Abstract
AbstractThe radial head is an important stabilizer of the elbow joint. Radial head fractures are commonly associated with additional injuries to the ligamentous structures of the elbow and can significantly compromise elbow stability. Young patients with radial head fractures are more likely to be male and present after a high-energy mechanism of injury. While not perfect, the Mason classification is the most commonly used classification system and can help to guide the management of radial head fractures. Type I fractures are nondisplaced or minimally displaced (less than 2 mm) and are treated nonoperatively with early mobilization. Type II fractures, which are displaced 2–5 mm, can be treated nonoperatively or with open reduction and internal fixation (ORIF). Type III fractures are comminuted and are most often treated with ORIF or with radial head arthroplasty (RHA). Treatment of fractures with an associated elbow dislocation (Mason type IV) is also with ORIF or RHA depending on the degree of comminution. For all of these injuries, assessment and treatment of associated ligamentous injuries are necessary in conjunction with treatment of the bony injury. Despite a significant body of literature available on radial head fractures, there is controversy regarding the optimal management of type II, III, and IV fractures, especially in young, active patients. Common complications following radial head fractures include stiffness, instability, and posttraumatic osteoarthritis; as such, these injuries can lead to significant disability in young, active patients if not managed appropriately.
Highlights
A fully functional upper extremity depends on the stability of the elbow joint
Fractures can compromise this stability and radial head fractures account for 30% of elbow fractures [1]
Given that ligamentous injury is common with radial head fractures, understanding the ligaments of the elbow and their contributions to stability is necessary for successful outcomes
Summary
A fully functional upper extremity depends on the stability of the elbow joint. Fractures can compromise this stability and radial head fractures account for 30% of elbow fractures [1]. Disruption of the important ligamentous stabilizers of the elbow joint are common with radial head fractures. Stiffness, and limitations in range of motion (ROM) are associated with both operative and nonoperative treatment As a result, these injuries can lead to significant disability in young, active patients if not managed appropriately. The radial head is a secondary restraint to valgus forces on the elbow and provides longitudinal stability, preventing proximal migration of the radius. Articular cartilage covers the radial head in a 280-degree arc with the remaining 80 degrees representing the nonarticular posterolateral side. This nonarticular “safe zone” can be identified as the region between two longitudinal lines drawn from the radial styloid and Lister’s tubercle [1, 3]. On the medial side the anterior bundle of the medial collateral ligament (MCL) is the primary restraint to valgus forces on the elbow, the posterior bundle, and the transverse bundle [1, 5]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
