Radial Head Fracture Flashcards
What is the most common elbow fracture?
Radial head fractures represent the most common fracture of the elbow.
How common are radial head fractures?
They account for approximately one-third of all elbow fractures.
Who is commonly affected by radial head fractures?
Highest incidence in those between 20-60 years of age (with a slightly higher frequency in females).
Briefly describe the anatomy of the radial head
At the elbow, the radial head articulates with the capitulum of the humerus and the proximal ulna. This arrangement allows for flexion/extension and supination/pronation of the elbow.
Briefly describe the pathophysiology of radial head fractures
Radial head fractures typically occur via indirect trauma; with axial loading of the forearm causing the radial head to be pushed against the capitulum of the humerus. This most commonly occurs with the arm in extension and pronation.
There are complex ligament structures that can also be damaged in these injuries, which may need further clinical/imaging assessment.
What are the clinical features of a radial head fracture?
Radial head fractures often present with a history of falling on an outstretched hand followed by elbow pain. The patient may report variable degrees of swelling and bruising at the elbow.
On examination, there may be tenderness on palpation over the lateral aspect of elbow and radial head, with pain and crepitation on supination and pronation. Other clinical features include elbow effusion or limited supination and pronation movements.
Other injuries associated with a fall on an outstretched hand include wrist ligament and bony injuries, and radial head fractures or dislocation. Therefore, the shoulder and wrist joints should also be examined.
What investigations should be ordered for radial head fractures?
All patients presenting with suspected radial head fractures require routine blood tests, including a clotting screen and a Group and Save.
Plain AP and lateral radiographs of the elbow are recommended as initial imaging. This should including the joints above and below if their involvement is suspected.
Radial head fractures can be easily missed on plain radiographs and occasionally only an elbow effusion may be seen. Elbow effusions on a lateral projection is termed a “Sail sign”, shown as an elevation of the anterior fat pad, in keeping with an occult fracture.
CT imaging can be useful in evaluating more complex injuries and degree of comminution. MRI imaging can be used to assess suspected associated ligament injuries.
What is shown on the image?
A radial head fracture (red arrow), with associated sail sign (blue arrows).
Briefly describe Mason Classification of radial head fractures
Radial head fractures are classified according to the degree of displacement and intra-articular involvement, using the Mason classification:
- Mason Type 1: non-displaced or minimally displaced fracture (<2mm)
- Mason Type 2: partial articular fracture with displacement >2mm or angulation
- Mason Type 3: comminuted fracture and displacement (a complete articular fracture)
How are Mason type 1 injuries treated?
Ensure the patient is resuscitated appropriately and stabilised, prior to definitive management of the fracture. Ensure to provide adequate analgesia.
Check for presence of neurovascular compromise and any mechanical block of elbow motion (can the patient flex-extend and supinate-pronate)
Mason type 1 injuries are treated non-operatively, with a short period of immobilisation with sling (less than 1 week) followed by early mobilisation.
How are Mason type 2 injuries treated?
Ensure the patient is resuscitated appropriately and stabilised, prior to definitive management of the fracture. Ensure to provide adequate analgesia.
Check for presence of neurovascular compromise and any mechanical block of elbow motion (can the patient flex-extend and supinate-pronate)
Mason Type 2 injuries:
- If no mechanical block then can be treated as per a type 1 injury
- If a mechanical block is present then these may need surgery (typically an open reduction internal fixation (ORIF))
How are Mason type 3 injuries treated?
Ensure the patient is resuscitated appropriately and stabilised, prior to definitive management of the fracture. Ensure to provide adequate analgesia.
Check for presence of neurovascular compromise and any mechanical block of elbow motion (can the patient flex-extend and supinate-pronate).
Mason Type 3 injuries will nearly always warrant surgical intervention, either via ORIF or radial head excision or replacement (especially in highly comminuted fractures).