Forearm Fractures

AnatomyPost op BBFF

 

Radial bow radius

- important for rotation

 

Interosseous membrane

- Z pattern

- proximal radius to distal ulna

 

Mechanism

 

Direct blow

- ulna / night stick

 

Ulna Fracture Night Stick

 

Indirect

 

Monteggia

- Proximal 1/3 ulna fracture with radial head dislocation

 

Elbow Monteggia FractureElbow Monteggia Fracture ORIF

 

Monteggia Variant

- proximal 1/3 ulna fracture with radial head / neck fracture

 

Monteggia Variant APMonteggia Variant Lateral

 

Galleazzi

- distal 1/3 radial fracture with DRUJ disruption

 

Galleazzi APGalleazzi LateralGalleazzi Xray APGalleazzi Xray Lateral

 

Both bone foream fractures

 

Bone bone forearm fracture APBBFF Lateral

 

Associated Injuries

 

Ulna can be compound

Compartment Syndrome

 

Compound Ulna

 

X-ray

 

Joint above and below

 

Elbow

- always assess radial capitellar line on two views

 

DRUJ disruption

- widened space between R & U

- radial shortening > 5 mm

- ulna styloid fracture

 

Classification

 

Isolated single bone

 

Both bone

 

Fracture of one bone with ligament rupture

- Galleazzi, Monteggia

 

Fractures of bone bones with ligament rupture

 

Non operative Management

 

Indications

 

Ulna

- < 10o angulation

 

Ulna Fracture Undisplaced

 

Radius

- completely undisplaced

- maintenance radial bow

 

Operative Management

 

Options

 

Intramedullary fixation

- children (good remodelling potential)

- prophylaxis to prevent pathological fracture

 

Ulna Intramedullary Wire

 

External Fixation

- severe injury / compound

 

Plate fixation

 

Ulna Plating

 

Goals

 

Anatomical reduction with absolute stability

- length

- rotation

- radial bow (need to bend plate for long fractures)

 

Approach

 

Forearm Fractures Plate LateralForearm Fractures Plate AP

 

 

 

Ulna

- approach between ECU / FCU

 

Radius

 

Distal

- between FCR and radial artery

 

Proximally

- between BR and pronator teres

- supinate forearm

- elevate supinator from ulna to radial

 

Galleazzi

 

Incident DRUJ instability

- up to 50% if fracture radius < 7.5 cm to distal articular surface

- < 5% if > 7.5 cm

 

Galleazzi ORIF 1Galleazzi ORIF 2

 

Plate distal radius

- assess DRUJ stability

- if stable, early ROM

- unstable, splint in supination

- if still unstable, ensure that radius is anatomical

- may have to repair TFCC / ORIF ulnar styloid

- if still unstable, may rarely have to K wire ulna to radius

 

Galleazzi ORIF APGalleazzi ORIF Lateral

 

Yohe et al Hand 2017

- irreducible dorsal dislocations usually due to extensor tendonds, or fracture fragments

- no soft tissue block to volar dislocations

 

Tsismenakis et al Injury 2017

- 7/66 (11%) incidence of DRUJ instability after fixation

- 4/7 had ulnar styloid fracture

- may need ORIF ulnar styloid / fixation of TFCC to obtain stability

- can pin DRUJ proximal to fossa

 

Complications

 

Nonunion

- 2%

- exclude infection

 

Radial Fracture Non Union CTUlna Non Union

 

 

Malunion

 

Problem

- > 10o angulation leads to loss of ROM

 

Management

- osteotomy

 

Radial Fracture Malunion Radial Fracture Malunion 2Radial Osteotomy Radial Osteotomy Lateral

 

Infection

 

Management

 

Initial

- excise non union 

- debridement

- ABx cement spacer + external fixator

- eliminate infection

 

Obtain union

- BG and plate

 

Compartment syndrome

- don't close fascia

- good haemostasis

 

Synostosis

 

Risk factors

- fractures at same level / Monteggia

- proximal fractures

- open fractures

- head injuries

- bone grafting

- ORIF through single incision

- delayed surgery > 2 weeks

 

Management

 

Excision

- usually posterior approach

- elevate ECU from ulna

- exposes synostosis and radius

- application of bone wax to bone after debridement

- +/- irradiation / indomethacin especially in head injured patients

- worst results with proximal synostosis