie classification and Five-Segment classification were 0.777 (95% CI: 0.762–0.792) and 0.860 (95% CI: 0.843–0.895), respectively. ConclusionsThe new Five-Segment classification system demonstrated perfect interobserver and intraobserver agreement between evaluators in the management of Freiberg’s infarction. Prospective studies should be done to evaluate its prognostic value and utility in clinical practice. Level of evidenceLevel IV, retrospective

The Distal Fascicle of the Anterior Inferior Tibiofibular Ligament: A Potential Landmark for Lateral Ankle Ligament Reconstruction.

A reliable landmark and precise distances from the ligament attachments are needed for lateral ankle stabilization surgery. The distal fascicle of the anterior inferior tibiofibular ligament (AITFL) has been used to locate the anterior talofibular ligament (ATFL) or calcaneofibular ligament (CFL) centers on the fibula. However, there is no anatomic study to validate the distal fascicle of the AITFL as a landmark of lateral ankle ligament stabilization, and more importantly, the exact distances from the ATFL or CFL attachments to the distal fascicle of the AITFL are unknown. Sixteen frozen cadaveric specimens (8 paired specimens) with no previous history of ankle injury were used in this study. Whether the distal fascicle of AITFL was present in each specimen was confirmed. Then, the distances from the most distal insertion of the AITFL's distal fascicle to the footprint centers of the ATFL and CFL on the fibula were measured. All measurements were performed by 2 observers, and the intraobserver and interobserver reliabilities were analyzed by intraclass correlation coefficients (ICCs). The distal fascicle of the AITFL was found in all specimens (100%). The mean distance from the most distal insertion of the AITFL's distal fascicle to the footprint centers of the ATFL, CFL, and the intersection center of the 2 ligaments on the fibula was 6.0 to 7.1 mm, 11.5 to 13.2 mm, and 9.0 to 10.0 mm, respectively. Excellent interobserver and intraobserver agreement (all ICCs > 0.9, P < .01) was shown in the anatomic measurements of these distances. In this cadaveric study, we found that the distal fascicle was a constant structure of the AITFL in the lateral ankle. The distances from the most distal insertion of the AITFL's distal fascicle to the ligamentous footprint centers were reliable and may be used to identify the origins of the ATFL and CFL for lateral ankle ligament reconstruction. This anatomic study validates the AITFL's distal fascicle as a potential landmark and, more importantly, determines the range of distances from AITFL's distal fascicle to the attachment centers of lateral ankle ligaments by anatomic measurements. The data may be used to identify the ATFL and CFL for lateral ankle stabilization surgery and become particularly valuable for endoscopic or arthroscopic techniques.

Relationship Between Obesity and Medial Longitudinal Arch Bowing.

There have been reports about the association between obesity and the medial longitudinal arch (MLA) of foot. The purpose of this study is to investigate the change of various parameters related to the MLA according to obesity classification severity by the World Health Organization using weightbearing computed tomography (WBCT). WBCT data of the noninvolved side of patients presenting with unilateral foot and ankle problems or healthy candidates from September 2014 to October 2022 were extracted from a single referral hospital. Forty-four cases in each of 5 obesity classes were selected sequentially. Two orthopaedic surgeons measured foot and ankle offset, forefoot arch angle (FAA), hindfoot moment arm, percentage of uncoverage of the middle facet of the subtalar joint, talonavicular angle (TNA), navicular-medial cuneiform angle, medial cuneiform-first metatarsal angle, talus-first metatarsal angle (TMT1A), first tarsometatarsal subluxation (TMT1S), talonavicular coverage angle, navicular floor distance (NFD), and NFD per height. Positive values indicate plantar collapse. Intra- and interobserver reliabilities were assessed using intraclass correlation coefficients. One-way analysis of variance tests were performed for parametric data with equal variances, and Welch's test for unequal variances. Kruskal-Wallis test was performed for nonparametric data. Post hoc analysis was performed for statistically significant parameters. Correlation analysis between body mass index (BMI) and 12 parameters were performed using Pearson test. Intraobserver and interobserver reliability were excellent, except for TMT1S. The TNA and TMT1A showed a statistically significant difference. FAA (r = -0.2), TNA (r = 0.182), TMT1A (r = 0.296), and NFD (r = -0.173) showed a statistically significant correlation with BMI. In nonsymptomatic feet, we found that the talonavicular joint, as measured by the TNA, to be influenced by obesity classification. Obesity and increased BMI was associated with a negative influence on the MLA. Level III, retrospective cohort study.

