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2. Effect of Age on the Biomechanical Properties of Porcine LCL.

Author

Singh, Narendra, Trajkovski, Jovan, Matas, Jose Felix Rodriguez, and Kunc, Robert

Abstract

The Lateral Collateral Ligament (LCL), one of the four major ligaments in the knee joint, resides on the outer aspect of the knee. It forms a vital connection between the femur and the fibula. The LCL's primary role is to provide stability against Varus forces, safeguarding the knee from undue rotation and tibial displacement. Uniaxial mechanical testing was conducted on the dog bone (DB) samples in this study. The porcine of different ages, from 3 months to 48 months (4 years) old, were used to analyse the effect of age. A constant head speed of 200 mm/s was applied throughout the tests to mimic strain–stress and damage responses at an initial strain rate of 13.3/s. The mechanical properties of LCL were evaluated, with a specific focus on the effect of age. The LMM (Linear Mixed Model) analysis revealed a marginally significant positive slope for Young's modulus (p = 0.0512) and a significant intercept (p = 0.0016); for Maximum Stress, a negative slope (p = 0.0346) and significant intercept (p < 0.0001); while Maximum Stretch showed a significant negative slope (p = 0.0007) and intercept (p < 0.0001), indicating the muscle reduces compliance and load-bearing capacity with age. [ABSTRACT FROM AUTHOR]

Published
2025
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3. Open Reconstruction of Fibular Collateral Ligament Rupture Using a Partial-Thickness Biceps Femoris Tendon Autograft.

Author

Sabzevari, Soheil, Levitt, Sarah J., Kahan, Jory, Vasavada, Kinjal, Fanelli, Gregory, LaPrade, Robert F., and Medvecky, Michael J.

Subjects
MEDIAL collateral ligament (Knee), COLLATERAL ligament, COLLATERAL ligament injuries, BICEPS femoris, SPORTS re-entry, TENODESIS
Abstract

Background: Fibular collateral ligament (FCL) injuries are uncommon incidents, with less favorable healing rates compared to medial collateral ligament injuries, often necessitating repair or reconstruction as the predominant treatment approach. Indications: Using a partial-thickness biceps femoris tendon (PTBFT) autograft for FCL reconstruction or augmentation is a viable option for both acute and chronic FCL injuries, especially in patients unwilling to accept allograft tissue and in settings with limited access to allografts. Technique: The fibular head attachments of the biceps femoris tendon (BFT), FCL, and popliteofibular ligament are inspected for injury. The biceps–iliotibial band (ITB) interval is opened, and the native FCL is assessed at its midsubstance for injury. The mid-aspect of the ITB was incised in line with its fibers, and the femoral insertion of FCL is localized. A 10-mm × 70-mm graft is harvested from the middle third of the BFT, preserving the distal insertion on the fibular head. Locking Krackow sutures are placed into the proximal end of the graft, which is passed under the ITB. A femoral tunnel is created at the FCL attachment site, and the graft is placed into the femoral tunnel and secured to the femur using an interference screw. Results: Postoperatively, the patient is instructed on foot-flat touch weightbearing with 2 crutches, on a knee immobilizer, for the first 2 weeks. Increasing weightbearing status and range of motion are expected in a stepwise manner. Return to sports is permitted after 6 to 9 months and depends on the presence of any additional injuries, strength, and functional recovery. There no studies available yet on clinical outcomes. Discussion/Conclusion: FCL reconstruction or augmentation utilizing a PTBFT autograft is an underused treatment option for patients with isolated FCL insufficiency or as part of multiligamentous injuries. This procedure offers advantages such as an anatomic reconstruction; single incision for both graft harvest and FCL reconstruction; shorter, cost-effective surgery with fewer implants used; and a safer approach with reduced risk of neurovascular structures due to lack of a fibular head tunnel. This is a valuable option in the limited source setting or in a patient not accepting of allografts. Patient Consent Disclosure Statement: The author(s) attests that consent has been obtained from any patient(s) appearing in this publication. If the individual may be identifiable, the author(s) has included a statement of release or other written form of approval from the patient(s) with this submission for publication. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Proximal Fibulectomy for Giant Cell Tumours: What Works!

Author

Prajapati, Ashwin, Tadala, Harsha S. S., Gulia, Ashish, and Puri, Ajay

Subjects
*ANKLE, *CANCER relapse, *GIANT cell tumors, *BONE tumors, *FIBULA, *TREATMENT effectiveness, *FUNCTIONAL status, *RETROSPECTIVE studies, *LIGAMENTS, *LONGITUDINAL method, *MEDICAL records, *ACQUISITION of data, *PERONEAL nerve
Abstract

Background: Giant cell tumor of bone (GCTB) is the most common primary tumor of proximal fibula. Because of its close proximity to vascular structures, common peroneal nerve (CPN) and attachment of lateral collateral ligament (LCL), proximal fibulectomy poses unique challenges. We analyzed oncological and functional outcome of patients who underwent proximal fibulectomy for GCTB of proximal fibula. Material and methods: Between January 2006 and December 2020, 23 patients underwent proximal fibulectomy for GCTB of proximal fibula, four were recurrent tumors. Mean resection length was 9 cm (5 to 15 cm). The LCL and biceps tendon were not reconstructed in 22 cases. The common peroneal nerve was sacrificed in seven patients including three recurrent cases. Functional status was assessed using the Musculoskeletal Tumour Society (MSTS) scoring system. Results: There were two vascular complications and one infection. With 4 patients lost to follow up, mean follow up was 90 months (12 to 197). No patient had local or distant recurrence. Mean MSTS score was 26 (21 to 30). Eleven of 23 patients (48%) had loss of common peroneal nerve function with poorer functional outcome. No patient had symptoms suggestive of knee instability. Conclusion: Proximal fibulectomy is oncologically safe. Reconstruction of the LCL attachment is not mandatory and patients do not have symptomatic knee instability. Functional outcomes are compromised after sacrifice of common peroneal nerve and may be potentially improved with tendon transfers at index surgery. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Meniscal Lesions in Multi-Ligament Knee Injuries.

