Rosen & Barkin's 5-Minute Emergency Medicine Consult (712 page)

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Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

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DIAGNOSIS TESTS & NTERPRETATION
Imaging
  • Plain radiography:
    • Tibial plateau view:
      • Anteroposterior (AP) view angled at 10–15° of flexion to evaluate the tibial spines, fracture lines extending into the joint, and depressions
    • Sunrise view of the patella:
      • Useful in identifying fractures of the patella not visualized on AP or lateral views
    • Cross-table lateral view:
      • To evaluate the medial plateau and reveal lipohemarthrosis (fat–fluid level)
    • Oblique view:
      • To identify fractures not apparent on other films and provide more information on fracture patterns
    • Pay attention to areas of ligamentous attachment where avulsion fractures may take place:
      • Medial and lateral femoral condyles
      • Tibial spine (intercondylar eminence)
      • Fibular head
  • CT used to reveal occult fracture(s) not seen on plain film & further characterize known fracture
  • MRI used for identifying soft tissue injuries (ligamentous and meniscal injuries)
  • Arteriography helpful in localizing the injured area but should not delay revascularization and is indicated if:
    • High-energy mechanism
    • Schatzker type 4, 5, or 6 fracture
    • Alteration in distal pulses
    • Expanding hematoma
    • Bruit
    • Injury to anatomically related nerves
Diagnostic Procedures/Surgery
  • Arthrocentesis to look for fat globules and bone marrow elements indicative of intra-articular fracture:
    • Indication to do procedure: Effusion present without fracture on plain radiographs
  • Compartment pressure measurements are indicated if:
    • Pain not over fracture site
    • Pain on passive stretch
    • Paresthesias
    • Decreased distal pulses
    • Intracompartmental pressures >30 mm Hg are an indication for emergent orthopedic consultation
DIFFERENTIAL DIAGNOSIS
  • Knee dislocation
  • Proximal fibular fracture
  • Femoral condyle fracture
  • Patellar fracture
  • Tibial subcondylar fracture
  • Tibial tuberosity fracture
  • Tibial spine fracture
  • Cruciate ligament tears
  • Collateral ligament tears
  • Meniscal tears
Pediatric Considerations

Include oblique views as part of routine radiography

TREATMENT
PRE HOSPITAL

Cautions:

  • In high-energy mechanisms, associated major injuries take precedence
  • Immobilize to prevent further neurologic or vascular injury
INITIAL STABILIZATION/THERAPY
  • Stabilization of the multiple-injury trauma patient
  • Long leg splint in full extension
  • Ice
  • Elevation
  • Frank dislocations with vascular compromise may need immediate reduction in ED
ED TREATMENT/PROCEDURES
  • Nonweight bearing
  • Pain control
  • Nondisplaced fractures or minimally displaced (<8 mm)
    lateral
    plateau fractures without ligamentous injury:
    • Aspiration of hemarthrosis and injection of local anesthetic
    • Exam for ligamentous instability
    • If knee is
      stable:
      • Compressive dressing
      • Ice and elevation for 48 hr
      • No weight bearing/crutches
    • Knee is
      unstable
      if fracture is causing vascular injury or compartment syndrome
      • Urgent orthopedic consultation is warranted in the unstable knee
  • Open fractures:
    • Remove contaminants
    • Apply moist sterile dressing
    • Assess tetanus immunity
    • Antibiotics
    • Early administration of antibiotic, within 2–3 hr
    • Orthopedics consult for early surgical débridement
MEDICATION

Open fractures: Aminoglycoside + Cephalosporin

  • Cefazolin: 2 g IV (peds: 50 mg/kg)
  • Gentamicin: 2–5 mg/kg IV (peds: 2.5 mg/kg)
  • Tetanus toxoid if indicated
  • Vancomycin: 1 g IV loading dose (peds: 10 mg/kg) if penicillin allergic
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Open fractures for débridement, irrigation, and IV antibiotics
  • Comminuted, bicondylar fractures for traction
  • High-energy mechanisms for observation of neurovascular status and development of compartment syndrome; may occur 24 or more after injury
  • Pain control
Discharge Criteria

