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An approach to ankle x-rays

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Inability to weight bear on right foot ... Pilon (tibial plafond) fractures. Source:Rosen. Case 6. Tillaux Fracture. Occurs in 12-14 year olds ... – PowerPoint PPT presentation

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Title: An approach to ankle x-rays


1
An approach to ankle x-rays
  • Aric Storck PGY2
  • (acknowledgement to Dr. Dave Dyck for several
    slides)
  • September 11, 2003

2
Objectives
  • Review basic ankle fracture classification
  • Review x-rays of common ankle fractures
  • Discuss management of common ankle fractures

3
Case 1
  • 25 year old female
  • Jumped off roof
  • Right ankle pain
  • Inability to weight bear on right foot
  • What else do you want to know on history and
    physical examination?
  • Does she need x-rays ?

4
Ottawa Ankle Rules
  • Order ankle x-rays if acute trauma to ankle and
    one or more of
  • Age 55 or older
  • Inability to weight bear both immediately and in
    ER (4 steps)
  • Bony tenderness over posterior distal 6 cm of
    lateral or medial malleoli
  • Sensitivity 100
  • Specificity 40

5
You have decided to order an ankle x-ray. The
nurse entering your orders asks which views you
want
6
Ankle X-rays 3 views
  • AP
  • Identifies fractures of malleoli, distal
    tibia/fibula, plafond, talar dome, body and
    lateral process of talus, calcaneous
  • Mortise
  • Ankle 15-25 degrees internal rotation
  • Evaluate articular surface between talar dome and
    mortise
  • Lateral
  • Identifies fractures of anterior/posterior tibial
    margins, talar neck, displacement of talus

7
AP x-ray
  • Identifies fractures of
  • malleoli
  • distal tibia/fibula
  • plafond
  • talar dome
  • body and lateral process of talus
  • calcaneous

8
Tib/fib clear space
Tib/fib overlap
9
AP xray
10
Now apply what youve learned
  • Lateral malleolar fracture
  • Tib/fib clear space lt5mm
  • Tib/fib overlap gt10 mm
  • No evidence of syndesmotic injury

11
Mortise X-Ray
  • Taken with ankle in 15-25 degrees of internal
    rotation
  • Useful in evaluation of articular surface between
    talar dome and mortise

12
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13
Mortise x-ray
  • Medial clear space
  • Between lateral border of medial malleous and
    medial talus
  • lt4mm is normal
  • gt4mm suggests lateral shift of talus

14
Mortise x-ray
  • Talar tilt
  • Normal -1.5 to 1.5 degrees (ie. Parallel)
  • Can go up to 5 degrees in stress views
  • lt2mm difference between medial and lateral
    talar/plafond distances

15
Lateral x-ray
  • Identifies fractures of
  • Anterior/posterior tibial margins
  • Talus
  • Displacement of talus
  • Os trigonum

16
Stable vs Unstable
  • The ankle is a ring
  • Tibial plafond
  • Medial malleolus
  • Deltoid ligaments
  • calcaneous
  • Lateral collateral ligaments
  • Lateral malleolus
  • Syndesmosis
  • Fracture of single part usually stable
  • Fracture gt 1 part unstable

Source Rosen
17
Walking the walk . Talking the talk
Ortho is on the phone. They ask you to describe
the fracture.
18
Lauge-Hansen
  • 15 basic types of injury in 5 major categories
  • Described by two words
  • Position of foot at time of injury
  • Direction of talus within mortise causing
    fracture
  • Eg supination-external rotation
  • Further subdivided into worsening areas of injury
  • Impossible to remember and clinically useless in
    the ED

19
Danis-Weber
  • Defines injury based on level of fibular fracture
  • Abelow tibiotalar joint
  • No disruption of syndesmosis
  • Usually stable
  • Bat level of tibiotalar joint
  • Partial disruption of syndesmosis
  • Cabove tibiotalar joint
  • Disrupts syndesmosis to level of fracture
  • unstable
  • THE MORE PROXIMAL THE FIBULAR THE MORE SEVERE
    THE INJURY

20
AO classification
  • Similar to Danis-Weber scheme
  • Takes into account damage to other structures
    (usually medial malleolous)
  • 2 pages of classifications
  • Remember them all for your exam!

21
AO classification
22
Potts classification
  • Easy to remember
  • First degree
  • unimalleolar
  • Second degree
  • bimalleolar
  • Third degree
  • trimalleolar

23
Case 2
24
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25
Lateral Malleolar FractureDanis-Weber A
  • Mechanism
  • Suppination/adduction (inversion)
  • Mortise intact
  • Stable fracture
  • Treatment
  • Below knee cast

26
Case 3
27
Bimalleolar (lat post malleoli)
  • Mechanism
  • Inversion
  • Avulsion of posterior malleolus (post
    tibiofibular ligament)
  • Medial mortise wide
  • Suggests instability
  • Management
  • Posterior slab
  • Orthopedic consult

Source McRaes Practical Fracture Treatment
28
Case 4
29
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30
Trimalleolar Fractures
  • Unstable
  • Multiple ligamentous injuries
  • Usually involves syndesmosis
  • Treatment
  • Posterior slab
  • Urgent orthopedic consultation
  • ORIF

31
CASE 5
SourceRosen
32
Pilon (tibial plafond) fractures
  • Fracture of distal tibial metaphysis
  • Often comminuted
  • Often significant other injuries
  • Mechanism
  • Axial load
  • Position of foot determines injury
  • Treatment
  • Unstable
  • X-ray tib/fib ankle
  • Orthopedic consultation

SourceRosen
33
Case 6
34
Tillaux Fracture
  • Occurs in 12-14 year olds
  • 18 month period when epiphysis is closing
  • Salter-Harris 3 injury
  • Runs through anterolateral physis until reaches
    fused part, then extends inferiorly through
    epiphysis into joint
  • Visible if x-ray parallel to plane of fracture
    (may require oblique)
  • Mechanism
  • External rotation
  • Strenth of tibiofibular ligament gt unfused
    epiphysis

35
Tillaux Fracture
  • Management
  • Inadequate reduction of articular surface can
    lead to early OA
  • Gap gt2mm in articular surface is unacceptable
  • Advanced imaging techniques may be necessary
  • Early orthopedic consultation
  • Non-displaced
  • NWB below knee cast
  • Displaced
  • surgery

36
Case 7
Source Rosen
37
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38
Maisonneuve Fracture
  • Mechanism
  • Eversion lateral rotation
  • May cause medial malleolar fracture or deltoid
    ligament disruption
  • Injury proceeds along syndesmosis and involves
    proximal fibula
  • Always rule out Maisonneuve fracture in medial
    malleolar/ligamentous injury

39
Maisonneuve Fracture
  • Mechanism
  • Eversion lateral rotation
  • Causes medial malleolar fracture or deltoid
    ligament disruption

40
  • If injury proceeds along syndesmosis it involves
    proximal fibula Maisonneuve Fracture
  • Always rule out Maisonneuve fracture in medial
    malleolar/ligamentous injury

41
  • As talus continues to rotate
  • Posterior tib-fib ligament ruptures
  • Interosseous membrane rips
  • Gross diastasis
  • Dupuytren fracture dislocation of the ankle

42
Case 8
43
the end
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