- Open fracture – a fracture with direct communication to the external environment
Epidemiology
- More common in middle aged people
- Tibia and phalanx are most common open fractures
Etiology/pathophysiology
- ‘Out-to-in’ injury – due to a high energy trauma (direct blow)
- Penetrates the skin and traumatises the soft tissues and bone
- ‘In-to-out’ injury – when a sharp bone end penetrates the skin from beneath
Associated conditions
- Early problems – multisystem injury, compartment syndrome, neurovascular injury
- Late – infection, non-union
Classification – Gustilo-Anderson Classification
- Type I – wound <1cm, minimal contamination or muscle damage
- Type II – wound 1-10cm, moderate soft tissue injury
- Type IIIA – wound >10cm, high energy trauma, comminuted fracture, extensive soft tissue damage
- Type IIIB – extensive periosteal stripping, required soft tissue coverage
- Type IIIC – vascular injury, requires vascular repair
Treatment
BOA Guidelines
- Initial assessment and ATLS if required
- Assessment of limb neurovascular status
- Remove gross contamination from the wound and cover with saline-soaked gauze and cling film
- Restore alignment if fracture is grossly displaced
- Antibiotics and tetanus prophylaxis (see below)
- Obtain X-rays
- Assess for presence of compartment syndrome
- Wound debridement in theatre
- Consider primary amputation if limb has been avascular for >6 hours
- Refer to specialist centre – for definitive reconstruction
Antibiotics and tetanus prophylaxis
- Gustilo type I + II – 1st gen cephalosporin (cefazolin/cephalexin)
- Gustilo type III – 1st gen cephalosporin + aminoglycoside (gentamicin)
- Others – vancomycin, high dose penicillin (for anaerobic coverage)
Tetanus prophylaxis
- Initiate in emergency room
- 0.5ml toxoid vaccine – intramuscular