Author

Figueroa, David, Figueroa, María Loreto, Cañas, Martin, Feuereisen, Alexandra, and Figueroa, Francisco

Subjects
*MENISCUS injuries, *ANTERIOR cruciate ligament injuries, *ARTHROSCOPY, *FISHER exact test, *RETROSPECTIVE studies, *MAGNETIC resonance imaging, *RESEARCH methodology, *MEDICAL records, *ACQUISITION of data, *STATISTICS, *CONFIDENCE intervals, *KNEE injuries, *PATELLAR tendon
Abstract

Introduction: Multi-ligament knee injuries (MLKIs) are rare and complex knee lesions and are potentially associated with intra-articular injuries, especially meniscal tears. Understanding the meniscal tear patterns involved in MLKI can help the orthopedic surgeon treat these complex injuries. Objective: The purpose of this study was to describe the incidence, classification, and treatment of meniscal injuries in a cohort of patients with MLKIs and carry out an updated review of the evidence available. Materials and methods: Descriptive retrospective study. Patients with a history of reconstructive surgery for MLKI performed between 2013 and 2023 were included. Informed consent was obtained from all patients included in the study. Patient demographics, magnetic resonance imaging (MRI) study, and operative reports were reviewed. Groups were then formed based on ligament injury patterns. Meniscal tears were identified by MRI and through diagnostic arthroscopy for each patient. The association between meniscal lesions and injury patterns was calculated through Fisher's exact test. Agreement between the presence of meniscal tear on MRI and in diagnostic arthroscopy was measured using the kappa test. The sensitivity and specificity of MRI were calculated. We inferred the presence of a meniscal tear by injury pattern using the Agresti-Coull confidence interval. For the statistical analysis, a significance of 5% and a confidence interval of 95% were considered. Results: Seventy patients with MLKIs were included, with a mean age of 30.69 years (SD 10.65). Forty-seven patients had meniscal lesions (67.1%). Of them, 6 had only medial meniscus tears, 31 had only lateral meniscus tears, and 10 had lesions of both menisci, comprising 57 meniscal lesions in total. An anterior cruciate ligament (ACL) + medial collateral ligament/posteromedial corner (MCL/PMC) was the most common injury pattern (52.86% of all patients). Of these 37 patients, 78.38% had meniscal injuries, and most of them (68.97%) were only lateral meniscus injuries. The odds ratio (OR) of having a meniscal tear when having an ACL + medial-side injury was 4.83 (95% CI; 0.89–26.17). Patients with ACL + lateral-side injury pattern had meniscal tears in 42.86%. The lateral meniscus was involved in 100% of these patients. 62.5% of medial meniscus injuries were treated by meniscal repair, and 37.5% by partial meniscectomy. 58.54% of lateral meniscus injuries were treated by meniscal repair, and 39.02% by partial meniscectomy. Agreement calculated using the kappa test between MRI and diagnostic arthroscopy for medial meniscal lesions was 78.57%, and for lateral meniscal lesions was 84.29%. Conclusion: The ligament injury pattern and the side of the injured collateral ligament influenced the incidence and laterality of meniscal damage. ACL + medial-side injuries were shown to have significantly greater meniscal damage compared to other injury patterns. It is crucial to have a high index of suspicion, obtain a high-quality MRI, and arthroscopically evaluate any possible meniscal lesions in MLKIs. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Isolated distal grade III lateral collateral ligament injury: what is the real clinical impact in professional athletes?

Author

Gnesutta, Aroa, Sollami, Giulia, Calvi, Marco, Francese, Fabio, Mazzoni, Stefano, and Genovese, Eugenio Annibale

Subjects
*COLLATERAL ligament injuries, *PROFESSIONAL athletes, *COLLATERAL ligament, *KNEE joint, *RANGE of motion of joints, *SOCCER players
Abstract

The isolated III grade lateral collateral ligament injuries are rare, and there is limited literature available on their management. We report 3 cases of professional soccer players with isolated distal lateral collateral ligament III grade injury, confirmed by MRI studies. After undergoing MRI examinations, all three players resumed competitive activity without resting and experienced no consequences regarding joint stability. We assessed the significance of the lateral collateral ligament in providing lateral stabilization to the knee joint in professional footballers with clinical tears of the lateral collateral ligament. The other structures of posterolateral area that remain intact contribute to joint stability, and the lateral collateral ligament's extra-articular position appears to expedite the ligament's healing process. Therefore, we propose a possible conservative treatment approach, mostly for professional athletes and adolescent patients, involving a rehabilitation plan without the need for surgery. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Stabilizing effect of an elbow orthosis with an adjustable hinge axis after lateral collateral ligament injury: A biomechanical study.