Can we separately measure glenoid vs. humeral lateralization and distalization in reverse shoulder arthroplasty?

Lateralization and distalization in reverse shoulder arthroplasty (RSA) can be measured on anteroposterior (AP) radiographs using 2 previously described angles: lateralization shoulder angle (LSA) and distalization shoulder angle (DSA). However, these 2 angles measure global lateralization and distalization but do not allow to differentiate how much lateralization or distalization are attributable to the glenoid and the humerus. We hypothesized that new angles could allow us to separately measure glenoid vs. humeral lateralization and distalization. A more precise understanding of independent glenoid and humeral contributions to lateralization and distalization may be beneficial in subsequent clinical research. Retrospective analysis of postoperative AP radiographs of 100 patients who underwent primary RSA for cuff-tear arthropathy, massive cuff tear, or glenohumeral osteoarthritis were analyzed. The new angles that we proposed use well-known bony landmarks (the acromion, glenoid, and humerus) and the most lateral point of the glenosphere, which we termed the "glenoid pivot point" (GPP). For lateralization, we used the GPP to split LSA into 2 new angles: glenoid lateralization angle (GLA) and humeral lateralization angle (HLA). For distalization, we introduced the modified distalization shoulder angle (mDSA) that can also be split into 2 new angles: glenoid distalization angle (GDA) and humeral distalization angle (HDA). Three orthopedic surgeons measured the new angles, using the online tool Tyche. Mean values with overall and individual standard deviations as well as intraclass correlation coefficients (ICCs) were calculated. Because the angles form a triangle, the following equations can be made: LSA=GLA+HLA, and mDSA=GDA+HDA. All angles showed excellent inter- and intraobserver reliability (ICC=0.92-0.97) with low means of individual standard deviations that indicate a precision of 2° for each angle. Use of the most lateral part of the glenosphere (termed glenoid pivot point) allows us to separately measure glenoid vs. humeral lateralization and distalization. The 4 new angles (HLA, GLA, GDA, HDA) described in the present study can be used on true AP radiographs, routinely obtained after shoulder replacement, and the measured angles may be used with all types of reverse prostheses available.

The influence of clinical experience on reliable evaluation of pharyngeal and laryngeal lesions: comparison of high-definition laryngoscopy using narrow band imaging with fibre-optic laryngoscopy.

Fibre-optic laryngoscopy is still widely used in daily clinical practice; however, high-definition laryngoscopy using narrow band imaging could be more reliable in characterising pharyngeal and laryngeal lesions. Endoscopic videos were assessed in a tertiary referral hospital by 12 observers with different levels of clinical experience. Thirty pairs of high-definition laryngoscopy with narrow band imaging and fibre-optic laryngoscopy videos were judged twice, with an interval of two to four weeks, in a random order. Inter- and intra-observer reliability, sensitivity and specificity were calculated in terms of detecting a malignant lesion and a specific histological entity, for beginners, trained observers and experts. Using high-definition laryngoscopy with narrow band imaging, inter-observer reliability for detecting malignant lesions increased from moderate to substantial in trained observers and experts (high-definition laryngoscopy with narrow band imaging κ = 0.66 and κ = 0.77 vs fibre-optic laryngoscopy κ = 0.51 and κ = 0.56, for trained observers and experts respectively) and sensitivity increased by 16 per cent. Inter-observer reliability increased with the level of clinical experience, especially when using high-definition laryngoscopy with narrow band imaging.

CULTURAL ADAPTATION AND CONTENT VALIDITY OF MEDICAL ADHESIVE-RELATED SKIN INJURY FOR PORTUGUESE IN BRAZIL

Objective: To culturally adapt the Medical Adhesive Related Skin Injury (MARSI) classification instrument to the Brazilian Portuguese and test the content validity of the adapted version. Method: Three phases comprised the cultural adaptation: translation, evaluation by a committee of judges composed of ten stomal therapists and back-translation. The project was approved by the Research Ethics Committee of the University of São Paulo. Results: A Portuguese version of the instrument was obtained after translation, which was guided by the Likert scale. The controversial and divergent terms were discussed by the committee of judges and their content was validated in a focus group, generating a content validity index of 0.9. The version was back-translated and approved by one of the instrument’s developer, who just suggested an adaptation to the concept of allergic contact dermatitis. Conclusion: The translated and culturally adapted version of MARSI classification instrument was obtained and its content validity attested. Tests regarding inter- and intra-observer reliability and concurrent validity are needed.

