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Proximal fifth metatarsal fractures are common in the athlete and can be a source of significant, temporary disability and missed playing time. The pattern of fracture can vary, and the type of fracture leads to a significantly different prognosis and treatment. Jones fractures of the fifth metatarsal are particularly common and difficult to treat in the athlete, can have recurrence and refracture, and require expertise to heal. Intramedullary screw fixation is currently the preferred method of fixation. Most other (non-Jones fractures and os vesalianum) proximal fifth metatarsal fractures can be treated successfully without surgery.In the past 2 decades, there has been a rapid expansion of clinical studies investigating the safety and efficacy of biological treatment methods for a wide range of diseases. These biological treatment methods increasingly are used in clinical practice based on limited available evidence. This article provides an overview of evidence on biological treatment methods for foot and ankle pathologies, including ankle osteoarthritis, osteochondral lesions of the talus, and Achilles tendinopathy.Foot and ankle instability can be seen both in acute and chronic settings, and isolating the diagnosis can be difficult. Imaging can contribute to the clinical presentation not only by identifying abnormal morphology of various supporting soft tissue structures but also by providing referring clinicians with a sense of how functionally incompetent those structures are by utilizing weight-bearing images and with comparison to the contralateral side. Loading the affected joint and visualizing changes in alignment provide clinicians with information regarding the severity of the abnormality and, therefore, how it should be managed.In athletes, foot injuries present with a variety of mechanisms, severity, and implications for return to play. Although potentially given less attention than knee and shoulder injuries by the team physician, foot injuries are common and thus require knowledgeable consideration. In this article, we review the anatomy, presentation, workup, and management of several of the most common athletic foot injuries, including turf toe, Lisfranc injuries, Jones fractures, and navicular stress fractures. The goal is to provide the team physician with the information necessary to evaluate and manage these injuries on the sideline and in the training room.The epidemiology of any given topic sometimes is overlooked. This is true particularly with sports physicians and sports injuries. The identification of sports-specific injury patterns by collection and examination of data can help prevent injuries. Thus, as a physician involved in any sport, it is essential to have this knowledge because understanding it and imparting it may allow a valuable contribution to the health and safety of the athletes and success of the teams.Ankle impingement refers to a chronic painful mechanical limitation of ankle motion caused by soft tissue or osseous abnormality affecting the anterior or posterior tibiotalar joint. Impingement can be associated with a single traumatic event or repetitive microtrauma. These syndromes are a possible etiology of persistent ankle pain. An arthroscopic approach to this pathology, when indicated, is considered as ideal treatment with its high safety and low complication rate. We describe the clinical and potential imaging features, and the arthroscopic/endoscopic management strategies, for the 4 main impingement syndromes of the ankle anterolateral, anterior, antero-medial, and posterior.Primary lateral ankle ligament reconstruction has a high success rate, but failures may lead to recurrent instability. In patients with recurrent lateral ankle instability, it is important to determine the mode of failure. Underlying cavovarus deformity and joint hypermobility must be identified and addressed at the time of revision surgical stabilization. The modified Brostrom-Gould procedure is typically performed for primary lateral ankle ligament reconstruction, but it may be used in revision stabilization procedures utilizing suture-tape augmentation. Revision lateral ankle stabilization surgery can also be addressed with anatomic allograft reconstruction of the ATFL and CFL, and is the authors'preferred technique.Much has changed since Lisfranc described lesions at the tarsometatarsal (TMT) joint in 1815. What was considered an osseous high-energy condition nowadays is understood as myriad possible presentations, occurring in minor and inconspicuous traumas. selleck products Advancements in diagnostics of Lisfranc injury allow recognizing many variants of this trauma presentation, most of them with a focus on ligaments. This perception shifted trends in surgical planning, especially for implants and fixation techniques. These revolutions established a new and evolving universe around TMT lesions, different from what was known only a few years ago and still not enough to completely settle the disease scenario.Osteochondral lesions of the talus (OLTs) are characterized by damage to the articular cartilage of the talus and its underlying subchondral bone. Up to 75% of OLTs are caused by trauma, such as an ankle sprain or fracture. Physical examination and imaging are crucial for diagnosis and characterization of an OLT. No superior treatment for OLTs exists. It is paramount that an evidence-based personalized treatment approach is applied to patients with OLTs because lesion and patient characteristics guide treatment. This current concepts review covers clinical and preclinical evidence on OLT etiology, presentation, diagnosis, and treatment, all based on the Amsterdam perspective.Syndesmosis injury may occur in a wide variety of clinical scenarios. Accurate diagnosis and anatomic reconstruction are necessary for optimizing clinical outcomes. The management considerations of syndesmotic injuries with associated proximal fibula fractures are reviewed. Methods to improve the accuracy of syndesmotic reduction are outlined. The management of fractures of the posterior malleolus, Chaput tubercle, and Wagstaffe tubercle is discussed with an emphasis on their contributions to syndesmotic stability. The evolving role of flexible fixation for syndesmosis injuries is discussed. Causes and strategies for dealing with loss of reduction and malreduced syndesmotic injuries are presented.