Your search keyword '"Ankle ligaments"' showing total 264 results

1. Increased Femoral Neck Anteversion is Prevalent in Male Elite Youth Soccer Players with Chronic Ankle Instability

Author

Coşkun, Osman, Arslan, Serdar, Yapalı, Gökmen, Arslan, Tuğba, Dinç, Engin, and Gültekin, Muhammet Zeki

Published

2024

2. Operative Management of Lateral Ankle Instability: Examination Under Anesthesia, Ankle Arthroscopy and Stabilization Technique.

Author

Ashy, Cody C., Rodriguez Materon, Solangel, Goodloe, J. Brett, and Scott, Daniel J.

Subjects

ANKLE injuries, ARTHROSCOPY, ANESTHESIA, PERONEAL nerve, SPORTS re-entry

Abstract

Background: Ankle sprains are common injuries that can result in chronic ankle instability. Indications: Indications for surgical management include recurrent instability, failed conservative management for 3 to 6 months, and inability to return to play or activity. Technique Description: The patient's ankle is initially examined under anesthesia with anterior drawer testing to confirm the diagnosis of ankle instability. Ankle arthroscopy is then preformed to identify and treat additional intra-articular pathology prior to modified Broström repair. During arthroscopy, care is taken to protect the superficial peroneal nerve. Routinely we perform a "drive-through sign" to assess syndesmotic stability and also debride pathologic intra-articular tissue such as hypertrophied synovium. Following the completion of arthroscopy, an incision is made directly over the fibula. The anterior talofibular ligament (ATFL), calcaneofibular ligament (CFL), and distal fibular periosteum are dissected off the fibula. Two 3.0-mm suture anchors are placed at the origin of the CFL ligament and the ATFL ligament, and previously dissected tissue is incorporated for repair. We reinforce the CFL and ATFL tissues with incorporation of the distal fibular periosteum. Suture tape augmentation is considered for patients at high risk of recurrence, such as those with ligamentous laxity. After completion of our repair, the ankle is again examined under anesthesia with satisfactory confirmation of improved ankle stability. Results: Outcomes of our technique are promising, with improvement in patient-reported outcome measures, restoration of range of motion, return to sport as high as 94%, and low failure rates. Discussion: For patients with chronic instability, our described technique for sequential examination under anesthesia, ankle arthroscopy, and our modified Broström result in satisfactory improvement in ankle stability and patient symptoms. 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. [ABSTRACT FROM AUTHOR]

Published

2024

3. Clinical Relevance and Function of Anterior Talofibular Ligament Superior and Inferior Fascicles: A Robotic Study.

Author

Dalmau-Pastor, Miki, El-Daou, Hadi, Stephen, Joanna M., Vega, Jordi, Malagelada, Francesc, and Calder, James

Subjects

*SKELETAL muscle injuries, *IN vitro studies, *MEDICAL cadavers, *STATISTICS, *ANKLE joint, *JOINT instability, *SURGICAL robots, *LIGAMENTS, *RESEARCH methodology, *ANKLE, *BIOMECHANICS, *DATA analysis

Abstract

Background: Ankle lateral ligament sprains are common injuries in sports, and some may result in persistent ankle pain and a feeling of instability without clinical evidence of instability. The anterior talofibular ligament (ATFL) has 2 distinct fascicles, and recent publications have suggested that injury isolated to the superior fascicle might be the cause of these chronic symptoms. This study aimed to identify the biomechanical properties conferred by the fascicles in stabilizing the ankle in order to understand potential clinical problems that may follow when the fascicles are injured. Purpose/Hypothesis: The aim of this study was to determine the contribution of superior and inferior fascicles of the ATFL in restraining anteroposterior tibiotalar resistance, internal external tibial rotation resistance, and inversion eversion talar rotation resistance. It was hypothesized that an isolated injury of the ATFL superior fascicle would have a measurable effect on ankle stability and that the superior and inferior fascicles would restrain different motions of the ankle. Study Design: Descriptive laboratory study. Methods: A robotic system with 6 degrees of freedom was used to test ankle instability in 10 cadavers. Serial sectioning following the most common injury pattern (from superior to inferior fascicles) was performed on the ATFL while the robot ensured reproducible movement through a physiological range of dorsiflexion and plantarflexion. Results: Sectioning of only the ATFL superior fascicle had a significant and measurable effect on ankle stability, resulting in increased internal rotation and anterior translation of the talus, especially in plantarflexion. Sectioning of the entire ATFL resulted in significantly decreased resistance in anterior translation, internal rotation, and inversion of the talus. Conclusion: Rupture of only the superior fascicle of the ATFL may lead to minor instability or microinstability of the ankle joint, without objective clinical findings of gross clinical laxity. Clinical Relevance: Some patients develop chronic symptoms after an ankle sprain without overt signs of instability. This may be explained by an isolated injury to the ATFL superior fascicle, and diagnosis may require careful clinical evaluation and magnetic resonance imaging examination looking at the individual fascicles. It is possible that such patients may benefit from lateral ligament repair despite having no gross clinical instability. [ABSTRACT FROM AUTHOR]

Published

2023

4. Ankle Instability Update.

Author

Cerezal, Alvaro, Ocampo, Ronald, Llopis, Eva, and Cerezal, Luis

Subjects

*ANKLE injuries, *KNEE injuries, *ANKLE, *MAGNETIC resonance imaging, *MAGNETIC resonance, *LIGAMENTS, *CONSERVATIVE treatment

Abstract

Sprains are the most frequent injuries of the ankle, especially in sports. Up to 85% of cases affect the lateral ligament complex. Multi-ligament injuries with associated lesions of the external complex, deltoid, syndesmosis, and sinus tarsi ligaments are also common. Most ankle sprains respond to conservative treatment. However, up to 20 to 30% of patients can develop chronic ankle pain and instability. New concepts have been recently developed, based on arthroscopic advances, such as microinstability and rotatory ankle instability. These entities could be precursors of mechanical ankle instability and at the origin of frequently associated ankle injuries, such as peroneus tendon lesions, impingement syndromes, or osteochondral lesions. Imaging methods, especially magnetic resonance (MR) imaging and MR arthrography, are key in precisely diagnosing ligament lesions and associated injuries, facilitating an adequate therapeutic approach. [ABSTRACT FROM AUTHOR]

Published

2023

5. Don't Miss Me: Midfoot Sprains, A Point-of-Care Review.

Author

Koetser, Inge C.J., Espinosa Hernández, Enrique A., Kerkhoffs, Prof. dr. Gino M.M.J., Goedegebuure, Simon, Smithuis, Frank F., and Maas, Prof. dr. Mario

Subjects

*ANKLE injuries, *SPRAINS, *DIAGNOSTIC ultrasonic imaging personnel, *JOINTS (Anatomy), *MAGNETIC resonance imaging, *TREATMENT delay (Medicine), *PHYSICAL therapists

Abstract

Athletes practicing high-contact sports are exposed to an increased risk of midfoot injuries, namely midtarsal sprains. The complexity of reaching an accurate diagnosis is clearly depicted in the reported incidence of midtarsal sprains, ranging from 5% to 33% of ankle inversion injuries. Because the focus of the treating physician and physical therapist is on lateral stabilizing structures, midtarsal sprains are missed at initial evaluation in up to 41% of patients, with delayed treatment as a result. Detecting acute midtarsal sprains requires a high degree of clinical awareness. Radiologists must become familiar with the characteristic imaging findings of normal and pathologic midfoot anatomy to avoid adverse outcomes such as pain and instability. In this article we describe Chopart joint anatomy, mechanisms of midtarsal sprains, clinical importance, and key imaging findings with a focus on magnetic resonance imaging. A team effort is essential to provide optimal care for the injured athlete. [ABSTRACT FROM AUTHOR]

Published

2023

6. Minimally Invasive Reconstruction of the Ankle Lateral Ligament Complex in Chronic Ankle Instability: Clinical Outcomes, Return to Sport and Recurrence Rate at Minimum Follow up of 5 Years.

