Galeazzi Fractures


Article Author:
Neal Johnson


Article Editor:
Arthur Smolensky


Editors In Chief:
David Wood
Andrew Wilt
Mary Cataletto


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Nazia Sadiq
Hajira Basit
Phillip Hynes
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Sandeep Sekhon


Updated:
7/30/2019 4:32:15 PM

Introduction

The forearm is an essential structure in the human body crucial for completing activities of daily living. It is designed to help maximize versatility by allowing pronation and supination of the hand. Forearm fractures can lead to significant short-term and long-term disability, mainly if treated incorrectly. Sir Astley Cooper first described this particular fracture in 1822, but it was not until 1934 that the eponym took hold when Riccardo Galeazzi presented the mechanism, incidence, and management of this injury. The Galeazzi fracture is a fracture of the middle to distal one-third of the radius associated with dislocation or subluxation of the distal radioulnar joint (DRUJ). Advances in radiography and fracture research have helped define, classify, and guide operative management. Galeazzi fractures remain difficult to diagnose clinically, and debilitating complications can occur if proper treatment is not started.[1][2][3]

Etiology

Galeazzi fractures most commonly result from a fall onto an outstretched hand with an extended wrist and hyperpronated forearm. The energy from the radius fracture gets transmitted towards the radioulnar joint leading to dislocation of the DRUJ. These fractures occur with a bimodal distribution, diaphyseal forearm fractures in young males are commonly due to high-energy trauma (e.g., sports injuries, falls from height, motor vehicle collisions) and fractures in aging females are due to low-energy traumas such as falls from ground level.[4][5][6]

Epidemiology

Galeazzi fractures account for approximately 7% of all forearm fractures in adults. One in four radial shaft fractures is a true Galeazzi injuries. Distal forearm fractures are far more common than midshaft forearm fractures, which occur in about 1 to 10 per 10,000 people per year. The peak incidence in children is nine to 12 years. The most noteworthy risk factors for midshaft forearm fractures include sports (football and wrestling), osteoporosis, and being post-menopausal. These risk factors correlate with a bimodal incidence with the highest occurrence in young males (10:10,000) and elderly females (5:10,000). 

Pathophysiology

Anatomy

The osseous forearm is composed of the radius and ulna bones. The radius and ulna are stabilized by three groups of ligamentous structures: distally the triangular fibrocartilage complex (TFCC), the interosseous membrane, and proximally the annular ligament. The interosseous membrane is responsible for dispersing axial load force to the forearm, 60% to the radiocapitellar joint and 40% to the ulnohumeral joint. The radiocapitellar joint largely stabilizes the proximal forearm while the TFCC predominantly supports the distal forearm. Proximally the ulna consists of the olecranon and coronoid. Distally the ulnar head serves as an insertion point for the TFCC, supplementing the DRUJ. The proximal radial head articulates with the capitellum of the humerus (radiocapitellar joint), rotating within the annular ligament during pronation and supination. Distally the radius connects with the lunate and scaphoid bones of the wrist.

Classification System

Two classification systems have been proposed when categorizing Galeazzi fractures. 

The first classifications were based on the position of the distal radius:

Type I: Dorsal displacement

Type II: Volar displacement

The second classification system is based on Rettig ME and Raskin KB who categorized Galeazzi fractures based on fracture stability. They found stability to be dependent on the distance of the radial fracture from the distal radial articular surface:

Type I:

  • Fracture occurring distally from the 7.5 cm demarcation (i.e., closer to the wrist)
  • Associated with significant DRUJ instability in more than 50% of cases

Type II:

  • Fracture occurring proximally from the 7.5 cm demarcation (i.e., further from the wrist)
  • Associated with significant DRUJ instability in only around 5% of cases 

History and Physical

Patients with diaphyseal forearm fractures typically complain of pain at the site of injury. An examination should begin with a visual inspection of the skin and soft tissue paying close attention to visible bony deformities, skin lacerations, muscle contusions, tendon damage and neurovascular deficits. It is essential to identify wounds overlying fracture sites (i.e., open fracture), which necessitates immediate surgical intervention. Gentle palpation should be performed to identify deformities and focal tenderness. Stability of the proximal and distal joints should be assessed to identify concomitant injuries. A fall on an outstretched hand should raise suspicion for a wrist injury, and particular attention should be paid to the stability of the DRUJ. Avoid probing open wounds. High mechanism crush injuries merit a detailed neurovascular exam with repeat serial exams looking for signs of acute compartment syndrome. Inquire about weakness, numbness, paresthesias, and radiating pain. Although nerve injury is less common, examination of the median and radial nerve distribution is essential in identifying nerve damage. Ulnar nerve injury is rare.