Author

Badre, Armin, Axford, David T, Kotzer, Sara, Johnson, James A, and King, Graham JW

Subjects
*ELBOW, *COLLATERAL ligament injuries, *COLLATERAL ligament, *FORELIMB, *HINGES
Abstract

Background: Current commercial elbow braces have a straight hinge that does not account for the native carrying angle of the elbow. The objective of this study was to determine the effectiveness of a custom-designed hinged elbow orthosis (HEO) with variable valgus angulations in stabilizing a lateral collateral ligament (LCL) deficient elbow. Methods: Eight cadaveric upper extremities were mounted in an elbow motion simulator in the abducted varus gravity-loaded position. The specimens were examined before and after simulated LCL injury and then with the addition of the custom-designed HEO with 0°, 10°, and 20° of valgus angulation. Kinematic data were recorded using an electromagnetic tracking system. Results: The LCL injured state with or without the brace resulted in significant increases in varus angulation of the elbow compared to the intact state in both pronation and supination (P < 0.05). There were no significant differences in varus-valgus angulation or ulnohumeral rotation between any of the brace angles and the LCL injured state with the forearm pronated and supinated. Discussion: The custom-designed HEO did not provide any additional stability to the LCL injured elbow. The varus arm position should be avoided during the rehabilitation of an LCL injured elbow even when an HEO is used. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Preoperative and operative risk factors for failed lateral collateral ligament reconstruction

Author

Shawn W. O’Driscoll, MD, PhD and Grace K. Chaney, BS

Subjects
Lateral collateral ligament, LCL failure, LCL reconstruction, Posterolateral rotatory instability, Risk factors, Elbow, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935
Abstract

Repair or reconstruction of the lateral collateral ligament (LCL) using autograft or allograft is a well-accepted treatment of posterolateral rotatory instability. The prevalence and causes for failure of LCL reconstruction are not well documented in the literature. Any approach to the assessment and management of failed LCL reconstruction must begin with understanding the risk factors for failure in the first place. Such understanding would likely make many failures preventable as well. In our experience, there are a number of identifiable preoperative risk factors concerning bony and/or soft tissue constraints for failure of LCL reconstruction. There are also operative factors such as tunnel and graft placement as well as excessive lateral condyle stripping that play a role in risk of failure. This report is an attempt to provide a systematic approach to identifying and managing the preoperative and operative risk factors. Further studies are warranted to determine the indications for, and success rates of surgical intervention in managing these risk factors.

Published
2023
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10. The relationship of proximal lateral collateral ligament hyperintensity with knee joint ligament and meniscus pathologies.

Author

Cilengir, Atilla Hikmet, Unal, Sinan, Sinci, Kazim Ayberk, Elmali, Ferhan, Kucukciloglu, Yasemin, and Tosun, Ozgur

Subjects
*COLLATERAL ligament, *KNEE joint, *MENISCUS (Anatomy), *PATELLAR tendon, *ANTERIOR cruciate ligament, *ANATOMICAL planes, *LIGAMENTS
Abstract

Background: Hyperintensity in the proximal lateral collateral ligament (LCL) is often confusing. This appearance may be alone or accompany other pathologies. Purpose: To investigate the relationship between the signal intensity (SI) change in the proximal LCL and the knee joint pathologies. Material and Methods: The knee MRI scans taken between 2020 and 2022 were queried retrospectively. Patients with acute trauma, instability, knee surgery, or high-grade osteoarthritis were excluded. Included patients were divided into two groups as normal SI and increased SI according to proximal LCL. The difference in ligamentous and meniscal pathologies between the two groups was analyzed using a chi-square test. Inter-observer agreement analysis was performed on 50 randomly selected patients. Results: A total of 351 patients (139 men [39.6%], 212 women [60.4%]; median age = 37 years; interquartile range = 67 years) were included. There were 114 (32.5%) LCLs with normal SI and 237 (67.5%) LCLs with increased SI. Normal SI and increased SI groups had a significant difference in terms of joint side, median age, patellar tendon SI, anterior cruciate ligament SI, and medial collateral ligament SI (P = 0.004, P = 0.004, P = 0.001, P = 0.011, P = 0.004, respectively). A significant difference between the results of two separate LCL examinations in coronal + axial and coronal-only planes (P <0.001). Inter-observer agreement was found to be good to excellent. Conclusion: Hyperintensity in the proximal LCL was more common on the right joint side, in older patients, and patients with hyperintensity in the proximal patellar tendon, anterior cruciate ligament, and medial collateral ligament. Evaluating the LCL only in the coronal plane overestimates the hyperintensity. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Arthroscopic assessment for lateral collateral ligament complex deficiency of the elbow: a cadaveric study.

Author

Kwak, Jae-Man, Kholinne, Erica, Hwang, Seung Jun, and Jeon, In-ho

Subjects
*ELBOW, *COLLATERAL ligament, *COLLATERAL ligament injuries
Abstract

Purpose: To evaluate whether elbow instability due to lateral collateral ligament complex injury can be assessed reliably through arthroscopy. Methods: Eight fresh human cadaveric elbows were placed in a simulated lateral decubitus position. The radiocapitellar joint (RCJ) gap and ulnohumeral joint (UHJ) gap (mm) were measured with different sizes of probes from the posterolateral viewing portal. The elbow was 90 degrees flexed with neutral forearm rotation for RCJ gap measurement and 30 degrees flexed with full supination for UHJ gap measurement. Sequential testing was performed from Stage 0 to Stage 3 (Stage 0: intact; Stage 1: the release of the anterior 1/3 LCL complex; Stage 2: the release of the anterior two thirds of the LCL complex; and Stage 3: the release of the entire LCL complex) on each specimen. The mean gap of RCJ and lateral UHJ was used for the comparison between stages with the intact elbow. Results: The mean RCJ gap distance in Stage 2 and Stage 3 was significantly increased compared to that in Stage 0 (Stage 0 vs. Stage 2: P =.008; Stage 0 vs. Stage 3: P =.010). The mean UHJ gap distance of Stage 1, Stage 2, and Stage 3 was significantly increased compared to that in Stage 0 (Stage 0 vs. Stage 1: P = 0.025; Stage 0 vs. Stage 2: P =.010; Stage 0 vs. Stage 3: P =.011). In contrast, the release of the anterior 1/3 of the LCL complex (Stage 1) was not significantly increased compared to the mean joint gap distance of RCJ (P =.157). Conclusion: Arthroscopic measurement of joint gap widening in RCJ and UHJ is a reliable assessment method to detect LCL complex deficiency that involves the anterior two thirds or more. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Sensitivity and specificity of the posterolateral rotatory drawer test in the diagnosis of lateral collateral ligament insufficiency of the elbow.