Author

Usuelli, Federico Giuseppe, Montagna, Alice, Sangaletti, Rudy, Indino, Cristian, Maccario, Camilla, and Grassi, Federico Alberto

Subjects

ANKLE, TREATMENT effectiveness, LIGAMENTS, ANKLE injuries, CONSERVATIVE treatment, SURVIVAL rate

Abstract

Background: Chronic ankle instability is a common condition that develops after lateral ankle sprains. Many surgical techniques have been described in case of failure of conservative treatment. The purpose of this paper is to present the results in terms of clinical outcomes, return to sport and recurrence rate after reconstruction of the lateral ligament complex of the ankle with a minimally invasive approach at a minimum follow up of five years. Methods: This retrospective study involved forty-seven patients treated for chronic ankle instability from January 2013 to November 2017. The clinical outcomes were evaluated with the American Orthopedic Foot and Ankle Society ankle and hindfoot score (AOFAS score), the University of California–Los Angeles Rating Scale (UCLA Rating Scale), the Karlsson–Peterson ankle instability score and the Halasi scale at a mean follow up time of 80 months. Results: The mean age of the patients was 42 years (23–63). The mean VAS pain score decreased from 5.6 (2–9) pre-operatively to 0.7 (0–7) post-operatively. The mean UCLA Rating Scale score improved from 7.7 (4–8) before surgical treatment to 9.2 (6–10) afterwards. The AOFAS score increased from a pre-operative mean value of 66.5 (40–95) to a post-operative mean value of 94 (88–100) and the Halasi scale from a pre-injury mean value of 4.3 (2–8) to 4.5 post-operatively (2–8). The mean Karlsson–Peterson ankle instability score increased from 71 (40–90) pre-operatively to 87.9 (70–90) post-operatively. During this period of follow up, the procedure survival rate was 95.7%, with two cases of recurrence of ankle sprain post-operatively after twelve months in one case and forty months in the other case. Conclusions: The described technique of reconstruction of the anterior talofibular and calcaneofibular ligament with a minimally invasive approach with a semitendinosus autograft is a viable treatment option for chronic ankle instability and enables the majority of patients to regain their activity and sport level with a low recurrence rate at a mid-term follow up. [ABSTRACT FROM AUTHOR]

Published

2023

7. Lateral Ankle Ligament Injuries

Author

Guelfi, Matteo, Malagelada, Francesc, Cordier, Guillaume, Vega, Jordi, Dalmau-Pastor, Miki, Cain, Jarrett D., editor, and Hogan, MaCalus V., editor

Published

2022

8. Syndesmosis Injury: Classification, Evaluation, and Prevention

Author

Longo, Umile Giuseppe, Stelitano, Giovanna, Lubberts, Bart, Di Giovanni, Christopher W., van Dijk, Niek, Denaro, Vincenzo, D’Hooghe, Pieter, editor, Hunt, Kenneth J., editor, and McCormick, Jeremy J., editor

Published

2022

9. Gross Anatomy of the Ankle Joint for Arthroscopy

Author

Wei, Baofu, Lau, Brian, Murawski, Christopher, Fu, Chuansheng, Yan, Alan Y., Wei, Baofu, Yan, Alan Y., and Amendola, Annunziato

Published

2022

10. Complejo Ligamentoso Lateral de la Articulación Talocrural (Tobillo): Biometría y Patrones de División.

Author

Elias, Fernández and Mérida Luis, Pérez

Subjects

*FORENSIC medicine, *SURGICAL clinics, *LIGAMENTS, *ANATOMY, *UNIVERSITY faculty, *ANKLE

Abstract

The lateral ankle complex (LAC) basically includes three structures called anterior talofibular ligament (ATFL), calcaneofibular ligament (CFL) and posterior talofibular ligament (PTFL). In recent works published in relation to the morphology of LAC, ATFL is classified into three types, based on the number of bands or fascicles. This morphological modification poses new challenges for anatomical studies in biomechanics and ankle stability. The objective of this is to deepen in greater detail the anatomy of this complex, based on dissections by layer that allow us to study the existing relationships between these ligaments and surrounding structures. 10 frozen pieces belonging to the Department of Anatomy and Legal Medicine of the Faculty of Medicine of the University of Chile were used; whose ligaments were located and measured in width and length. For ATFL, a single pattern was found in 5 samples, bifurcated in 4, while a trifurcated pattern was seen in one case. Knowledge of the lateral ligamentous complex of the ankle, as well as its direction, biometry and bands or fascicles, are an important contribution to imaging, rehabilitation, clinics and surgeries that address this region. [ABSTRACT FROM AUTHOR]

Published

2023

11. Imaging diagnosis for anterior talofibular ligament injury: a systemic review with meta-analysis.

Author

Cao, Mingming, Liu, Shuxue, Zhang, Xiongbiao, Ren, Mingda, Xiao, Zheng, Chen, Jing, and Chen, Xianteng

Subjects

*LIGAMENT injuries, *ANKLE radiography, *MAGNETIC resonance imaging, *ULTRASONIC imaging, *RANDOMIZED controlled trials

Abstract

A definite diagnosis of ankle ligament injury is crucial, and many imaging examinations can be used. This review systematically analyzed the effectiveness of various examination methods in the diagnosis of anterior talofibular ligament (ATFL) injuries. Three English databases (PubMed, Embase, and Cochrane Library) and three Chinese databases (CNKI, VIP Database, and Wanfang Database) were searched and relevant studies were summarized. A total of 25 randomized controlled trials met the selection criteria, including six, 16, and three studies recruiting patients with acute, chronic, and both acute and chronic ATFL injuries, respectively. A total of 1409 participants were included. The pooled sensitivity rates of acute ATFL injuries were 82.1% (77.1%–86.5%) by magnetic resonance imaging (MRI) and 88.6% (82.0%–93.5%) by ultrasonography (US). The pooled sensitivity rates of chronic ATFL injuries were 86.3% (82.5%–89.5%) by MRI, 98.7% (95.3%–99.8%) by US, 74.4% (63.6%–83.4%) by stress radiography, and 100% (87.7%–100.0%) for MR arthrography. The pooled specificity rates of acute ATFL injuries were 37.8% (29.1%–47.2%) by MRI and 90.3% (80.1%–96.4%) by US. The pooled specificity rates of chronic ATFL injuries were 86.8% (81.3%–91.2%) by MRI, 94.0% (85.4%–98.3%) for US, 89.4% (76.9%– 96.5%) by stress radiography and 100% (54.1%–100.0%) by MR arthrography. In conclusion, US may be a valuable imaging technique with high sensitivity for diagnosing chronic lateral ankle ligament injuries. [ABSTRACT FROM AUTHOR]

Published

2023

12. Relationship of Subtalar Joint Range of Motion to Ankle Injuries in NBA G League and Collegiate Basketball Players.

Author

Shah, Sarav S., Ames, Andrew, Saini, Sundeep S., Lee, Sonia, Li, Lambert, Brothers, Courtney, Austin, Tyler, Bonacum, Timothy, Metcalfe, Michael, Weitzel, Paul, McKeon, Brian, and Gillespie, Heather

Abstract

Background: This study sought to determine whether range of motion (ROM) of the ankle and subtalar joint complex (STJ) is correlated with ankle injuries in National Basketball Association (NBA) G-league and collegiate basketball players to identify an at-risk population that may benefit from participation in an ankle injury prevention program. Methods: This prospective cohort study encompassed 103 player-seasons (68 collegiate, 35 NBA G-League). Patient demographics, passive ankle and STJ range of motion measurements, anterior drawer, and talar tilt tests were collected at preseason physicals along with plain radiographs. Subtalar eversion and inversion measurements were added to assess the Combination Motion (CM) of the STJ and subtracted to calculate the Subtalar Difference (SD). We defined the ratio of CM to SD as Subtalar Mobility Index (SMI=CM/SD). Results: Twenty-one ankle injuries occurred with 10 405 player exposures yielding an incidence of 2.11/1000 exposures, resulting in 113 days of missed playing time. No direct measures of ankle, subtalar, or combined motion were associated with risk of injury, rejecting our original hypothesis that increased STJ ROM would predispose to ankle injuries. However, we did find that athletes with CM >16 degrees in combination with either SD <6 degrees (P =.025) or SMI >3.75 (P =.032) were nearly 3 times more likely to have an ankle injury (3.14 vs 2.97, respectively). Conclusion: Using the predictive subtalar mobility thresholds found in this study may help identify at-risk players that may benefit from targeted ankle injury prevention programs. Level of Evidence: Level II, prospective cohort study. [ABSTRACT FROM AUTHOR]

Published

2023

13. Presurgical Perspective and Postsurgical Evaluation of Instability and Microinstability Secondary to Ankle Ligaments Injury.