Nondisplaced or minimally displaced, stable fractures of the lateral plateau

FOLLOW-UP RECOMMENDATIONS

Orthopedic follow-up:

  • Long leg splint with ice, elevation, and nonweight-bearing status of affected joint
PEARLS AND PITFALLS
  • Consider popliteal artery injury with high-energy mechanisms of injury
  • Lipohemarthrosis (blood and fat globules) on arthrocentesis, is pathognomonic for intra-articular knee fracture
  • Tibial plateau fractures, Segond fractures, and Salter–Harris 1 fractures are easily missed on plain knee radiographs
ADDITIONAL READING
  • Berkson EM, Virkus WW. High-energy tibial plateau fractures.
    J Am Acad Orthop Surg.
    2006;14(1):20–31.
  • Fields KB, Eiff P, Grayzel J. Proximal tibial fractures in adults.
    UpToDate.com
    . Nov 2012.
  • Patrick B, et al. Towards evidence based emergency medicine: PRIVATE best BETs from the Manchester Royal Infirmary. BET1: Predicting the need for knee radiography in the emergency department: Ottawa or Pittsburgh rule?
    Emerg Med J.
    2012;29:77–78.
  • Skaggs DL, Friend L, Alman B, et al. The effect of surgical delay on acute infection following 554 open fractures in children.
    J Bone Joint Surg Am.
    2005;87(1):8–12.
  • Yao K, Haque T. The Ottawa knee rules – a useful clinical decision tool.
    Aust Fam Physician.
    2012;41(4):223–224.
  • Zeltser DW, Leopold SS. Classifications in brief: Schatzker classification of tibial plateau fractures.
    Clin Orthop Relat Res.
    2013;471:371–374.
CODES
ICD9
  • 823.00 Closed fracture of upper end of tibia alone
  • 823.10 Open fracture of upper end of tibia alone
ICD10
  • S82.143A Displaced bicondylar fracture of unsp tibia, init
  • S82.143B Displaced bicondylar fx unsp tibia, init for opn fx type I/2
  • S82.146A Nondisplaced bicondylar fracture of unsp tibia, init
TIBIAL/FIBULAR SHAFT FRACTURE
Stephen R. Hayden
BASICS
DESCRIPTION
Fracture Description

Tibia

  • 80% have associated fibular fractures
  • Open (24% are open) vs. closed
  • Extent of soft tissue damage
  • Gustilo–Anderson classification of open fractures:
    • Type I:
      • Wound <1 cm
      • Little soft tissue damage
      • No crush injury
    • Type II:
      • Wound >1 cm
      • Moderate soft tissue damage
      • Little or no devitalized soft tissue
    • Type III—severe soft tissue injury:
      • A—adequate soft tissue coverage of bone
      • B—tissue loss/periosteal stripping
      • C—neurovascular injury requiring surgery
  • Anatomic location:
    • Proximal, middle, or distal 3rd
    • Articular extension
  • Displacement
  • Degree of shortening
  • Angulation
  • Configuration:
    • Spiral, transverse, or oblique
    • Comminuted, with butterfly fragment or multiple fragments

Fibula

  • Proximal:
    • Associated with peroneal nerve injury
    • Disruption of ankle syndesmosis (Maisonneuve fracture)
  • Middle
  • Distal
Pediatric Considerations
  • 3rd most common long bone fracture in children
  • 2nd most common long bone fracture in nonaccidental trauma (usually apophyseal or metaphyseal corner)
  • Nonphyseal fracture patterns:
    • Compression (torus): Distal metaphysis
    • Incomplete tension–compression (greenstick)
    • Plastic/bowing deformity of fibula may occur.
    • Complete fractures
  • Physeal fracture patterns:
    • Tibial shaft fractures may extend to the physis in Salter–Harris II pattern.
ETIOLOGY

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