Preoperative Templating for Total Hip Arthroplasty: A Method for Calibrating Digital Radiographs Using Patient Demographics and Anthropometric Measurements.

Background Preoperative templating aids the surgeon in estimating implant size and placement. Calibration markers are used to set the correct magnification of digital images before templating. Improper marker placement or complete absence can lead to inaccuracy or an inability to calibrate images altogether. Aims This study describes a method for calibrating images using a patient's femoral head size (FHS) predicted using demographics and anthropometric data. Materials and methods A formula predicting the FHS was derived from a cohort of 507 patients who underwent hemiarthroplasty for an intracapsular fractured neck of the femur through multivariate regression analysis. A separate validation cohort (n=50) who had undergone total hip arthroplasty (THA) had postoperative radiographs calibrated using the predicted FHS and the native contralateral hip as a surrogate calibration marker. The THA femoral head implant size was subsequently measured and compared with the actual implant size selected intraoperatively. Measurements were performed by two independent assessors to determine intra- and interobserver reliability. Results Multivariate regression analyses showed four variables significantly correlated with the size of the femoral head: gender (p < 0.001), height (p < 0.001), weight (p < 0.001), and race (Asian) (p = 0.01). Using these, a regression model to predict the FHS was obtained with an R2 value of 0.65 and a standard error of 2.18 mm. The validation cohort showed that THA head implant size could be accurately measured with an average root-mean-squared error (RMSE) of 1.41 mm (SD = 0.97 mm; %RMSE = 4.7%). The implant head size was measured to be within 5%, 10%, and 15% RMSE in 57.5%, 93.0%, and 100.0% of cases, respectively. There was excellent intraobserver (R2= 0.94 and 0.95) and interobserver (R2= 0.94) reliability. Conclusions The novel method proposed and validated in this study, using a predicted FHS to calibrate digital images, provides an alternative means of templating THA for fractured neck of the femur patients, in whom external calibration markers are often absent.

Inter- and Intra-observer Reliability of a New Classification System for Calcaneus Fracture Malunions: The ADEINS Classification.

Currently, two classification systems, namely Stephens and Sanders, based on axial CT images, and Zwipp and Rammelt, which consider deformities, are used for calcaneus malunions. Existing classifications have limitations due to their pure anatomical basis, and the complexity of the problem, involving both bone and soft tissues. As a solution, the senior author proposed a novel ADIENS classification system for calcaneal malunion, based on pain generators. This study aimed to introduce and evaluate the inter- and intra-observer reliability of a new classification system for calcaneal malunions. This retrospective cohort study included adult cases with post-traumatic calcaneus malunion. Three experienced foot and ankle surgeon volunteers underwent training session on the classification system, which classifies malunions based on A arthritis, D deformity, E exostosis, I implant issues, N nerve issues, and S soft tissue issues. Post-training, two rounds of classification exercises were conducted. Inter-rater and intra-rater agreements were determined using Gwet's AC coefficient. Out of 15 cases, 6 were of Stephen and Sanders types, and 8 were of Zwipp and Rammelt types, the rest fell out of these classifications. Inter-rater agreement for ADEINS classification was noted to be 'very good' for all six domains. Intra-observer agreements were 'very good' for four out of six domains of classification and 'fair' for two domains of classification. Pain generators-based new ADEINS classification has demonstrated good intra- and inter-observer reliability and seemed user-friendly. However, results need to be replicated in a larger, multicentric cohort before wider clinical applicability. Level IV, retrospective study.

Interdisiplinary and intraobserver reliability of the Greulich-Pyle method among Turkish children.