Author

Perez, Alexeys, Vega, Jordi, Llopis, Eva, and Cerezal, Luis

Subjects

*LIGAMENT injuries, *ANKLE injuries, *ANKLE, *OPERATIVE surgery, *LIGAMENTS, *ARTHROSCOPY

Abstract

Injuries of the ankle ligaments complexes are very common, and ∼ 20 to 40% of patients can develop chronic ankle instability (CAI). Current concepts in CAI allow a better understanding of the ankle biomechanics needed to repair it. The surgical treatment of CAI has evolved in the last decade, and ankle arthroscopy has become an essential tool in the treatment of instability with promising results. We review the different surgical techniques to treat CAI, both those frequently used and the new approaches, as well as the normal postsurgical appearance of ankle ligaments repair and the most common complications. [ABSTRACT FROM AUTHOR]

Published

2022

14. Modeling and Simulation of Biomechanical Behavior of Ankle Ligaments with Applications in Vibration Therapy

Author

Neamţu Popescu, Adela, Crâştiu, Ion, Simoiu, Dorin, Ursu, Andreea Raluca, Bereteu, Liviu, Ceccarelli, Marco, Series Editor, Hernandez, Alfonso, Editorial Board Member, Huang, Tian, Editorial Board Member, Takeda, Yukio, Editorial Board Member, Corves, Burkhard, Editorial Board Member, Agrawal, Sunil, Editorial Board Member, Lovasz, Erwin-Christian, editor, Maniu, Inocentiu, editor, Doroftei, Ioan, editor, Ivanescu, Mircea, editor, and Gruescu, Corina-Mihaela, editor

Published

2021

15. Ankle and Foot

Author

Gyftopoulos, Soterios, Woertler, Klaus, Hodler, Juerg, Series Editor, Kubik-Huch, Rahel A., Series Editor, and von Schulthess, Gustav K., Series Editor

Published

2021

16. Anatomic Perspective on the Role of Inferior Extensor Retinaculum in Lateral Ankle Ligament Reconstruction

Author

Dalmau-Pastor, M., Kerkhoffs, G. M. M. J., Kennedy, J. G., Karlsson, Jón, Michels, F., Vega, J., Pereira, Hélder, editor, Guillo, Stéphane, editor, Glazebrook, Mark, editor, Takao, Masato, editor, Calder, James, editor, Van Dijk, Niek, editor, and Karlsson, Jón, editor

Published

2021

17. Soft Tissue Disorders of the Ankle

Author

Smith, Jeremy T., Bluman, Eric M., Chiodo, Christopher P., Martin, Elizabeth A., Schoenfeld, Andrew J., editor, Blauwet, Cheri A., editor, and Katz, Jeffrey N., editor

Published

2021

18. Open Evaluation of the Peroneal Tendons Should Be Considered in Patients With Chronic Lateral Ankle Instability Undergoing Ankle Arthroscopy With Lateral Ankle Stabilization.

Author

Clair, Benjamin L., Winder, Michelle L., and Neubauer, Elizabeth F.

Abstract

Peroneal tendon pathology is commonly associated with chronic lateral ankle instability. Foot and ankle surgeons often rely on preoperative magnetic resonance imaging (MRI) for identification of related pathology and surgical planning in these patients. The purpose of this study was to assess the ability of preoperative MRI to accurately detect peroneal tendon pathology in patients with chronic lateral ankle instability. Consecutive surgical cases involving arthroscopic evaluation and management of lateral ankle instability sequelae were evaluated retrospectively. Preoperative MRI were compared to intraoperative findings in order to determine the sensitivity, specificity, positive and negative predictive values. Eighty-two patients met inclusion criteria, 58 females and 24 males. The average age at the time of surgery was 46 years (range 13-75). Peroneal tendon pathology was identified intraoperatively in 76 (92.7%) patients and on MRI in 40 (48.8%) patients. The most commonly identified pathologies were tenosynovitis, tendinopathy and longitudinal split/tear, with the peroneus brevis tendon being most commonly involved. MRI was 38.7% specific, 50.0% sensitive, had a positive predictive value of 92.5%, and a negative predictive value of 7.1%. While MRI is a helpful study for evaluation of co-pathologies and surgical planning in patients with lateral ankle instability, procedural selection should not be solely based on MRI results, and the peroneal tendons should be evaluated intraoperatively in patients undergoing arthroscopic procedures for lateral ankle instability. [ABSTRACT FROM AUTHOR]

Published

2022

19. Anatomy of the Ankle Joint and Hindfoot

Author

Dalmau-Pastor, Miki, Guelfi, Matteo, Malagelada, Francesc, Mirapeix, Rosa M., Vega, Jordi, Allegra, Francesco, editor, Cortese, Fabrizio, editor, and Lijoi, Francesco, editor

Published

2020

20. Minimally Invasive Reconstruction of the Ankle Lateral Ligament Complex in Chronic Ankle Instability: Clinical Outcomes, Return to Sport and Recurrence Rate at Minimum Follow up of 5 Years

Author

Federico Giuseppe Usuelli, Alice Montagna, Rudy Sangaletti, Cristian Indino, Camilla Maccario, and Federico Alberto Grassi

Subjects

ankle sprains, ankle instability, ankle ligaments, surgical treatment, ankle lateral ligament reconstruction, semitendinosus autograft, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Background: Chronic ankle instability is a common condition that develops after lateral ankle sprains. Many surgical techniques have been described in case of failure of conservative treatment. The purpose of this paper is to present the results in terms of clinical outcomes, return to sport and recurrence rate after reconstruction of the lateral ligament complex of the ankle with a minimally invasive approach at a minimum follow up of five years. Methods: This retrospective study involved forty-seven patients treated for chronic ankle instability from January 2013 to November 2017. The clinical outcomes were evaluated with the American Orthopedic Foot and Ankle Society ankle and hindfoot score (AOFAS score), the University of California–Los Angeles Rating Scale (UCLA Rating Scale), the Karlsson–Peterson ankle instability score and the Halasi scale at a mean follow up time of 80 months. Results: The mean age of the patients was 42 years (23–63). The mean VAS pain score decreased from 5.6 (2–9) pre-operatively to 0.7 (0–7) post-operatively. The mean UCLA Rating Scale score improved from 7.7 (4–8) before surgical treatment to 9.2 (6–10) afterwards. The AOFAS score increased from a pre-operative mean value of 66.5 (40–95) to a post-operative mean value of 94 (88–100) and the Halasi scale from a pre-injury mean value of 4.3 (2–8) to 4.5 post-operatively (2–8). The mean Karlsson–Peterson ankle instability score increased from 71 (40–90) pre-operatively to 87.9 (70–90) post-operatively. During this period of follow up, the procedure survival rate was 95.7%, with two cases of recurrence of ankle sprain post-operatively after twelve months in one case and forty months in the other case. Conclusions: The described technique of reconstruction of the anterior talofibular and calcaneofibular ligament with a minimally invasive approach with a semitendinosus autograft is a viable treatment option for chronic ankle instability and enables the majority of patients to regain their activity and sport level with a low recurrence rate at a mid-term follow up.

Published

2023

21. Needle arthroscopy in anatomical reconstruction of the lateral ankle: a report of three cases with a parallel comparison to the standard arthroscopy procedure.

Author

Lopes, R., Noailles, T., Padiolleau, G., Bouguennec, N., and Vieira, T. D.

Subjects

NEEDLES & pins, ARTHROSCOPY, ANKLE, ANKLE joint, ANKLE injuries, NEEDLESTICK injuries

Abstract

Purpose: This study evaluates the use of the needle arthroscopy in anatomical reconstruction of the lateral ankle. We hypothesized that the needle arthroscopy would allow anatomical reconstruction to be performed under arthroscopy. Methods: Three patients underwent treatment of chronic ankle instability. The comparative procedure was performed in the following four steps: 1) anteromedial articular exploration (medial/lateral gutter/anterior chamber/syndesmosis); 2)creation of the talar tunnel via the anteromedial arthroscopic approach; 3) anterolateral fibular tunneling; and 4) positioning of the graft by the anteromedial arthroscopic approach. For each of these steps, the planned procedure using the needle arthroscope was compared to the standard arthroscope. For each step, the planned procedure using the needle arthroscopy was compared to the standard arthroscope and the act was classified based on level of difficulty: facilitated, similar, complicated and impossible. Results: The exploration of the medial and lateral gutter, the creation of the tunnel of the talus and graft positioning were not accomplished using the needle arthroscope. While the syndesmosis visualization was facilitated by the needle arthroscope in comparison to the standard arthroscope. Conclusion: The anatomical reconstruction of the lateral ankle, using the needle arthroscopy-only approach, was impossible in all three cases, regarding: ankle joint exploration, creation of the tunnel of the talus and graft positioning. The needle arthroscope should not be considered as a "mini arthroscope" but as a new tool with which it is necessary to rethink procedures to take advantage of the benefits of this instrument. [ABSTRACT FROM AUTHOR]