Author

Stone, Andrew, Venkatakrishnan, Shruti, and Phadnis, Joideep

Abstract

Numerous clinical tests are described for the diagnosis of chronic lateral collateral ligament (LCL) insufficiency of the elbow; however, none of these tests have been adequately assessed for sensitivity, with at most 8 patients included in previous studies. Furthermore, no test has had specificity assessed. The posterolateral rotatory drawer (PLRD) test is thought to have improved diagnostic accuracy over other tests in the awake patient. The aim of this study is to formally assess this test using reference standards in a large cohort of patients. A total of 106 eligible patients were identified for inclusion from a single-surgeon database of operative procedures. Examination under anesthetic (EUA) and arthroscopy were chosen as the reference standards to compare the PLRD test against. Only patients with a clearly documented PLRD test finding performed preoperatively in the clinic, and a clearly documented EUA and/or arthroscopic findings from surgery were included. A total of 102 patients underwent EUA, 74 of whom also underwent arthroscopy. Twenty-eight patients had EUA, and then an open procedure without arthroscopy. Four patients had arthroscopy without a clearly documented EUA. Sensitivity, specificity, and positive (PPV) and negative predictive values (NPV) were calculated with 95% confidence intervals. Thirty-seven patients had a positive PLRD test, and 69 had a negative test. Compared to the reference standard of EUA (n = 102), the PLRD test had a sensitivity of 97.3% (85.8%-99.9%) and a specificity of 98.5% (91.7%-100%) (PPV = 0.973, NPV = 0.985). Compared to the reference standard of arthroscopy (n = 78), the PLRD test had a sensitivity of 87.5% (61.7%-98.5%) and a specificity of 98.4% (91.3%-100%) (PPV = 0.933, NPV = 0.968). Compared to either reference standard (n = 106), the PLRD test has a sensitivity of 94.7% (82.3%-99.4%) and a specificity of 98.5% (92.1%-100%) (PPV = 0.973, NPV = 0.971). The PLRD test demonstrated an overall sensitivity of 94.7% and specificity of 98.5% with high positive and negative predictive values. This test is recommended as the primary diagnostic tool for LCL insufficiency in the awake patient and should be widely incorporated into surgical training. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Internal Bracing am Ellenbogen als Add-on bei ligamentärer Instabilität.

Author

Kadantsev, Pavel, Lappen, Sebastian, Otto, Alexander, Hinz, Maximilan, and Siebenlist, Sebastian

Abstract

Copyright of Arthroskopie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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17. Calcific Ligamentitis of the Lateral Collateral Ligament: A Rare Case of Lateral Knee Pain and Review of the Literature

Author

Atilla Hikmet ÇİLENGİR, Ali Murat DÜLGEROĞLU, Berna DİRİM METE, and Özgür TOSUN

Subjects
calcification, edema, ligamentitis, lateral collateral ligament, Medicine (General), R5-920
Abstract

Calcific ligamentitis of the lateral collateral ligament (LCL) is an extremely rare cause of lateral knee pain. Only fifteen cases were reported in the literature. It consists of a calcific deposit in the LCL and accompanying edema-like changes. It causes inflammatory pain, and conservative treatment has been successful in most cases. We reported a 44-year-old man with acute-onset lateral knee pain during the chemotherapy period for testicular seminoma. We reviewed all the reported cases and summarized them on a table. Plain radiography of our case demonstrated a well-circumscribed calcific deposit in the soft tissue adjacent to the lateral femoral condyle. Magnetic resonance imaging revealed its location in the proximal portion of the LCL and edema-like soft tissue changes. Pain was relieved with conservative treatment. Calcific ligamentitis of the LCL should be considered in the differential diagnosis of lateral knee pain. The combination of radiography and magnetic resonance imaging findings is useful in diagnosis, and radiography is sufficient during the follow-up period.

Published
2023
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18. Triple Threat Ttrauma: A Rare Case Report of Avulsion Fracture of the Posterior Cruciate Ligament, Lateral Collateral Ligament, and diaphyseal Tibia Fracture

Author

Elyazid Houass, M.R. Elgaliou, M.A. Haouzi, M.J. Mekkaoui, M. Boufettal, R.A. Bassir, M. Kharmaz, and M.S. Berrada

Subjects
Avulsion fracture, Posterior cruciate ligament, Lateral collateral ligament, Posterolateral instability, Surgery, RD1-811
Abstract

We present the case of a 24-year-old male who sustained a fall from a motorcycle resulting in a rare combination of injuries, including avulsion fractures of the posterior cruciate ligament (PCL) and femoral lateral collateral ligament (LCL), along with an ipsilateral diaphyseal tibia fracture. This case report aims to highlight the importance of early diagnosis, appropriate management, and comprehensive rehabilitation for such complex knee injuries. We discuss the patient's presentation, radiographic findings, surgical intervention, postoperative care and long-term outcomes.To our knowledge this kind of injury has never been documented in the literature.