Greulich-Pyle (GP) is one of the most used method for bone age determination (BAD) in various orthopedic, pediatric, radiological, and forensic situations. We aimed to investigate the inter- and intra-observer reliability of the GP method between the most relevant disciplines and its applicability to the Turkish population. One-hundred and eighty (90 boys, 90 girls) patients with a chronological age younger than 18 (mean9.33) were included. X-rays mixed by the blinded investigator were evaluated by two orthopedists, two radiologists, and two pediatric endocrinologists to determine skeletal age according to the GP atlas. A month later the process was repeated. As a statistical method, Paired t-test was used for comparison, an Intraclass Correlation Coefficients test was used for reliability and a 95 % confidence interval was determined. Results were classified according to Landis-Koch. All results were consistent with chronological age (p<0.001), according to the investigators' evaluations compared with chronological age. At the initial evaluation, the interobserver reliability of the method was 0.999 (excellent); at the second evaluation, the interobserver reliability was 0.997 (excellent). The intra-observer reliability of the method was 'excellent' in all observers. When results were separately evaluated by gender, excellent intraobserver correlation and excellent correlation with chronological age were found among all researchers (>0.9). When X-rays were divided into three groups based on age ranges and evaluated, 'moderate' and 'good' correlations with chronological age were obtained during the peripubertal period. The GP method used in skeletal age determination has excellent inter- and intra-observer reliability. During the peripubertal period, potential discrepancies in bone age assessments should be kept in mind. This method can be used safely and reproducibly by the relevant specialists.

A Novel Comprehensive Classification for Non-Prosthetic Peri-Implant Fractures

Non-prosthetic peri-implant fractures (NPPIFs) are often reported mixed with periprosthetic fractures (PPFs), but they are different entities. Due to the increase in the age of the world’s population and to the intensification of surgeries for fractures, nowadays, peri-implant fractures are a very frequent entity in clinical practice, with an increasing trend expected in the future. A clear exclusive classification of NPPIFs is not reported in the literature. The aim of this study is to provide a valid comprehensive classification for all the NPPIFs. X-rays of all the peri-implant cases treated in our unit in a 3-year period were retrospectively collected. Five orthopedic surgeons reviewed 30 X-rays of NPPIFs, providing a code according to the classification proposed. After a 3-month interval, they reviewed the same X-rays. Eighteen femoral, eight humeral, and four forearm peri-implant fractures were collected and showed to the raters. Inter- and intra-observer reliability was calculated using a k-statistic, showing a moderate agreement between observers (κ = 0.73) and a substantial agreement between the observations of the same viewer (κ = 0.82). The literature lacks a comprehensive classification for peri-implant fractures that considers all the bones and all the types of implants. The proposed classification is meant to be an instrument for orthopedic surgeons to categorize these types of fractures and seems to be simple, easy to comprehend, and reproducible. This new classification can provide the orthopedic surgeon a reliable method to clearly catalogue different fractures according to the site and the implants; the physicians can use it, through a code, in clinical practice to describe an NPPIF without the need of images. Further studies may be necessary to confirm the validity and eventually to improve the suggested classification.

THE RADIOGRAPHIC UNION SCORE FOR ULNAR FRACTURES (RUSU) PREDICTS ULNAR SHAFT NONUNION

To develop a reliable and effective radiological score to assess the healing of isolated ulnar shaft fractures (IUSF), the Radiographic Union Score for Ulna fractures (RUSU).Initially, 20 patients with radiographs six weeks following a non-operatively managed ulnar shaft fracture were selected and scored by three blinded observers. After intraclass correlation (ICC) analysis, a second group of 54 patients with radiographs six weeks after injury (18 who developed a nonunion and 36 who united) were scored by the same observers.In the initial study, interobserver and intraobserver ICC were 0.89 and 0.93, respectively. In the validation study the interobserver ICC was 0.85. The median score for patients who united was significantly higher than those who developed a nonunion (11 vs 7, p&lt;0.001). A ROC curve demonstrated that a RUSU ≤8 had a sensitivity of 88.9% and specificity of 86.1% in identifying patients at risk of nonunion. Patients with a RUSU ≤8 (n = 21) were more likely to develop a nonunion (n = 16/21) than those with a RUSU ≥9 (n = 2/33; OR 49.6, 95% CI 8.6–284.7). Based on a PPV of 76%, if all patients with a RUSU ≤8 underwent fixation at 6-weeks, the number of procedures needed to avoid one nonunion would be 1.3.The RUSU shows good interobserver and intraobserver reliability and is effective in identifying patients at risk of nonunion six weeks after fracture. This tool requires external validation but may enhance the management of patients with isolated ulnar shaft fractures.