Published

2022

22. Anatomical dissection of the calcaneofibular ligament of the ankle – a macroscopic and morphometric study

Author

Assia Yabka and Hamzaoui Bahia

Subjects

anatomical dissection, ankle ligaments, morphometric study, anatomical variations, Medicine (General), R5-920

Abstract

Introduction and objective Common to the talocrural and subtalar joints, the calcaneofibular ligament forms with the anterior bundle a mechanical coupling factor for ankle stabilization. Adhering to the deep surface of the fibular sheath, doubled in depth by the lateral talocalcaneal ligament, it is solicited in isolated varus and its lesion is involved in subtalar instability. The therapeutic strategy for chronic ankle instability is currently based on the anatomical reconstruction of the ligaments, particularly by arthroscopy, hence the objective of this study, which aims to highlight the great variability of the calcaneofibular ligament. Material and methods Our work is based on the dissection of 24 ankles. The number of beams, the dimensions at the neutral point and after power-up, the relationships with the surrounding anatomical structures as well as the points of insertion of the CFL are studied. Results The calcaneofibular ligament was monofascicular in 91.6% of cases and bifascicular in 8.4%. Its average length in a neutral position was 26.85 ± 3.46 mm, and its width was 5.33 ± 1.45 mm. In dorsiflexion, the length was 27.10 ± 0.05 mm, and in forced inversion, it was 26.98 ± 0.07 mm. The distance between its fibular insertion and the apex of the lateral malleolus was 6.2 ± 0.9 mm. Conclusions Injuries of the calcaneofibular ligament are common in lateral ankle sprains, which can often get complicated by chronic instability. The macroscopic and morphometric knowledge of this ligament can allow a more accurate anatomical reconstruction and a more accurate choice of graft.

Published

2021

23. Syndesmosis Injuries

Author

D’Hooghe, Pieter, Canata, Gian Luigi, editor, d'Hooghe, Pieter, editor, Hunt, Kenneth J., editor, Kerkhoffs, Gino M.M.J., editor, and Longo, Umile Giuseppe, editor

Published

2019

24. Needle arthroscopy in anatomical reconstruction of the lateral ankle: a report of three cases with a parallel comparison to the standard arthroscopy procedure

Author

R. Lopes, T. Noailles, G. Padiolleau, N. Bouguennec, and T. D. Vieira

Subjects

Ankle reconstruction, Ankle arthroscopy, Needle arthroscopy, Ankle ligaments, Arthroscopy, Nanoscope, Orthopedic surgery, RD701-811

Abstract

Abstract Purpose This study evaluates the use of the needle arthroscopy in anatomical reconstruction of the lateral ankle. We hypothesized that the needle arthroscopy would allow anatomical reconstruction to be performed under arthroscopy. Methods Three patients underwent treatment of chronic ankle instability. The comparative procedure was performed in the following four steps: 1) anteromedial articular exploration (medial/lateral gutter/anterior chamber/syndesmosis); 2)creation of the talar tunnel via the anteromedial arthroscopic approach; 3) anterolateral fibular tunneling; and 4) positioning of the graft by the anteromedial arthroscopic approach. For each of these steps, the planned procedure using the needle arthroscope was compared to the standard arthroscope. For each step, the planned procedure using the needle arthroscopy was compared to the standard arthroscope and the act was classified based on level of difficulty: facilitated, similar, complicated and impossible. Results The exploration of the medial and lateral gutter, the creation of the tunnel of the talus and graft positioning were not accomplished using the needle arthroscope. While the syndesmosis visualization was facilitated by the needle arthroscope in comparison to the standard arthroscope. Conclusion The anatomical reconstruction of the lateral ankle, using the needle arthroscopy‐only approach, was impossible in all three cases, regarding: ankle joint exploration, creation of the tunnel of the talus and graft positioning. The needle arthroscope should not be considered as a “mini arthroscope” but as a new tool with which it is necessary to rethink procedures to take advantage of the benefits of this instrument.

Published

2022

25. Foot and ankle surgery: new frontiers for translational advancements.

Author

Anastasio AT

Abstract

Competing Interests: Conflicts of Interest: The author has completed the ICMJE uniform disclosure form (available at https://atm.amegroups.com/article/view/10.21037/atm-2023-28/coif). The series “Foot and Ankle Surgery” was commissioned by the editorial office without any funding or sponsorship. A.T.A. served as the unpaid Guest Editor of the series, and reports consulting fees received from QPIX Solutions. The author has no other conflicts of interest to declare.

Published

2024

26. Soft Tissue Disorders of the Ankle

Author

Smith, Jeremy T., Bluman, Eric M., Chiodo, Christopher P., Katz, Jeffrey N., editor, Blauwet, Cheri A., editor, and Schoenfeld, Andrew J., editor

Published

2018

27. Anatomical dissection of the calcaneofibular ligament of the ankle - a macroscopic and morphometric study.

Author

Yabka, Assia and Bahia, Hamzaoui

Subjects

ARTHROSCOPY, ANATOMICAL variation, MORPHOMETRICS, THERAPEUTICS, WOUNDS & injuries

Abstract

Introduction and objective. Common to the talocrural and subtalar joints, the calcaneofibular ligament forms with the anterior bundle a mechanical coupling factor for ankle stabilization. Adhering to the deep surface of the fibular sheath, doubled in depth by the lateral talocalcaneal ligament, it is solicited in isolated varus and its lesion is involved in subtalar instability. The therapeutic strategy for chronic ankle instability is currently based on the anatomical reconstruction of the ligaments, particularly by arthroscopy, hence the objective of this study, which aims to highlight the great variability of the calcaneofibular ligament. Materials and method. Our work is based on the dissection of 24 ankles. The number of beams, the dimensions at the neutral point and after power-up, the relationships with the surrounding anatomical structures as well as the points of insertion of the CFL are studied. Results. The calcaneofibular ligament was monofascicular in 91.6% of cases and bifascicular in 8.4%. Its average length in a neutral position was 26.85 ± 3.46 mm, and its width was 5.33 ± 1.45 mm. In dorsiflexion, the length was 27.10 ± 0.05 mm, and in forced inversion, it was 26.98 ± 0.07 mm. The distance between its fibular insertion and the apex of the lateral malleolus was 6.2 ± 0.9 mm. Conclusions. Injuries of the calcaneofibular ligament are common in lateral ankle sprains, which can often get complicated by chronic instability. The macroscopic and morphometric knowledge of this ligament can allow a more accurate anatomical reconstruction and a more accurate choice of graft. [ABSTRACT FROM AUTHOR]

Published

2021

28. Application of 3D Printing and WebGL-Based 3D Visualisation Technology in Imaging Teaching of Ankle Joints.

Author

Li, Xiaomin, Dai, Xiaoqing, Guo, Jiuhong, Qu, Yang, Wu, Bing, Liu, Siyu, Wan, Daqian, and Ai, Songtao

Abstract

With the rapid development of medical technology, 3D printing technology with realistic representation can perfectly display static human anatomy, while 3D visualisation technology based on Web Graphics Library (WebGL) can promote the rigid replication characteristics of traditional teaching models and express the dynamic spatial relationship between different anatomical structures. Medical students traditionally have less cognition of ankle ligament sprains. In this study, computed tomography (CT) and magnetic resonance imaging (MRI) data of the ankle joints of volunteers were used to print models of the ankle bone, tendon, and ligament using 3D printing technology, and a real-time interactive 3D digital model of the functional ankle joint was designed using 3D visualisation based on WebGL and 2D image real-time rendering technology for interactive teaching. The utility of the 3D printing model combined with the WebGL-based 3D digital teaching model was evaluated in comparison with traditional teaching methods in 24 medical students. The results showed that the total score of students in the experimental group (mean ± SD, 79.48 ± 12.93) was significantly better than that of the control group (61.00 ± 14.94) with P < 0.05. The practical test scores of the experimental group (18.00 ± 2.70) were significantly higher than those of the control group (13.67 ± 4.96) with P < 0.05. In the satisfaction survey, the feedback questionnaire showed that the interactive teaching model of 3D printing technology combined with WebGL-based 3D visualisation technology was recognised by students in terms of quality and overall satisfaction. In addition, female students who used 3D printing combined with WebGL-based 3D visualisation technology as learning aids had a greater difference in practical test scores from the control group than male students. This study has demonstrated that the interactive teaching mode of 3D printing combined with WebGL-based 3D visualisation technology is beneficial to the teaching of medical imaging, enriching the learning experience of students, and increasing the interaction between teachers and students. [ABSTRACT FROM AUTHOR]