Evaluation

Imaging

If a forearm fracture and dislocation are suspected, radiographs are warranted. An anteroposterior and lateral view will usually identify the injury. An additional oblique view may help better classify the injury. Additional radiographs of the distal wrist and proximal elbow should be obtained with any suspicion of coexistent injury.  

If a distal to mid-shaft radial fracture is seen on the radiograph, close examination of the DRUJ is merited. Signs of DRUJ disruption include:

  • Widening of the DRUJ on the PA view
  • Ulnar styloid fracture
  • Displacement of the ulna dorsally on the lateral view
  • Radial shortening greater than 5 mm (would need to compare with unaffected limb)

Usually, advanced imaging is not needed for initial assessment. For pre-operative planning, a CT scan may be used to evaluate for non-union, and magnetic resonance imaging (MRI) can help evaluate for TFCC tears and interosseous membrane disruption.

Treatment / Management

All suspected or confirmed Galeazzi fractures will require orthopedist consultation. While awaiting consult, patients should be placed in a sugar-tong splint. In most cases, conservative management is indicated in children while surgical intervention is warranted in adults. Prior reports suggested treatment with closed reduction and immobilization alone, in adults, yielded poor outcomes in greater than 90% of patients.[7][8]

Initial Management

Initial management for a presumed fracture includes rest, ice, immobilization, and elevation. In most cases, closed reduction of the radius followed by reduction of the ulna in the DRUJ should be attempted in the acute setting.

Pediatrics

Children tend to have overall better long-term outcomes compared to adults. The approach is usually conservative with closed reduction and splinting. Above-elbow casting in supination is the preferred immobilization. Irreducible and unstable injuries, as well as variants of the Galeazzi fracture, may require surgical intervention with open reduction and internal fixation (ORIF).

Adults

Adults tend to have poor outcomes with closed reduction and immobilization. Multiple reports have shown high rates of nonunion and secondary displacements with conservative management. Surgical intervention is the preferred intervention. The radial shaft fracture is first repaired with rigid fixation. Intra-operatively, after rigid fixation of the radius, the DRUJ stability should be assessed while in supination. If the joint is stable, two K-wires pinned. If instability is noted, the TFCC should be repaired followed by pinning.  If an ulnar styloid fracture accompanies the unstable DRUJ, the TFCC should be repaired followed by fixation of the styloid using a lag screw or tension band wire. Patients with irreducible DRUJ will require open reduction with the removal of obstructing soft tissue and repair of the TFCC. Patients are placed in an above the elbow splint/cast in supination.

As with all fractures, length of recovery is dependent on multiple variables including the severity of the injury, individual's ability to heal, and the intended use of the extremity. Rehabilitation usually begins six to eight weeks after surgical fixation. The goal of rehab is the return of full range of motion and fine motor skills with the absence of pain. Full return to activity depends upon the severity of the injury as well as the patient’s intended use of their upper extremities. Manual workers and athletes may require more prolonged rehabilitation. Typical return to full activity in patients with low physical demands can happen after 8 to 12 weeks. Patients with high demand activity (manual workers and athletes) may need up to 12 to 16 weeks of rehab. Surgical hardware is usually permanent, with less than 10% of patients needing hardware removal.

Pearls and Other Issues

Galeazzi injuries are associated with very high morbidity and are best managed by a multidisciplinary team that includes an orthopedic surgeon, emergency department physician, therapist, orthopedic nurse and the radiologist. Galeazzi fractures are easily missed, particularly the DRUJ dislocation, as they can be difficult to identify on radiographs. When patients present with forearm and elbow fractures, an orthopedic consult should be made.[9][10]

The complexity of Galeazzi fractures leads to a variety of outcomes. It is estimated that the overall complication rates of Galeazzi fractures are close to 40%. Children usually fare better than their adult counterparts. As time passes without the correct identified diagnosis, the more difficult it becomes to manage the injury, and the patient is more likely to have significant morbidity.

Forearm midshaft fractures have malunion or nonunion occurring in approximately 2% to 10% of cases, which is higher than the average forearm fracture nonunion rate (2%). Other notable complications include acute compartment syndrome (pre- and post-surgical), radioulnar synostosis (1% to 6%), elbow stiffness from protracted immobilization (adults), myositis ossificans, ulnohumeral osteoarthritis, and wound infections (0% to 3%).

Muscle-tendon entrapment may occur with significant injuries. The extensor carpi ulnaris, extensor digiti minimi, and flexor pollicis longus tendons are the most common to become entrapped with Galeazzi fractures. They can make reduction difficult and may require surgical repair to avoid chronic instability.