Development and application of a proximal hamstring MRI-based scoring tool in patients undergoing proximal hamstring tendon surgical repair

PurposeAn MRI-based scoring tool assessing surgical repair after proximal hamstring avulsions may provide benefit in the context of research, while serial post-operative MRI will provide insight of what to expect in the clinical context of early re-injury requiring imaging. This study developed and assessed the reliability of a Proximal Hamstring Objective Magnetic Resonance Imaging Score (PHOMRIS), further assessing MRI-based repair status and its correlation with patient-reported outcome. Methods15 patients that underwent proximal hamstring surgical repair underwent MRI and clinical review pre-operatively and at 3-, 6- and 12-months. Clinical scores included the Lower Extremity Functional Scale (LEFS), the Perth Hamstring Assessment Tool (PHAT) and Tegner Activity Scale (TAS). The MRI-based tool assessed the conjoint (semitendinosus & biceps femoris) and semimembranosus insertion components based on bone-tendon healing, signal and retraction. Inter- and intra-observer reliability of the tool was assessed. ResultsInter-observer reliability indicated a strong correlation for the semimembranosus (rho = 0.827, p < 0.0001) and conjoint (rho = 0.851, p < 0.0001) components. Intra-observer reliability indicated a strong correlation for the semimembranosus (rho = 0.852, p < 0.0001) and conjoint (rho = 0.996, p < 0.0001) components. All clinical scores and the semimembranosus hamstrings component MRI score significantly improved (p < 0.05) over time, though the conjoint component did not (p = 0.219). At 12 months, a higher LEFS was significantly associated with a better semimembranosus MRI score (r = −0.57, p = 0.042), though no other significant correlations (p > 0.05) were observed between clinical and MRI measures. ConclusionsExcellent reliability was observed for the MRI-based scoring tool, which may prove useful in both a research and clinical setting.

DEVELOPMENT AND EVALUATION OF A STANDARDIZED SYSTEM FOR THE ASSESSMENT OF LOCOMOTOR HEALTH IN ELEPHANTS UNDER HUMAN CARE.

Although lameness is a common problem in elephants (Asian elephant [Elephas maximus] and African elephants Loxodonta africana and Loxodonta cyclotis) under human care, there has not been a standardized lameness assessment system to date. This study developed and evaluated a standardized system for the assessment of locomotion in elephants under human care regardless of husbandry system. In total, 72 elephants out of a possible 73 in the United Kingdom and Ireland were filmed from behind, from in front, and from both sides. Using a questionnaire and a select panel of elephant specialists, a zoo veterinarian, and a locomotion expert, a numerical rating scoring (NRS) system was proposed. Locomotion was scored on a 4-point scale with numerical values 0-4 corresponding to specific criteria as follows: 0 = clinically sound, 1 = stiffness, 2 = abnormal tracking, and 4 = reluctance to bear weight. The intra- and interobserver repeatability of five veterinary surgeons using this system was determined and compared with a visual analog scale (VAS) expressed as a 100-mm line. Overall intraobserver reliability was moderate (Cohen's kappa [κ] = 0.676) and interobserver reliability was fair (κ = 0.37) for the presence of lameness. Interobserver agreement improved from the first scoring to second scoring from slight agreement to fair agreement for stiffness and reluctance to bear weight. Abnormal tracking had moderate intraobserver agreement for both scoring sessions. There were wide widths of agreement for the VAS interobserver (67 mm); however, they were narrower for the intraobserver (33 mm). The developed NRS can be used on freely moving elephants to evaluate elephant locomotion, regardless of husbandry methods, and has been shown to be more reliable than a VAS.

Precision and Accuracy of Radiological Bone Age Assessment in Children among Different Ethnic Groups: A Systematic Review.

The aim was to identify, evaluate, and summarize the findings of relevant individual studies on the precision and accuracy of radiological BA assessment procedures among children from different ethnic groups. A qualitative systematic review was carried out following the MOOSE statement and previously registered in PROSPERO (CRD42023449512). A search was performed in MEDLINE (PubMed) (n = 561), the Cochrane Library (n = 261), CINAHL (n = 103), Web of Science (WOS) (n = 181), and institutional repositories (n = 37) using MeSH and free terms combined with the Booleans "AND" and "OR". NOS and ROBINS-E were used to assess the methodological quality and the risk of bias of the included studies, respectively. A total of 51 articles (n = 20,100) on radiological BA assessment procedures were precise in terms of intra-observer and inter-observer reliability for all ethnic groups. In Caucasian and Hispanic children, the Greulich-Pyle Atlas (GPA) was accurate at all ages, but in youths, Tanner-Whitehouse radius-ulna-short bones 3 (TW3-RUS) could be an alternative. In Asian and Arab subjects, GPA and Tanner-Whitehouse 3 (TW3) overestimated the BA in adolescents near adulthood. In African youths, GPA overestimated the BA while TW3 was more accurate. GPA and TW3 radiological BA assessment procedures are both precise but their accuracy in estimating CA among children of different ethnic groups can be altered by racial bias.