Published

2021

29. Don't Miss Me

Author

Inge C.J. Koetser, Enrique A. Espinosa Hernández, Prof. dr. Gino M.M.J. Kerkhoffs, Simon Goedegebuure, Frank F. Smithuis, and Prof. dr. Mario Maas

Subjects

ankle ligaments, midfoot sprain, midtarsal injury, Chopart, Radiology, Nuclear Medicine and imaging, Orthopedics and Sports Medicine, athlete

Abstract

Athletes practicing high-contact sports are exposed to an increased risk of midfoot injuries, namely midtarsal sprains. The complexity of reaching an accurate diagnosis is clearly depicted in the reported incidence of midtarsal sprains, ranging from 5% to 33% of ankle inversion injuries. Because the focus of the treating physician and physical therapist is on lateral stabilizing structures, midtarsal sprains are missed at initial evaluation in up to 41% of patients, with delayed treatment as a result.Detecting acute midtarsal sprains requires a high degree of clinical awareness. Radiologists must become familiar with the characteristic imaging findings of normal and pathologic midfoot anatomy to avoid adverse outcomes such as pain and instability. In this article we describe Chopart joint anatomy, mechanisms of midtarsal sprains, clinical importance, and key imaging findings with a focus on magnetic resonance imaging. A team effort is essential to provide optimal care for the injured athlete.

Published

2023

30. Modified Broström-Gould With Gracilis Autograft Augmentation Surgery and Accelerated Noncasted Rehabilitation in High Demand Patients With Lateral Ankle Instability.

Author

Smith, Jason Daniel, Hazratwala, Kaushik, Matthews, Brent, Faruque, Ryan, and Doma, Kenji

Abstract

Lateral ankle instability that has failed conservative management can be physically debilitating. Good outcomes are obtained from Broström-Gould augmented repair techniques, however there are few studies evaluating the use of a gracilis autograft augmentation coupled with an accelerated rehabilitation program in high functional demand patients. We believe that the modified Broström-Gould technique utilizing a Gracilis autograft will provide significant improvements in stability while maintaining normal ankle biomechanics in young, high demand patients. The prospective cohort study involved 19 patients (20 ankles) who underwent surgery for chronic lateral ankle instability by a single surgeon, at a single institution between October 2014 and April 2016. Patients were followed for 33.8 ± 11.7 (range 12-48) months. Patients were assessed both pre- and postoperatively for talar tilt angle radiographically and with both American Orthopaedic Foot and Ankle Society Ankle and Hindfoot scores and Karlsson-Peterson scores. A Tegner activity score was taken at the last follow-up. The mean American Orthopaedic Foot and Ankle Society score increased from 68.85 ± 10.57 to 91.56 ± 5.31 points (p <.01) and mean Karlsson-Peterson score increased from 50.9 ± 15.53 to 88.11 ± 8.64 points (p value <.01) when compared preoperatively to mean postoperative follow-up of 33.8 months. Tegner activity score was 7.05 ± 0.89 at last follow-up. The technique was found to be effective in treating chronic lateral ankle instability and in combination with an accelerated rehabilitation protocol, patients returned to their premorbid level of activity with improved stability and no significant effect on donor graft site morbidity. [ABSTRACT FROM AUTHOR]

Published

2021

31. Arthroscopic Posterior Ankle Ligament Anatomy.

Author

Ferkel, Richard D., Kwong, Cory, Farac, Randall, Pinto, Mark, Fahimi, Nader, Rahhal, Scott, and Marumoto, Jay

Subjects

ARTHROSCOPY, LIGAMENTS, FLEXOR hallucis longus, EXAMINATION of joints, MENISCUS (Anatomy)

Abstract

Background: The purpose of this article is to document the normal arthroscopic appearance of the posterior ankle capsular and ligamentous structures, and variations in their anatomical relationships. Methods: 102 ankle arthroscopy videotapes were evaluated retrospectively for the configuration of the posterior capsuloligamentous structures. Based on these observations, the variations in the appearance and position of the posterior tibiofibular ligament (PTFL) and transverse (tibiofibular) ligament (TTFL) were documented. In addition, differences in the appearance of the flexor hallucis longus (FHL) were also noted. Results: All patients had evidence of both a PTFL and TTFL, which formed a labrum or meniscus-like addition to the posterior distal tibia. No patients demonstrated disruption of the PTFL; 3 had tears of the TTFL. We noted 4 distinct patterns of the PTFL and the TTFL. Thirty-four patients (33%) had a gap of -2mm between the 2 ligamentous structures. Thirty-three (32.4%) had a gap <2 mm between the PTFL and TTFL. Twenty-six (25.5%) had a confluence of the 2 ligaments without a gap. Nine (9%) demonstrated a sizable gap between the 2 ligaments, and the TTFL appeared as a "cord-like" structure. Conclusion: To our knowledge, this is the first article to describe the variations in the arthroscopic normal posterior capsuloligamentous structures and FHL of the ankle. [ABSTRACT FROM AUTHOR]

Published

2021

32. Sonographic visibility of the main posterior ankle ligaments and para-ligamentous structures in 15 healthy subjects.

Author

Stella, Salvatore Massimo, Ciampi, Barbara, Del Chiaro, Andrea, Vallone, Gianfranco, Miccoli, Mario, Gulisano, Massimo, Orsitto, Eugenio, and Galletti, Stefano

Abstract

The present article describes the ultrasound (US) appearance of ligaments and paraligamentous structures which are not included in standard US imaging of the ankle: the posterior inferior tibiofibular ligament (PITFL), the transverse tibiofibular ligament (TTFL), the posterior talofibular ligament (PTFL), the posterior intermalleolar ligament (PIL), the synovial recess (SR) of the posterior joint and the os trigonum (OT). Two skilled operators examined 15 ankles in 15 healthy volunteers. Correlation between thickness of the main ligaments and body mass index (BMI) was also analyzed. Compound and tissue harmonic imaging (THI) were carried out using 12-, 6–15- and 9-MHz linear probes. Exploration of the posterior ankle ligament complex is accurately described including correct ankle position, echogenicity, shape, direction and thickness. Both operators identified and measured the main ligaments (PITFL, TTFL and PTFL) in all volunteers (Intraclass Correlation Coefficient ranged from 0.8 to 1); both operators also detected SR and OT in 2/15 ankles and posterior intermalleolar ligament (PIL) in 5/15 ankles. Pearson's test showed a significant correlation (< 0.05) between TTFL thickness and BMI. Also, a dynamic study was carried out showing tension of the PTFL during dorsiflexion in 7/15 subjects. Our results highlight the potential role of accurate US imaging in detecting posterior ankle ligament involvement in acute and chronic traumas. To our knowledge, there are no previous articles in the literature dealing with this topic providing an accurate description of the US procedure, and in particular, no study has been carried out to identify OT. [ABSTRACT FROM AUTHOR]

Published

2021

33. The deltoid ligament is constantly formed by four fascicles reaching the navicular, spring ligament complex, calcaneus and talus.

Author

Dalmau-Pastor M, Malagelada F, Guelfi M, Kerkhoffs G, Karlsson J, Calder J, and Vega J

Abstract

Purpose: The medial collateral ligament of the ankle, or deltoid ligament, can be injured in up to 40% of patients who sustain an ankle inversion sprain. Reporting injuries of the deltoid ligament is not easy due to confusion in the current anatomical descriptions, with up to 16 fascicles described, with variable frequencies. The purpose of this study was to clarify the anatomy of the deltoid ligament., Methods: Thirty-two fresh-frozen ankle specimens were used for this study. Careful dissection was undergone until full visualization of the deltoid ligament was achieved and measurements taken., Results: The deltoid ligament was found to have four constant fascicles in two layers. The superficial layer consists of the tibionavicular, tibiospring and tibiocalcaneal fascicles, while the deep layer consists of the tibiotalar fascicle. Measurements of these fascicles are given in detail. The tibiotalar fascicle and the anterior part of the tibionavicular fascicle were found to be intra-articular structures., Conclusion: The deltoid ligament has a constant number of fascicles divided into a superficial and a deep layer. This clarification of the anatomy and terminology of the deltoid ligament and its fascicles will help clinical view, diagnosis and (interdoctor)communication and treatment. The ligamentous fibres of the deep layer, as well as the anterior fibres of the superficial layer (tibionavicular fascicle) are intra-articular, which could negatively impact its healing capacity, explaining chronicity of these types of injuries., Level of Evidence: Not applicable (cadaveric study)., (© 2024 The Authors. Knee Surgery, Sports Traumatology, Arthroscopy published by John Wiley & Sons Ltd on behalf of European Society of Sports Traumatology, Knee Surgery and Arthroscopy.)