Published
2023
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19. Bicondylar Hoffa fracture with concurrent medial and lateral collateral ligament avulsion: A case report.

Author

Noorigaravand, Sajad, Heidari, Razieh, Tayyebi, Hamed, Shirvani, Saeid, and Amiri, Shayan

Subjects
*COLLATERAL ligament, *AVULSION fractures, *KNEE injuries, *ANATOMICAL planes, *FEMORAL fractures
Abstract

Hoffa fractures are rare fractures of the femoral condyle that occur in the coronal plane of the bone. In most cases, high‐energy trauma leads to isolated coronal fractures of one of the femoral condyles, medial or lateral. Even with a typical unicondylar Hoffa fracture, our patient sustained a bicondylar Hoffa fracture in his right knee after falling from high and suffering direct trauma as well. The fracture was approached from both the medial and lateral sides of the distal femur. Three‐month follow‐up showed excellent functional scores, no laxity, and no pain. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Ligament Injuries

Author

Gibilisco, Monica, Maduri, Prathusha, Chang, Richard G., Leong, Michelle, editor, Cooper, Grant, editor, Herrera, Joseph E., editor, and Murphy, Peter, editor

Published
2022
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22. Ultrasound of the Knee

Author

El-Othmani, Mouhanad M., Goitz, Henry T., Bouffard, J. Antonio, El-Othmani, Mouhanad M., Goitz, Henry T., and Bouffard, J. Antonio

Published
2022
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23. Ultrasound of the Elbow

Author

El-Othmani, Mouhanad M., Goitz, Henry T., Bouffard, J. Antonio, El-Othmani, Mouhanad M., Goitz, Henry T., and Bouffard, J. Antonio

Published
2022
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24. Elbow Dislocation

Author

Updegrove, Gary F., Armstrong, April D., Chebli, Caroline M., editor, and Murthi, Anand M., editor

Published
2022
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25. Knee Disorders: Extra-Articular

Author

Mostoufi, S. Ali, Saulle, Michael F., George, Tony K., Scott, Charles, Chin, Joseph, Mostoufi, Yasmine, Mostoufi, S. Ali, editor, George, Tony K., editor, and Tria Jr., Alfred J., editor

Published
2022
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35. Correlations of magnetic resonance imaging classifications with preoperative functions among patients with refractory lateral epicondylitis

Author

Xu Li, Yang Zhao, Zhijun Zhang, Tong Zheng, Shangzhe Li, Guang Yang, and Yi Lu

Subjects
Lateral epicondylitis, Magnetic resonance imaging, Lateral collateral ligament, Visual analog scale, Functional scores, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background To evaluate the correlations between three magnetic resonance imaging (MRI) classifications and preoperative function in patients with refractory lateral epicondylitis (LE). Methods We retrospectively reviewed patients with refractory LE who underwent arthroscopic treatment. Signal changes in the origin of the extensor carpi radialis brevis (ERCB) were evaluated based on three different MRI classification systems. Spearman’s rank correlation analysis was used to analyse the correlation between each MRI classification and the preoperative functional and visual analogue scale (VAS). The lateral collateral ligament complex (LCL) in all patients was evaluated using both MRI and arthroscopy. The Mann–Whitney U test was used for the comparison of preoperative VAS and all functional scores between patients with refractory LE combined with LCL lesions, and those without. Results There were 51 patients diagnosed with refractory LE between June 2014 to December 2020, all of whom were included in this study. The patients included 32 women and 19 men with a mean age of 49.1 ± 7.6 years (range, 39–60 years). The average duration of symptoms was 21.1 ± 21.2 months (range, 6–120 months). The intra-observer agreements for Steinborn et al.’s classification were 77.9%, 76.0%, and 76.7%, respectively. The inter-observer reliabilities of the three classifications were 0.734, 0.751, and 0.726, respectively. The average intra-observer agreement for the diagnosis of abnormal LCL signal was 89.9%, with an overall weighted kappa value of 0.904. The false-positive rate was 50%, and the false-negative rate was 48% for LCL evaluation on MRI. Spearman's rank correlation analysis did not find significant correlation between any of the three MRI classifications and preoperative VAS or any functional scores (all P > 0.05). There were no significant differences in the VAS and functional scores between patients with abnormal LCL signals on MRI and those without LCL lesions (all P > 0.05). Conclusions Preoperative MRI findings in patients with refractory LE cannot reflect the severity of functional deficiency. Preoperative MRI grading of the origin of the ERCB and preoperative MRI for LCL signal change cannot assist the surgical plan for the treatment of patients with refractory LE.

Published
2022
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36. Reconstruction of the Anterior Cruciate Ligament and the Posterolateral Corner With a Single Combined Femoral Tunnel.