Measurement of the Medial Clear Space: An Intra-Observer Comparison of Various Measurement Methods

Category: Ankle; Trauma Introduction/Purpose: The Medial Clear Space (MCS) is an anatomic space between the lateral cortex of the medial malleolus and the medial cortex of the talus. Measurement of the MCS is helpful in differentiating which ankle fractures are amenable to non- operative treatment, and which may require fixation. The MCS is often evaluated on radiographic views of the ankle, and several different methods of measuring the MCS have been described in the literature. There is little information on intra-observer reliability of MCS measurement, nor validation of the various medial clear space measurement techniques. As such, the aim of this study was to better understand intra-observer reliability of MCS via several of the most popularly described techniques. Methods: Patients with matched ankle X-rays and CT scans - either weight bearing or non-weight bearing imaging pairs - were identified via electronic medical record database review of a Level-1, academic medical system after IRB approval. Measurement of the MCS on CT scan was used as the gold standard against which radiographic measurements were compared given its superior osseous definition. Four independent reviewers measured the medial clear space on 20 weight bearing, and 20 non-weight bearing x-rays via the five most commonly described methods: 5mm inferior to the talar dome (MCS #1), half way down the medial articular surface of the talus (MCS #2), obliquely at the supero-medial corner of the talus (MCS #3), and at the level of the talar dome (MCS #4). Intraclass Correlation Coefficients (ICC) were then calculated for each of the four MCS measurements methods after compilation of all independent reviewer data. Results: The ICC varied between each of the four MCS measurement techniques. For measurements 5mm below the talar dome (MCS #1) the ICC was 0.041. Measured halfway down the medial talar articular surface, the ICC was 0.466. The superior oblique MCS measurement ICC was 0.725, and the MCS measured at the level of the talar dome had an ICC of 0.419. MCS measurement 5mm below the talar dome had poor intra-observer reliability, while measurement halfway down the medial articular surface and at the level of the talar dome had fair intra-observer correlation. Overall, measurement of the MCS at the superomedial talar dome had good intra-observer reliability, ranking as the most favorable measurement method. Conclusion: The commonality of ankle fractures demands accurate radiographic interpretation for the determination of need for surgical intervention. The medial clear space measurement is the most common metric used to determine the need for surgery. There is no consensus regarding the optimal method, nor reliability of the various MCS measurement techniques. The results of this study suggest that measurement of the medial clear space at the superomedial corner of the talar dome has the highest intra- observer reliability.

MRI is a Reliable Method for Measurement of Critical Shoulder Angle and Acromial Index.

Objective The objectives of this study are to compare absolute values of acromial index (AI) and critical shoulder angle (CSA) obtained in both radiographs and magnetic resonance image (MRI) of the shoulder; and to compare the interobserver and intra-observer agreement for AI and CSA values measured in these image modalities. Methods Patients who had medical indication of investigating shoulders conditions through radiographs and MRI were included. Images were taken to two fellowship-trained shoulder surgeons, which conducted measurements of AI and CSA in radiographs and in MRI. Twelve weeks after the first evaluation, a second evaluation was conducted. Inter- and intra-observer reliability was presented as an Intraclass Correlation Coefficient (ICC) and agreement was classified according to Landis & Koch criteria. The differences between two measurements were evaluated using Bland-Altman plots. Results 134 shoulders in 124 subjects were included. Mean intra-observer ICC for CSA in X-rays and in MRI were 0.936 and 0.940, respectively; for AI, 0.908 and 0.022. Mean inter-observer ICC for CSA were 0.892 and 0.752 in X-rays and MRI respectively; for AI, ICC values were 0.849 and 0.685. All individual analysis reached statistical power ( p < 0.001). Mean difference for AI values measured in X-rays and in MRI was 0.01 and 0.03 for observers 1 and 2, respectively. Mean difference for CSA values obtained in X-rays and MRI was 0.16 and 0.58 for observers 1 and 2, respectively. Conclusion Both MRI and X-rays provided high intra- and interobserver agreement for measurement of AI and CSA. Absolute values found for AI and CSA were highly correlated in both image modalities. These findings suggest that MRI is a suitable method to measure AI and CSA. Level of Evidence II , Diagnostic Study.