Published

2024

34. Magnetic resonance imaging of ankle ligaments: A pictorial essay

Author

Yogini Nilkantha Sawant and Darshana Sanghvi

Subjects

ankle ligaments, magnetic resonance imaging, sprain, tear, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Ankle trauma is commonly encountered and is most often a sprain injury affecting the ligaments. Accurate diagnosis and appropriate treatment rest on knowledge of complex ligamentous anatomy of ankle and the entire spectrum of pathologies. Magnetic resonance imaging (MRI) is the imaging modality of choice for diagnosing ligament pathologies because of its multiplanar capability and high soft tissue contrast. With MRI, it is possible to triage and attribute the cause of post traumatic ankle pain to bone, ligament, or tendon pathologies, which otherwise overlap clinically. In this pictorial essay, emphasis is given to the intricate and unique anatomy and orientation of ankle ligaments. Pathologies of ankle ligaments have been elaborated.

Published

2018

35. Imaging diagnosis for chronic lateral ankle ligament injury: a systemic review with meta-analysis

Author

Shengxuan Cao, Chen Wang, Xin Ma, Xu Wang, Jiazhang Huang, and Chao Zhang

Subjects

Ankle ligaments, Meta-analysis, Imaging, Diagnostic accuracy, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Various imaging techniques have been utilized for the diagnosis of chronic lateral ankle ligament injury. This systemic review will explore the effectiveness of different imaging techniques in diagnosing chronic lateral ankle ligament injury. Methods Relative studies were retrieved after searching 3 databases (MEDLINE, EMBASE, and Cochrane Central Register of Controlled Trails). Eligible studies were summarized. Data were extracted to calculate pooled sensitivity and specificity of magnetic resonance imaging (MRI), ultrasonography (US), stress radiography, and arthrography. Results Fifteen studies met our inclusion and exclusion criteria. A total of 695 participants were included. The pooled sensitivities in diagnosing chronic ATFL injury were 0.83 [0.78, 0.87] for MRI, 0.99 [0.96, 1.00] for US, and 0.81 [0.68, 0.90] for stress radiography. The pooled specificities in diagnosing chronic ATFL injury were 0.79 [0.69, 0.87] for MRI, 0.91 [0.82, 0.97] for US, and 0.92 [0.79, 0.98] for stress radiography. The pooled sensitivities in diagnosing chronic CFL injury were 0.56 [0.46, 0.66] for MRI, 0.94 [0.85, 0.98] for US, and 0.90 [0.73, 0.98] for arthrography. The pooled specificities in diagnosing chronic CFL injury were 0.88 [0.82, 0.93] for MRI, 0.91 [0.80, 0.97] for US, and 0.90 [0.77, 0.97] for arthrography. Conclusion This systematic review with meta-analysis investigated the accuracy of imaging for the diagnosis of chronic lateral ankle ligament injury. Ultrasound manifested high diagnostic accuracy in diagnosing chronic lateral ankle ligament injury. Clinicians should be aware of the limitations of MRI in detecting chronic CFL injuries.

Published

2018

36. The posterior talocalcaneal ligament: an MRI evaluation.

Author

Iovane, Angelo, Palma, Antonio, Messina, Giuseppe, Cappello, Francesco, Thomas, Ewan, and Fiore, Roberto

Subjects

*LIGAMENTS, *MAGNETIC resonance imaging, *ANKLE

Abstract

Purpose: A wide inter-individual variability in terms of size, orientation and insertion is observed regarding ankle ligaments. The aim of this study is to identify and describe the anatomical features of the posterior talocalcaneal ligament (PTCL) observed through the use of magnetic resonance imaging (MRI) of the ankle. Methods: The study was retrospectively carried out on 893 ankle MRI's exams. The exams have all been performed using a 1.5-T (T) MRI. The same scanning protocols and scan planes were carried out in all the exams. The first evaluated parameter was the recognition of the PTCL. Subsequently, in all those cases where the ligament was present, its features such as insertion sites, length, and thickness were evaluated. Results: The PTCL identification was possible in 77 exams (8.6% of the total number). Among these, we were able to identify some variants regarding insertion sites, length, and thickness. The PTCL could be further classified into four categories based on the most common characteristics observed. Conclusions: Our study has identified different characteristics of the PTCL that allow us to further understand the characteristics of the ligament itself. In conclusion, the need for further studies focused on the biomechanical role of the PTCL in the ankle joint appears mandatory. [ABSTRACT FROM AUTHOR]

Published

2020

37. The calcaneofibular ligament has distinct anatomic morphological variants: an anatomical cadaveric study.

Author

Pereira, Bruno S., van Dijk, C. Niek, Andrade, Renato, Casaroli-Marano, Ricardo P., Espregueira-Mendes, João, and Oliva, Xavier Martin

Subjects

*LIGAMENTS, *ARTICULAR ligaments, *ANKLE lateral ligament, *ANKLE, *JOINTS (Anatomy), *ANATOMY, *HUMAN dissection, *VETERINARY dissection, *DEAD

Abstract

Purpose: The purpose of this study was to investigate if the calcaneofibular ligament (CFL) presents morphologic variants and measure the morphometrics of the ligament and its footprints METHODS: An anatomical study of 47 fresh-frozen below-the-knee ankle specimens was performed. Lateral ankle structures were dissected to expose the CFL. Overdissection was avoided to not modify the native morphology. The morphology (number and orientation of CFL bundles) and measurements of CFL insertions were recorded with ankle secured in neutral position.Results: Four distinct morphological-oriented shapes of the CFL were observed. These included single bundle, Y-shape double bundle, V-shape double bundle, and associated with the lateral talocalcaneal ligament. The most frequent CFL morphology observed was the single bundle and the Y-shape double bundle, present in 21 (44.7%) and 13 (27.7%) ankles. The V-shape double bundle and the CFL double bundle associated with the lateral talocalcaneal ligaments were less common, appearing only in eight (17.0%) and five (10.6%) ankles. The CFL length was higher in single bundle and Y-shaped double bundle CFL variants, about 30 mm each. Footprint morphometrics were heterogenous amongst the different CFL variants.Conclusion: The CFL presents four distinct morphological-oriented shapes. The double bundle, V-shaped and Y-shaped CFL variants are uncommon and poorly reported in the literature. Their relation to the lateral talocalcaneal ligament and the inferior fascicle of the anterior talofibular ligament requires further research. The CFL morphology provides detailed knowledge of CFL anatomy that can improve diagnostic procedures. Furthermore, this information can fine-tune graft selection and sizing and allow a more precise anatomic placement during surgical reconstruction. [ABSTRACT FROM AUTHOR]

Published

2020

38. The CFL fails before the ATFL immediately after combined ligament repair in a biomechanical cadaveric model.

Author

D'Hooghe, Pieter, Pereira, Helder, Kelley, Judas, Anderson, Nicholas, Fuld, Richard, Kumparatana, Pam, Baldini, Todd, and Hunt, Kenneth J.