Author

Giardino Moreira da Silva, Andre, Gobbi, Riccardo Gomes, Bonadio, Marcelo Batista, Angelini, Fabio Janson, Pécora, José Ricardo, and Helito, Camilo Partezani

Subjects
ANTERIOR cruciate ligament, POSTEROLATERAL corner, FEMORAL artery, TENDONS, BONES
Abstract

Background: Posterolateral knee injuries can occur in 16% of patients with acute ligament injuries, and up to 70% have a combined anterior cruciate ligament (ACL) tear. Studies have shown that, in different populations, the distance between the insertion of the popliteus tendon and the lateral collateral ligament (LCL) may be smaller than the 18.5 mm previously reported in the literature. When we have an associated injury of the ACL and the posterolateral corner (PLC), the confluence of tunnels in the lateral femoral condyle can be a potential problem during reconstruction surgery. Indications: The indication of this technique is the combined injury of the ACL and the PLC. Technique Description: The reconstruction is performed with 2 semitendinosus tendons and 1 gracilis tendon. The technique consists of making a tunnel in the lateral wall of the femur, from the outside-in, at the isometric point between the origin of the LCL and insertion of the popliteus tendon, and emerging in the inner wall of the lateral femoral condyle at the anatomic point of the ACL. The graft is passed from the tibia to the femur with the doubled gracilis tendon and the 2 simple semitendinosus tendons for the ACL graft. The remaining portions of the semitendinosus tendons are left for reconstruction of the PLC structures, with one of them going straight to the posterolateral tibial tunnel (reconstructing the popliteus tendon), and the other passing through the fibular head tunnel (reconstructing the LCL) and continuing from the fibular head to the posterolateral tibial tunnel (reconstructing the popliteofibular ligament). Results: Patients undergoing this technique achieved good functional outcomes and a failure rate similar to that reported in the literature for combined ACL and PLC reconstruction. Discussion/Conclusion: This technique is an excellent option for patients with the combined injury of the ACL and the PLC, avoiding the confluence of tunnels in the lateral femoral condyle. It presents good results and acceptable complication rates, compatible with the severity of this lesion. Patient Consent Disclosure Statement: The author(s) attests that consent has been obtained from any patient(s) appearing in this publication. If the individual may be identifiable, the author(s) has included a statement of release or other written form of approval from the patient(s) with this submission for publication. Graphical Abstract This is a visual representation of the abstract. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Osteotomy of the Femoral Lateral Collateral Ligament Insertion for a Tight Lateral Compartment in Complex Arthroscopic Knee Surgery.

Author

Beel, Wouter, Papakostas, Emmanouil, and Getgood, Alan

Subjects
KNEE surgery, ARTHROSCOPY, OSTEOTOMY, COLLATERAL ligament, VISUALIZATION
Abstract

Background: In cases of complex arthroscopic knee surgery in the lateral compartment, such as performing lateral meniscus repair or transplantation, a tight lateral compartment can jeopardize the best possible care and could lead to iatrogenic cartilage injury. This technique shows a way to increase arthroscopic working space in a tight lateral compartment by performing an osteotomy of the femoral insertion of the lateral collateral ligament (LCL), utilizing a novel adjustable loop refixation technique. Indication: The femoral LCL insertion osteotomy can be performed if increased visualization and working space of the lateral compartment are needed during the complex arthroscopic knee surgery. Technique Description: After identification of the LCL femoral insertion, a 2-mm drill is passed through the LCL insertion to prepare for an anatomic reduction. The osteotomy is performed by taking a small bone plug together with the complete LCL insertion. Increased visualization and working space in the lateral compartment are obtained without damaging the intrinsic LCL structure. For reinsertion, the bone plug and proximal LCL is whipstitched with a high-strength suture and fixated to an adjustable loop Ultrabutton. The adjustable loop is shuttled through a predrilled 4.5-mm femoral tunnel and flipped on the medial side. The adjustable button is tensioned in 30° of flexion until the bone plug is anatomically reduced. Results: We present 1 patient who underwent a femoral LCL osteotomy during arthroscopic lateral meniscus allograft transplantation. The osteotomy healed without any issues, and there was no residual LCL laxity; which was confirmed with varus stress radiographs. Discussion/Conclusion: A femoral LCL insertion osteotomy can release a tight lateral compartment without damaging the intrinsic LCL structure. The adjustable loop fixation avoids the use of more traditional screw and washer fixation techniques, which tend to be more prominent and have the potential to back out. An osteotomy is more invasive than the "pie-crusting" technique of the medial collateral ligament for a tight medial compartment. However, it is required due to the poor intrinsic healing capacity of the LCL. Care should be taken to anatomically reduce the bone plug to avoid iatrogenic creation of LCL laxity. Patient Consent Disclosure Statement: The author(s) attests that consent has been obtained from any patient(s) appearing in this publication. If the individual may be identifiable, the author(s) has included a statement of release or other written form of approval from the patient(s) with this submission for publication. Graphical Abstract This is a visual representation of the abstract. [ABSTRACT FROM AUTHOR]

Published
2023
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38. The Association Between Bone Bruises and Concomitant Ligaments Injuries in Anterior Cruciate Ligament Injuries: A Systematic Review and Meta-analysis.

Author

Yi, Zhi, Jiang, Jin, Liu, Zhongcheng, Wang, Hong, Yi, Qiong, Zhan, Hongwei, Liang, Xiaoyuan, Niu, Yongkang, Xiang, Dejian, Geng, Bin, Xia, Yayi, and Wu, Meng

Subjects
*BONE injuries, *ONLINE information services, *MEDICAL databases, *META-analysis, *MEDICAL information storage & retrieval systems, *CONFIDENCE intervals, *SYSTEMATIC reviews, *BRUISES, *ANTERIOR cruciate ligament injuries, *DESCRIPTIVE statistics, *MEDLINE, *ODDS ratio
Abstract