Clinical Efficacy of Distal Tibial Hounsfield Unit for the Diagnosis of Osteoporosis in Ankle Fractures

Category: Trauma; Ankle Introduction/Purpose: Ankle fracture is one of the most common fractures over the age of 50 years. However, there is a lack of research on osteoporotic ankle fractures compared to other osteoporotic fractures. Recently, some studies have been published that Hounsfield Unit(HU) measuring bone attenuation from CT scan is used for assessing the bone density of not only the hip and spine but also extremities such as the distal radius and proximal humerus. This study aims to evaluate the correlation between HU of distal tibia without ankle fracture and DEXA-BMD and determine the cut-off value of HU for osteoporosis diagnosis. Additionally, this study determines whether the HU of the distal tibia obtained from the preoperative CT scan of ankle fractures helps evaluate patients with osteoporotic ankle fractures. Methods: From June 2016 to August 2020, We retrospectively studied foot and ankle traumatic patients who are postmenopausal women or men over 50 years. They conducted a foot or ankle CT scan containing the axial images of the distal tibia and DEXA- BMD within three months. Patients with open fractures with severe displacement or arthritic change were excluded. The mean HU was obtained from two sequential axial images of the distal tibial metaphysis's largest region of interest (ROI), more than 1cm proximal to the tibial plafond. We divided the patients into Group A without ankle fractures and Group B with distal tibia or fibula fractures in the ankle. The correlation analysis was done between the distal tibial HU and DEXA-BMD. We obtained the cut-off value of the distal tibial HU for osteoporosis using receiver operating characteristic(ROC) curves and compared the results between the two groups. Results: Group A was 38 cases(mean age 69.9), and Group B was 59 (mean age 71.0). There were no statistical differences in patients' characteristics, the mean distal tibial HU, bone density, T-score, and rate of osteoporosis in BMD. All HU values in both groups showed excellent inter- and intra-observer reliability(All intraclass coefficients&gt;0.9). Both groups had significant correlations between the distal tibial HU and DEXA-BMD, especially in the femur neck and L3 spine(r=0.706, 0.622, p&lt; 0.001 in Group A, r=0.625,0.499, p&lt; 0.001 in Group B). The cut-off value for osteoporosis of the distal tibial HU was 153.15(sensitivity 73.9%, specificity 86.7%; area under the curve(AUC) 0.841, 95% CI 0.716-0.965, p&lt; 0.001) in Group A. The cut-off value of Group B was 167.35(sensitivity 66.7%, specificity 75.9%; AUC 0.737, 95% CI 0.610-0.865, p=0.002). Conclusion: The distal tibial HU values on the axial images on the CT showed a significant correlation with the central bone of DEXA-BMD. The distal tibial HU value showed excellent reliability with or without fracture. HU value can be easily obtained using a preoperative ankle CT scan without additional cost &amp; radiation exposure to patients with ankle fractures. Therefore, it can help treat osteoporotic ankle fractures by screening for osteoporosis and deciding the fixation method of surgery.

Shoulder extension impairment with residual neonatal brachial plexus injury.