Subjects

*LIGAMENTS, *ANKLE, *JOINTS (Anatomy), *LIGAMENT surgery, *JOINT hypermobility, *RANGE of motion of joints, *ANKLE injuries, *LIGAMENT injuries, *ANKLE surgery, *TORQUE, *RESEARCH, *RESEARCH methodology, *CASE-control method, *EVALUATION research, *MEDICAL cooperation, *HEEL bone, *COMPARATIVE studies, *ROTATIONAL motion, *RESEARCH funding, *STATISTICAL sampling, *ANKLEBONE, *DEAD, *KINEMATICS

Abstract

Purpose: To assess the impact on ankle stability after repairing the ATFL alone compared to repairing both the ATFL and CFL in a biomechanical cadaver model.Methods: Ten matched pairs of intact, fresh frozen human cadaver ankles (normal) were mounted to a test machine in 20.0° plantar flexion and 15.0° of internal rotation. Each ankle was loaded to body weight and then tested from 0.0° to 20.0° of inversion. The data recorded were torque at 20.0° and stiffness, peak pressure and contact area in the ankle joint using a Tekscan sensor, rotation of the talus and calcaneus, and translation of the calcaneus using a three-dimensional motion capture system. Ankles then underwent sectioning of the ATFL and CFL (injured), retested, then randomly assigned to ATFL-only Broström repair or combined ATFL and CFL repair. Testing was repeated after repair then loaded in inversion to failure (LTF).Results: The stiffness of the ankle was not significantly increased compared to the injured condition by repairing the ATFL only (n.s.) or the ATFL/CFL (n.s.). The calcaneus had significantly more rotation than the injured condition in the ATFL-only repair (p = 0.037) but not in the ATFL/CFL repair (n.s.). The ATFL failed at 40.3% higher torque than the CFL, at 17.4 ± 7.0 N m and 12.4 ± 4.1 N m, respectively, and 62.0% more rotation, at 43.9 ± 5.6° and 27.1 ± 6.8°, respectively.Conclusions: There was a greater increase in stiffness following combined ATFL/CFL repair compared to ATFL-only repair, although this did not reach statistical significance. The CFL fails before the ATFL, potentially indicating its vulnerability immediately following repair.Level Of Evidence: III, case-control therapeutic study. [ABSTRACT FROM AUTHOR]

Published

2020

39. The lateral fibulotalocalcaneal ligament complex: an ankle stabilizing isometric structure.

Author

Vega, Jordi, Malagelada, Francesc, Manzanares Céspedes, Maria-Cristina, and Dalmau-Pastor, Miki

Subjects

*LIGAMENTS, *JOINTS (Anatomy), *ANKLE, *ARTICULAR ligaments, *MUSCULOSKELETAL system, *ANKLE physiology, *LIGAMENT physiology, *RANGE of motion of joints, *MUSCLE contraction, *HEEL bone, *HUMAN dissection, *VETERINARY dissection, *DEAD, *JOINT hypermobility

Abstract

Purpose: Ankle lateral collateral ligament complex has been the focus of multiple studies. However, there are no specific descriptions of how these ligaments are connected to each other as part of the same complex. The aim of this study was to describe in detail the components of the lateral collateral ligament complex-ATFL and CFL-and determine its anatomical relationships.Methods: An anatomical study was performed in 32 fresh-frozen below-the-knee ankle specimens. A plane-per-plane anatomical dissection was performed. Overdissecting the area just distal to the inferior ATFL fascicle was avoided to not alter the original morphology of the ligaments and the connecting fibers between them. The characteristics of the ATFL and CFL, as well as any connecting fibers between them were recorded. Measures were obtained in plantar and dorsal flexion, and by two different observers.Results: The ATFL was observed as a two-fascicle ligament in all the specimens. The superior ATFL fascicle was observed intra-articular in the ankle, in contrast to the inferior fascicle. The mean distance measured between superior ATFL fascicle insertions increases in plantar flexion (median 19.2 mm in plantar flexion, and 12.6 mm in dorsal flexion, p < 0.001), while the same measures observed in the inferior ATFL fascicle does not vary (median 10.6 mm in plantar flexion, and 10.6 mm in dorsal flexion, n.s.). The inferior ATFL fascicle was observed with a common fibular origin with the CFL. The CFL distance between insertions does not vary with ankle movement (median 20.1 mm in plantar flexion, and 19.9 mm in dorsal flexion, n.s.). The inferior ATFL fascicle and the CFL were connected by arciform fibers, that were observed as an intrinsic reinforcement of the subtalar joint capsule.Conclusion: The superior fascicle of the ATFL is a distinct anatomical structure, whereas the inferior ATFL fascicle and the CFL share some features being both isometric ligaments, having a common fibular insertion, and being connected by arciform fibers, and forming a functional and anatomical entity, that has been named the lateral fibulotalocalcaneal ligament (LFTCL) complex. The clinical relevance of this study is that the superior fascicle of the ATFL is anatomical and functionally a distinct structure from the inferior ATFL fascicle. The superior ATFL fascicle is an intra-articular ligament, that will most probably not be able to heal after a rupture, and a microinstability of the ankle is developed. However, when the LFTCL complex is injured, classical ankle instability resulted. In addition, because of the presence of LFTCL complex, excellent results are observed when an isolated repair of the ATFL is performed even when an injury of both the ATFL and CFL exists. [ABSTRACT FROM AUTHOR]

Published

2020

40. Chronic Ankle Instability

Author

Paul, Jochen, Stelzenbach, Christian, Valderrabano, Victor, Valderrabano, Victor, editor, and Easley, Mark, editor

Published

2016

41. Sports Medicine of the Foot & Ankle, the Role of Imaging

Author

Latting, John Wesley, Spritzer, Charles E., Valderrabano, Victor, editor, and Easley, Mark, editor

Published

2016

42. Surgical Management of Lateral Ankle Instability in Athletes.

Author

Camacho, Luis D., Roward, Zachary T., Yu Deng, and Latt, L. Daniel

Subjects

*ANKLE surgery, *LIGAMENT surgery, *ANKLE, *ANKLE injuries, *JOINT hypermobility, *LIGAMENTS, *MEDICAL rehabilitation, *ORTHOPEDIC surgery, *PHYSICAL diagnosis, *SPORTS injuries, *SPRAINS, *PLASTIC surgery, *SPORTS participation, *PERONEAL tendons, *ANATOMY

Abstract

Ankle sprains are common injuries involving the lateral ankle ligaments and affect athletes of all levels. Most patients heal uneventfully, but those with symptoms persisting past 3 months should be evaluated for chronic ankle instability and its associated conditions as well as for the presence of varus malalignment. Chronic ankle instability is initially treated non- operatively, with surgical management reserved for those who have failed to improve after 3 to 6 months of bracing and functional rehabilitation. Anatomic repair using a modification of the Brostrcim procedure is the preferred technique for initial surgery. Anatomic reconstruction with tendon graft should be considered when repair is not possible, as it maintains physiological joint kinematics. Nonanatomic reconstructions are seldom indicated. Arthroscopic repair or reconstruction of the lateral ankle ligaments is a promising new technique with results similar to those of open surgery. [ABSTRACT FROM AUTHOR]

Published

2019

43. Ultrasound Characteristics of Foot and Ankle Structures in Healthy, Coper, and Chronically Unstable Ankles.

Author

Abdeen, Rawan, Comfort, Paul, Starbuck, Chelsea, and Nester, Christopher

Subjects

ANKLE injuries, ULTRASONIC imaging, LIGAMENTS, TENDONS, MUSCLES

Abstract

Objective: Ankle sprains constitute approximately 85% of all ankle injuries, and up to 70% of people experience residual symptoms. While the injury to ligaments is well understood, the potential role of other foot and ankle structures has not been explored. The objective was to characterize and compare selected ankle structures in participants with and without a history of lateral ankle sprain. Methods: A total of 71 participants were divided into 31 healthy, 20 coper, and 20 chronic ankle instability groups. Ultrasound images of the anterior talofibular and calcaneofibular ligaments, fibularis tendons and muscles, tibialis posterior, and Achilles tendon were obtained. Thickness, length, and cross‐sectional areas were measured and compared among groups. Results: When under tension, the anterior talofibular ligament (ATFL) was longer in copers and chronic ankle instability groups compared to healthy participants (P < .001 and P = .001, respectively). The chronic ankle instability group had the thickest ATFL and calcaneofibular ligament among the 3 groups (p < 0.001). No significant differences (P > .05) in tendons and muscles were observed among the 3 groups. Conclusions: The ultrasound protocol proved reliable and was used to evaluate the length, thickness, and cross‐sectional areas of selected ankle structures. The length of the ATFL and the thickness of the ATFL and calcaneofibular ligament were longer and thicker in injured groups compared to healthy. [ABSTRACT FROM AUTHOR]

Published

2019

44. The Arterial Anatomy of the Lateral Ligament Complex of the Ankle: A Cadaveric Study.

Author

Gosselin, Michelle M., Haynes, Jacob A., McCormick, Jeremy J., Johnson, Jeffery E., and Klein, Sandra E.