Background: Bone bruises and concomitant ligament injuries after anterior cruciate ligament (ACL) injuries have attracted attention, but their correlation and potential clinical significance remain unclear. Purpose: To assess the relationship between bone bruises and concomitant ligamentous injuries in ACL injuries. Study design: Systematic review. Methods: A comprehensive search of PubMed, Embase, Web of Science, and Cochrane Library was completed from inception to October 20, 2021. All articles that evaluated the relationship between bone bruises and related ligaments injuries were included. Methodological Index for Non-Randomized Studies (MINORS) was used for quality assessment as well as Review Manager 5.3 was used for data analysis. Results: A total of 19 studies evaluating 3292 patients were included. After meta-analysis, anterolateral ligament (ALL) injuries were associated with bone bruising on the lateral tibial plateau (LTP) (RR = 2.33; 95% CI 1.44–3.77; p = 0.0006), lateral femoral condyle (LFC) (RR = 1.97; 95% CI 1.37–2.85; p = 0.0003) and medial tibial plateau (MTP) (RR = 1.62; 95% CI 1.24–2.11; p = 0.0004); Moreover, medial collateral ligament (MCL) injuries were associated with bone bruising on the femur (RR = 1.49; 95% CI 1.17–1.90; p = 0.001), and no statistical significance was found between bone bruising on the MTP and Kaplan fiber (KF) injuries (RR = 1.58; 95% CI 1.00–2.49; p = 0.05). Nonetheless, the current evidence did not conclude that bone bruises were associated with lateral collateral ligament (LCL) injuries. Conclusion: For individuals with an ACL injury, bone bruises of the LTP, LFC, and MTP can assist in the diagnosis of ALL injuries. Furthermore, femoral bruising has potential diagnostic value for MCL injuries. Knowing these associations allows surgeons to be alert to ACL-related ligament injuries on MRI and during operations in future clinical practice. [ABSTRACT FROM AUTHOR]

Published
2023
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39. The role of the lateral part of the distal triceps and the anconeus in varus stability of the elbow: a biomechanical study.

Author

Kwak, Jae-Man, Rotman, Dani, Lievano, Jorge Rojas, Xue, Mingqiang, and O'Driscoll, Shawn W.

Abstract

The role of the lateral part of the distal triceps as a stabilizer in the lateral collateral ligament–deficient elbow and whether its effect in improving the stability is independent of that of the anconeus are unclear. Seven cadaveric elbows were tested under gravity varus stress using a custom-made machine designed to simulate muscle loads while allowing passive flexion of the elbow. An injury model was created by sectioning the lateral collateral ligament and sparing the common extensor origin. The lateral part of the distal triceps tendon was loaded sequentially with 0 N, 10 N, 25 N, and 40 N. Each stage of the lateral part of the distal triceps loading was tested with the anconeus unloaded (inactive) or with a 25-N load applied (active). Articular contact pressures on the coronoid, the medial facet, and the lateral facet were collected and processed using Tekscan sensors and software. A significant decrease in the mean coronoid contact pressure was seen with sequential loading of the lateral part of the distal triceps (P <.001). The ratio of medial to lateral facet contact pressures significantly decreased with sequential loading of the lateral part of the distal triceps (P <.001), indicating a better distribution of the contact pressure between the medial and lateral facets as the lateral part of the distal triceps was loaded. These effects were statistically significant, both with and without anconeus loading. There was no significant modification of the effect of the lateral part of the distal triceps loading on the contact pressure by the anconeus loading (P =.47). However, with active anconeus loading, the contact pressure and the ratio of medial to lateral facet contact pressures were significantly lower for any stage of lateral triceps loading (P <.001), indicating a synergistic effect of the anconeus. In a lateral collateral ligament–deficient elbow, the lateral part of the distal triceps loading prevents the increased contact pressure on the coronoid under varus stress and improves the distribution of contact pressures on the coronoid. Anconeus loading further decreases and improves the distribution of the contact pressures; however, its effect is independent of that of the lateral part of the distal triceps. These results substantiate a role of the lateral part of the distal triceps as a dynamic constraint against elbow varus and have clinical implications for prevention and rehabilitation of elbow instability. [ABSTRACT FROM AUTHOR]

Published
2023
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40. The role of the lateral collateral ligament-capsule complex of the elbow under gravity varus.

Author

Kwak, Jae-Man, Rotman, Dani, Lievano, Jorge Rojas, Fitzsimmons, James S., and O'Driscoll, Shawn W.

Abstract

The lateral collateral ligament complex along with the capsule is likely to be at risk during arthroscopic extensor carpi radialis brevis release for lateral epicondylitis. We hypothesized that disruption of the lateral collateral ligament-capsule complex (LCL-cc) would increase the mean contact pressure on the coronoid under gravity varus. Eight cadaveric elbows were tested via gravity varus and weighted varus (2 Nm) stress tests using a custom-made machine designed to simulate muscle loads while allowing passive flexion of the elbow. Mean articular surface contact pressure data were collected and processed using intra-articular thin-film sensors and software. Sequential testing was performed on each specimen from stage 0 to stage 3 (stage 0, intact; stage 1, release of anterior one-third of LCL-cc; stage 2; release of anterior two-thirds of LCL-cc; and stage 3, release of entire LCL-cc). The mean contact pressure on the coronoid and the mean ratio of contact pressure on the medial coronoid to that on the lateral coronoid (M/L ratio) were used for comparisons among the stages and the intact elbow. The overall mean contact pressure significantly increased in stage 2 (P =.0004 in gravity varus and P =.0001 in weighted varus) and stage 3 (P <.0001 in gravity varus and P <.0001 in weighted varus) compared with that in stage 0. In contrast, release of the anterior one-third of the LCL-cc (stage 1) did not significantly increase the mean contact pressure on the coronoid in any degree of flexion under gravity varus (P =.09) or weighted varus loading (P =.6). The M/L ratio difference between stage 0 and stage 1 was 1.1 ± 1.1 under gravity varus (P =.8) and 2.1 ± 1.0 under weighted varus (P =.2). The overall M/L ratios in stage 2 and stage 3 were significantly higher than those seen in stage 0 under gravity varus (P =.04 in stage 2 and P =.02 in stage 3) and weighted varus (P =.006 in stage 2 and P <.0001 in stage 3). Loss of the anterior two-thirds or more of the LCL-cc significantly increases the overall mean contact pressure on the coronoid, especially the medial coronoid, under both gravity varus and weighted varus. The LCL-cc also plays a role in the distribution of coronoid contact pressure against gravity varus loads. [ABSTRACT FROM AUTHOR]