Branches of the radial nerve are the most common neurovascular structures to get injured. This is usually due to laceration of the radial sensory nerves during a volar surgical approach. The most common associated motor deficit is from injury to the posterior interosseous nerve, which can get damaged during a dorsal surgical approach. Transient injury to the anterior osseous nerve branch of the median nerve has been reported. Ulnar nerve injuries are rare. Nerve injuries rarely require treatment, and the majority of patients have complete resolution of symptoms in 9 to 12 weeks.

Enhancing Healthcare Team Outcomes

Galeazzi injuries are associated with very high morbidity and are best managed by a multidisciplinary team that includes an orthopedic surgeon, emergency department physician, therapist, orthopedic nurse and the radiologist. Galeazzi fractures are easily missed, particularly the DRUJ dislocation, as they can be difficult to identify on radiographs. When patients present with forearm and elbow fractures, an orthopedic consult should be made.

The complexity of Galeazzi fractures leads to a variety of outcomes. It is estimated that the overall complication rates of Galeazzi fractures are close to 40%. Children usually fare better than their adult counterparts. As time passes without the correct identified diagnosis, the more difficult it becomes to manage the injury, and the patient is more likely to have significant morbidity.

Even after treatment, recovery is often prolonged and rehabilitation is required to regain muscle strength and function.[3][11]


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Galeazzi Fractures - Questions

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A 16-year-old male presents with significant right arm pain after falling off a skateboard from a height of 6 feet. You suspect a dislocation of the distal radioulnar joint. What bone is commonly fractured in association with this dislocation? What name is associated with this injury pattern?



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A 17-year-old female presented to an emergency department with a left forearm deformity. She states that she fell from a 12-foot fall from a roof. A Galeazzi fracture is suspected. What radiographic finding would suggest this type of fracture?



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A 24-year-old male presents with a blunt trauma injury to the left arm. Radiographical findings are consistent with the Galeazzi fractures. What are the characteristic findings of this injury?

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A 17-year-old male presents to the emergency department after falling from an unknown height at a skateboard park. He fell directly on to his left outstretched hand. Radiographs of his injury are shown. What type of fracture is seen?

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A 23-year-old female medical student comes to the emergency room after sustaining a Galeazzi fracture of her right arm. She wants to know how stable her fracture is. Which of the following statements is true regarding the stability of a Galeazzi fracture?



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Galeazzi Fractures - References

References

Nhamoucha Y,Tazi M,Alaoui O,Abdellaoui H,Atarraf K,Chater L,Arroud M,Afifi A, [Galeazzi fracture in children: about 5 cases and literature review]. The Pan African medical journal. 2018;     [PubMed]
Yohe NJ,De Tolla J,Kaye MB,Edelstein DM,Choueka J, Irreducible Galeazzi Fracture-Dislocations. Hand (New York, N.Y.). 2019 Mar;     [PubMed]
Roettges P,Turker T, Ulnar Nerve Injury as a Result of Galeazzi Fracture: A Case Report and Literature Review. Hand (New York, N.Y.). 2017 Sep;     [PubMed]
Suganuma S,Tada K,Yamamoto D,Tsuchiya H, Galeazzi-equivalent Fractures: Report of Two Cases and Literature Review. The journal of hand surgery Asian-Pacific volume. 2017 Jun;     [PubMed]
Adams JE, Forearm Instability: Anatomy, Biomechanics, and Treatment Options. The Journal of hand surgery. 2017 Jan;     [PubMed]
Tsismenakis T,Tornetta P 3rd, Galeazzi fractures: Is DRUJ instability predicted by current guidelines? Injury. 2016 Jul;     [PubMed]
George AV,Lawton JN, Management of complications of forearm fractures. Hand clinics. 2015 May;     [PubMed]
Little JT,Klionsky NB,Chaturvedi A,Soral A,Chaturvedi A, Pediatric distal forearm and wrist injury: an imaging review. Radiographics : a review publication of the Radiological Society of North America, Inc. 2014 Mar-Apr;     [PubMed]
Kim S,Ward JP,Rettig ME, Galeazzi fracture with volar dislocation of the distal radioulnar joint. American journal of orthopedics (Belle Mead, N.J.). 2012 Nov;     [PubMed]
Wall L,O'Donnell JC,Schoenecker PL,Keeler KA,Dobbs MB,Luhmann SJ,Gordon JE, Titanium elastic nailing radius and ulna fractures in adolescents. Journal of pediatric orthopedics. Part B. 2012 Sep;     [PubMed]
Carlsen BT,Dennison DG,Moran SL, Acute dislocations of the distal radioulnar joint and distal ulna fractures. Hand clinics. 2010 Nov;     [PubMed]

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