Subjects

*ANKLE, *ANKLE injuries, *COLLECTION & preservation of biological specimens, *DEAD, *JOINT hypermobility, *LIGAMENTS, *SPRAINS, *IN vitro studies, *ANATOMY

Abstract

Background: Ankle sprains are the most common musculoskeletal injury in the United States. Chronic lateral ankle instability can ultimately require operative intervention to decrease pain and restore stability to the ankle joint. There are no anatomic studies investigating the vascular supply to the lateral ankle ligamentous complex. Purpose: To define the vascular anatomy of the lateral ligament complex of the ankle. Study Design: Descriptive laboratory study. Methods: Thirty pairs of cadaveric specimens (60 total legs) were amputated below the knee. India ink, followed by Ward blue latex, was injected into the peroneal, anterior tibial, and posterior tibial arteries to identify the vascular supply of the lateral ligaments of the ankle. Chemical debridement was performed with 8.0% sodium hypochlorite to remove the soft tissues, leaving casts of the vascular anatomy intact. The vascular supply to the lateral ligament complex was then evaluated and recorded. Results: The vascular supply to the lateral ankle ligaments was characterized in 56 specimens: 52 (92.9%) had arterial supply with an origin from the perforating anterior branch of the peroneal artery; 51 (91.1%), from the posterior branch of the peroneal artery; 29 (51.8%), from the lateral tarsal branch of the dorsalis pedis; and 12 (21.4%), from the posterior tibial artery. The anterior branch of the peroneal artery was the dominant vascular supply in 39 specimens (69.6%). Conclusion: There are 4 separate sources of extraosseous blood supply to the lateral ligaments of the ankle. In all specimens, the anterior talofibular ligament was supplied by the anterior branch of the peroneal artery and/or the lateral tarsal artery of the dorsalis pedis, while the posterior talofibular ligament was supplied by the posterior branch of the peroneal artery and/or the posterior tibial artery. The calcaneofibular ligament received variable contributions from the anterior and posterior branches of the peroneal artery, with few specimens receiving a contribution from the lateral tarsal or posterior tibial arteries. Clinical Relevance: Understanding the vascular anatomy of the lateral ligament complex is beneficial when considering surgical management and may provide insight into factors that lead to chronic instability. [ABSTRACT FROM AUTHOR]

Published

2019

45. 3-T MRI of the Ankle Tendons and Ligaments

Author

Felix S. Chew, Majid Chalian, Parisa Khoshpouri, Parham Pezeshk, Iman Khodarahmi, Christine Rehwald, and Filippo Del Grande

Subjects

Acquired foot deformities, Sports injury, business.industry, Chronic pain, Physical Therapy, Sports Therapy and Rehabilitation, Anatomy, Ankle ligaments, musculoskeletal system, medicine.disease, Magnetic Resonance Imaging, Tendon, Tendons, medicine.anatomical_structure, Tendon Injuries, Ligaments, Articular, medicine, Ligament, Humans, Orthopedics and Sports Medicine, Ankle, Ankle sprain, business, human activities

Abstract

Ankle sprain is the most common injury in athletic populations. Ligament and tendon pathologies of the ankle are common, ranging from traumatic injuries to degeneration leading to chronic pain and acquired foot deformities. MRI is the imaging modality of choice to evaluate tendon and ligament pathology of the ankle, specifically derangements of tendons and ligaments. 3-T MRI offers improved imaging characteristics relative to 1.5-T MRI, allowing for better delineation of anatomic detail and pathology. This article provides a review of the anatomy and common pathologies of the ankle ligaments and tendons using high-resolution 3-T MRI.

Published

2021

46. Clinical and radiological predictors for persistent complaints five years after a lateral ankle sprain: A long-term follow-up study in primary care.

Author

Mailuhu, Adinda K.E., Oei, Edwin H.G., van Putte-Katier, Nienke, van Ochten, John M., Bindels, Patrick J.E., Bierma-Zeinstra, Sita M.A., and van Middelkoop, Marienke

Abstract

Objectives: To examine the five-year prognosis and potential prognostic factors of patients with an acute lateral ankle sprain in primary care setting.Design: Observational study.Methods: 206 patients who participated in a cross-sectional study and visited their general practitioner with an acute lateral ankle sprain 6-12 months prior to inclusion were approached for a 5-year follow-up measurement consisting of an online questionnaire. At baseline patients completed standardized questionnaires, underwent a standardized physical examination and radiological examination (radiography and Magnetic Resonance Imaging) and scored their perceived recovery. Logistic regression analysis was used to examine potential predictive factors at baseline for the presence of persistent complaints after 5 years.Results: 132 (64.1%) patients completed the 5-year follow-up. 18.2% reported persistent complaints and 30.3% had a re-sprain during follow-up. Baseline persistent complaints 6-12 months after an acute lateral ankle sprain (OR 6.38; CI 95% 1.54-26.44), dominant leg injury (OR 4.89; CI 95% 1.16-20.62) and a recurrent ankle sprain (OR 9.81; CI 95% 2.17-44.47) were significant predictors for persistent complaints 5 years after an acute ankle sprain. Physical examination and radiological findings did not add to the predictive value of the prognostic model.Conclusions: Almost 20% of patients with an acute lateral ankle sprain experience persistent complaints after 5 years follow-up. Predictive factors for persistent complaints can be identified. [ABSTRACT FROM AUTHOR]

Published

2018

47. Searching for the 'sweet spot': the foot rotation and parallel engagement of ankle ligaments in maximizing injury tolerance.

Author

Nie, Bingbing, Forman, Jason, Mait, Alexander, Donlon, John-Paul, Panzer, Matthew, and Kent, Richard

Subjects

*LIGAMENT injuries, *FOOT injuries, *ANKLE lateral ligament, *BIOMECHANICS, *DISEASE incidence, *FINITE element method, *THERAPEUTICS

Abstract

Ligament sprains, defined as tearing of bands of fibrous tissues within ligaments, account for a majority of injuries to the foot and ankle complex in field-based sports. External rotation of the foot is considered the primary injury mechanism of syndesmotic ankle sprains with concomitant flexion and inversion/eversion associated with particular patterns of ligament trauma. However, the influence of the magnitude and direction of loading vectors to the ankle on the in situ stress state of the ligaments has not been quantified in the literature. The objective of the present study was to search for the maximum injury tolerance of a human foot with an acceptable subfailure distribution of individual ligaments. We used a previously developed and comprehensively validated foot and ankle model to reproduce a range of combined foot rotation experienced during high-risk sports activities. Biomechanical computational investigation was performed on initial foot rotation from $$20{^{\circ }}$$ of plantar flexion to $$15{^{\circ }}$$ of dorsiflexion, and from $$15{^{\circ }}$$ of inversion to $$15{^{\circ }}$$ of eversion prior to external rotation. Change in initial foot rotation shifted injury initiation among different ligaments and resulted in a wide range of injury tolerances at the structural level (e.g., 36-125 Nm of rotational moment). The observed trend was in agreement with a parallel experimental study that initial plantar flexion decreased the incidence of syndesmotic injury compared to a neutral foot. A mechanism of distributing even loads across ligaments subjected to combined foot rotations was identified. This mechanism is potential to obtain the maximum load-bearing capability of a foot and ankle while minimizing the injury severity of ligaments. Such improved understanding of ligament injuries in athletes is necessary to facilitate injury management by clinicians and countermeasure development by biomechanists. [ABSTRACT FROM AUTHOR]

Published

2017

48. Anatomical dissection of the calcaneofibular ligament of the ankle – a macroscopic and morphometric study

Author

Hamzaoui Bahia and Assia Yabka

Subjects

medicine.anatomical_structure, business.industry, Medicine, Calcaneofibular ligament, Anatomy, Ankle ligaments, Ankle, business, Anatomical dissection

Published

2021

49. Magnetic Resonance Imaging of Ankle Ligaments

Author

Dyan V. Flores and Thurl Hugh C. Cledera

Subjects

medicine.anatomical_structure, Sports injury, medicine.diagnostic_test, business.industry, Medicine, Magnetic resonance imaging, General Medicine, Anatomy, Ankle, Ankle ligaments, musculoskeletal system, business, human activities

Abstract

Ankle sprains are a common sports injury that can lead to chronic symptoms and residual instability. Ankle ligaments may be classified into four groups. This article reviews anatomy, MRI features, mechanisms of injury, and associated pathology of ankle ligaments.

Published

2021

50. The CFL fails before the ATFL immediately after combined ligament repair in a biomechanical cadaveric model

Author

D’Hooghe, Pieter, Pereira, Helder, Kelley, Judas, Anderson, Nicholas, Fuld, Richard, Kumparatana, Pam, Baldini, Todd, and Hunt, Kenneth J.

Published

2020