Published
2023
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44. Knee

Author

Babu, Ashwin N., Chen, Eric T., Daniels, James M., editor, and Dexter, William W., editor

Published
2021
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47. Biomechanics of the Elbow Joint

Author

Rasmussen, Jeppe Vejlgaard, Olsen, Bo Sanderhoff, Watts, Adam C., editor, Funk, Lennard, editor, Hayton, Michael, editor, Ng, Chye Yew, editor, and Walton, Mike, editor

Published
2021
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48. Collateral ligament strain is linearly related to coronal lower limb alignment: A biomechanical study.

Author

Peez C, Hägerich LM, Ruhl F, Klimek M, Briese T, Glasbrenner J, Deichsel A, Raschke MJ, Kittl C, and Herbst E

Subjects
Humans, Biomechanical Phenomena, Male, Aged, Female, Medial Collateral Ligament, Knee physiology, Collateral Ligaments physiology, Collateral Ligaments diagnostic imaging, Middle Aged, Stress, Mechanical, Range of Motion, Articular physiology, Lower Extremity physiology, Weight-Bearing physiology, Cadaver, Knee Joint physiology, Knee Joint diagnostic imaging
Abstract

Purpose: The purpose of this study was to analyse the influence of coronal lower limb alignment on collateral ligament strain., Methods: Twelve fresh-frozen human cadaveric knees were used. Long-leg standing radiographs were obtained to assess lower limb alignment. Specimens were axially loaded in a custom-made kinematics rig with 200 and 400 N, and dynamic varus/valgus angulation was simulated in 0°, 30°, and 60° of knee flexion. The changes in varus/valgus angulation and strain within different fibre regions of the collateral ligaments were captured using a three-dimensional optical measuring system to examine the axis-dependent strain behaviour of the superficial medial collateral ligament (sMCL) and lateral collateral ligament (LCL) at intervals of 2°., Results: The LCL and sMCL were exposed to the highest strain values at full extension (p < 0.001). Regardless of flexion angle and extent of axial loading, the ligament strain showed a strong and linear association with varus (all Pearson's r ≥ 0.98; p < 0.001) and valgus angulation (all Pearson's r ≥ -0.97; p < 0.01). At full extension and 400 N of axial loading, the anterior and posterior LCL fibres exceeded 4% ligament strain at 3.9° and 4.0° of varus, while the sMCL showed corresponding strain values of more than 4% at a valgus angle of 6.8°, 5.4° and 4.9° for its anterior, middle and posterior fibres, respectively., Conclusion: The strain within the native LCL and sMCL was linearly related to coronal lower limb alignment. Strain levels associated with potential ultrastructural damages to the ligaments of more than 4% were observed at 4° of varus and about 5° of valgus malalignment, respectively. When reconstructing the collateral ligaments, an additional realigning osteotomy should be considered in cases of chronic instability with a coronal malalignment exceeding 4°-5° to protect the graft and potentially reduce failures., Level of Evidence: There is no level of evidence as this study was an experimental laboratory study., (© 2024 The Author(s). Knee Surgery, Sports Traumatology, Arthroscopy published by John Wiley & Sons Ltd on behalf of European Society of Sports Traumatology, Knee Surgery and Arthroscopy.)

Published
2025
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49. Measurement of Distance Between Femoral Insertion of Fibular Collateral Ligament and Popliteus: A Cadaveric Study in Indian Population.

Author

Mishra, Pallav, Goyal, Ankit, Topgia, Chhewang, Lal, Hitesh, Kumar, Sanjeev, and Ajay, Ajay

Subjects
*PLASTIC surgery, *COLLATERAL ligament, *KNEE injuries
Abstract

Background: Injuries to posterolateral corner (PLC) of knee are often neglected. The three key components of PLC are lateral collateral ligament (LCL), popliteofibular ligament (PFL) and popliteus tendon (PT). For adequate reconstruction, anatomic location of these ligaments should be well understood. Material and methods: Twenty formalin fixed cadaveric knees were dissected. PT and LCL identified. Circumference of the two structures marked with pen just after cutting them close to bone surface. Distance between the centre of LCL and PT was measured along with the measurement of distal femoral medio-lateral dimension (MLD) and Anteroposterior dimension (ALD) of lateral condyle. Result: The mean distance between PT and LCL measured in 20 specimens was 8.3 ± 0.84 mm, with a range of 7 mm to 10 mm. MLD was 81.0 ± 3.6 mm and APD was 62.7 ± 3.2 mm. Conclusion: The distance in Indian population is significantly smaller compared to the western. This has clinical implication in drilling the tunnels for PLC reconstruction. [ABSTRACT FROM AUTHOR]

Published
2022
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