Impairment of both shoulder extension and behind-the-back function are common in patients with residual neonatal brachial plexus injury (NBPI), but have scarcely been studied or reported in the literature. Behind-the-back function is classically evaluated using the hand-to-spine task used for the Mallet score. Angular measurements of shoulder extension with residual NBPI have generally been studied utilizing kinematic motion laboratories. To date, no validated clinical examination method for this has been described. Intra-observer and inter-observer reliability analyses of two shoulder extension angles - passive glenohumeral extension (PGE) and active shoulder extension (ASE) - were performed. Afterwards, a retrospective clinical study was conducted on prospectively-collected data on 245 children with residual BPI treated from January 2019 through August 2022. Demographic characteristics, level of palsy, previous surgical procedures, modified Mallet score, and bilateral PGE and ASE data were analyzed. All inter- and intra-observer agreement was excellent, ranging from 0.82 to 0.86. Median patient age was 8.1 years (3.5-21). Among the 245 children, 57.6% had Erb´s palsy, 28,6% extended Erb's palsy, and 13,9% global palsy. One hundred sixty-eight (66%) of the children could not touch their lumbar spine, among whom 26,2% (n=44) had to swing the arm to reach it. Both the degrees of ASE and PGE achieved correlated significantly with the hand-to-spine score, the ASE strongly (r=0.705) and the PGE weakly (r=0.372; both p<0.0001). Significant correlations also were found between lesion level and the hand-to-spine Mallet score (r=-0.339, p<0.0001) and ASE (r=-0.299, p<0.0001) and between patient age and the PGE (p=0.0416, r=-0.130). A statistically significant decrease in PGE and incapacity to reach the spine were found in patients who underwent glenohumeral reduction, shoulder tendon transfer, or humeral osteotomy, relative to those who had microsurgery or no surgery. Receiver operating curves (ROC) showed that, for both PGE and ASE, the the minimum extension angle required to successfully perform the hand-to-spine task was 10 degrees, with sensitivity levels of 69.9 and 82.2, and specificity levels of 69.5 and 87.8 (both p<0.0001), respectively. Glenohumeral flexion contracture and lost active shoulder extension are extremely common in children with residual NBPI. Both the PGE and ASE angles can be measured reliably with a clinical exam, with at least 10 degrees of PGE and ASE necessary to perform the hand-to-spine Mallet task. Level IV; Case Series; Prognosis Study.

Inter- and intra-observer reliability of identifying phases of play of association football matches from video recordings

Inter- and intra-observer reliability of identifying phases of play of association football matches from video recordings

Glenoid-based reference system to differentiate shoulder pathologies on plain radiographs

Shoulder radiographs are utilized for evaluation and the planning of treatment of various pathologies. Making a diagnosis of these pathologies on plain radiographs occurs by recognizing the relationship of the humeral head on the registry of the glenoid. Quantification of these changes in registry does not currently exist. We hypothesize that a geometric relationship of the humeral head and the glenoid exists that is defined on an anteroposterior Grashey view radiograph by the relationship of the best-fit circle of the humeral head relative to the best-fit circle of the glenoid such that relative measurements will define the normal shoulder and the pathologic shoulder. One hundred fifty-six shoulders were included: 53 normal shoulders, 51 with primary glenohumeral osteoarthritis (GHOA), and 52 with cuff-tear arthropathy (CTA). Humeral head best-fit circle was utilized to define the Circle of the Humeral Head (cHH). A glenoid best-fit circle (cG) was defined by the following rules: (1) best-fit of the glenoid articular surface, (2) defined by the acromion such that it either (a) reaches maximal interaction with the inferior surface of the acromion, or (b) the perimeter of the circle is at the lateral-most point of the acromion. The relationship between cHH and cG is defined by measurement of cHH in horizontal and vertical planes relative to the glenoid circle reference. The Horizontal Displacement Angle (HDA) measures the horizontal position of cHH relative to cG, representing degree of medialization towards the glenoid. The Vertical Displacement Angle (VDA) measures the vertical position of cHH relative to cG, representing degree of superiorization towards the acromion. Angles were compared by diagnosis and sex. The average HDA was 61.0 (60.3-61.7, 95% CI) degrees in normal shoulders, 79.9 (76.9-82.9, 95% CI) degrees in GHOA, and 63.4 (61.7-65.1, 95% CI) degree in CTA (p < 0.001). The average VDA was 43.1 (42.2-44.0, 95% CI) degrees in normal shoulders, 40.9 (39.9-42.0, 95% CI) degrees in GHOA, and 59.7 (57.6-61.7, 95% CI) degrees in CTA (p < 0.001). Interobserver reliability was 0.991 (0.94-1.0, 95% CI) and intraobserver reliability was 0.998 (0.99-1.0, 95% CI). The geometric relationship of cHH to the Glenoid Circle reference was plotted for each group. A geometric relationship exists of the humeral head in reference to the glenoid circle. Together, the Horizontal Displacement Angle and the Vertical Displacement Angle distinguish between a normal shoulder, GHOA, and CTA. This suggests that this novel methodology may provide a preoperative planning tool that is easily accessible.