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Midfoot Fractures

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Midfoot Fractures Jenny Jefferis What is a midfoot fracture? Fracture of the midfoot involving the: Tarsometatarsal joint (Lisfranc Fracture) Cuneiforms Tarsal ... – PowerPoint PPT presentation

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Title: Midfoot Fractures


1
Midfoot Fractures
  • Jenny Jefferis

2
What is a midfoot fracture?
  • Fracture of the midfoot involving the
  • Tarsometatarsal joint (Lisfranc Fracture)
  • Cuneiforms
  • Tarsal navicular bone
  • Cuboid bone

3
What is a Lisfranc Fracture?
  • Between the tarsal and metatarsal bones
  • The 1st 2nd metatarsal articulates with the
    medial cuneiforms and are the keystones of the
    foot
  • Supplies stability between the midfoot forefoot
    during gait

4
Lisfranc Fracture
  • Frontal view of the foot shows fracture/
    dislocation in the tarsometatarsal joint
    (Lisfranc's joint) with dislocations of the 1st
    through 5th metatarsals

5
  • Various fractures of the tarsal navicular bone
    include
  • Cortical avulsions
  • Most common
  • Results from twisting forces on the mid foot
  • Fracture of the tuberosity
  • May involve the post. tibial tendon
  • Bony fractures
  • Stress fractures

6
Tarsal Navicular Fracture
  • Frequently have posttraumatic arthritis
    discomfort in all phases of gait
  • Requires immobilization in a non-weight bearing
    short leg cast

7
Cuboid Fracture
  • Known as nutcracker fractures because the cuboid
    is cracked like a nut b/w the 5th metatarsal
    the calcaneous as the forefoot is forced into
    abduction.

8
Cuneiform Fracture
  • Uncommon
  • Usually occur w/ high-energy injuries
  • Open reduction internal fixation is recommended

9
Mechanism of Injury
  • 3 common causes
  • Twisting of the forefoot
  • Often occur during vehicle accidents when the
    foot is abducted
  • Axial loading of a fixed foot
  • Occurs when falling on an extremely dorsiflexed
    foot or axial loading from body weight, stepping
    off a curb
  • Crushing
  • To the dorsum of the foot
  • Usually in industrial accidents
  • Clinician should be aware of compartment syndrome
    injury to the dorsal pedis artery

10
Treatment Goals
  • Alignment-
  • Restoring the alignment with the cuneiforms
  • -Important for normal weight bearing
  • -Load distribution of the foot
  • -To maintain the medial arch of the foot
  • Restoring the length alignment of
  • cuneiforms
  • cuboid
  • navicular

11
Treatment Goals
  • Stability
  • Stable fixation of the navicular cuboid
  • Allows effective transfer of weight from the hind
    foot
  • Helps with eversion inversion of the subtalar
    jt.
  • A stable reconstruction of the Lisfranc joint
  • Important in maintaining the medial arch of the
    foot a pn free and secure gait

12
Range of Motion
Motion Normal Functional
Ankle Plantar Flexion 45 20
Ankle Dorsiflexion 20-25 10
Foot Inversion 35 10
Foot Eversion 25 10
13
Muscle Strength
  • Invertors
  • Tibialis Anterior
  • Tibialis Posterior
  • Evertors
  • Peroneus Longus
  • Peroneus Brevis
  • Dorsiflexors
  • Tibialis Anterior
  • Toe extensors
  • Plantar Flexors
  • Gastrocnemius
  • Soleus
  • Tibialis Posterior

Peroneous Longus weakness can result from severe
dislocations of the Lisfranc Fracture because
this muscle inserts on the 1st metatarsal 1st
cuneiform
14
Time of Bone Healing
  • Tarsometatarsal or Lisfranc Fracture
  • 8-10 weeks
  • Tarsal Navicular
  • 6-10 weeks
  • Cuboid Cuneiform Fracture
  • 6-10 weeks

15
Duration of Rehabilitation
  • Tarsometatarsal or Lisfranc Fracture
  • 8 weeks- 4 months
  • Tarsal Navicular
  • Acute Fx6 wks- 4 months
  • Delayed union, nonunion, or stress fx 6 wks- 4
    months
  • Cuboid Cuneiform Fracture
  • 6 wks- 4 months

16
Treatment Methods
  • Tarsometatarsal or Lisfranc Fx
  • Cast
  • Biomechanics stress-sharing device
  • Mode of Bone Healing Secondary, with callus
    formation
  • Indications May be treated w/ a short leg cast
    for 6 wks. May bear weight when pn free.

17
Treatment Methods
  • Open Reduction Internal Fixation
  • Biomechanics stress-shielding device w/ screw
    fixation
  • Mode of healing Primary, w/ rigid fixation
  • Indications Pt placed in a weight bearing cast
    for 6 wks. Unprotected weigh bearing is not
    recommended until screws are removed at least
    10-12 wks after surgery.

18
Treatment Methods
  • Closed Reduction Percutaneous Pinning
  • Biomechanics Stress-sharing device w/ pin
    fixation
  • Mode of bone healing Secondary, w/ callus
    formation
  • Indications Kirschner-wire fixation. Placed in a
    non-weight bearing short leg cast after fixation.
    Wires removed at 6 wks, followed by protective
    weight bearing.

19
Treatment Methods
  • Tarsal Navicular Fx
  • Cast
  • Biomechanics stress-sharing device
  • Mode of bone healing Secondary, w/ callus
    formation
  • Indications May be placed in a short leg cast.
  • Cortical avulsion fx short leg walking cast, 4-6
    wks.
  • Tuberosity fx Short leg walking cast, 4-6 wks.

20
Treatment Methods
  • Open Reduction Internal Fixation
  • Biomechanics Stress-shielding device w/ rigid
    fixation
  • Mode of bone healing Primary, w/out callus
    formation
  • Indications To avoid severe deformity
    arthritis, must be treated w/ reduction rigid
    fixation

21
Treatment Methods
  • Cuboid Cuneiform Fx
  • Cast
  • Biomechanics Stress-sharing device
  • Mode of bone healing Secondary w/ minimum callus
    formation
  • Indications
  • Cuboids closed in a weight bearing cast
  • Cuneiforms short leg cast, immobilized because
    of ligamentous damage

22
Treatment Methods
  • Open Reduction Internal Fixation
  • Biomechanics stress-shielding device
  • Mode of bone healing primary, w/ rigid fixation
  • Indications
  • open reduction internal fixation for any amount
    of displacement, followed by a 6 wk. period of
    non-weight bearing.

23
Special Considerations of the Fx
  • Age
  • Joint stiffness particularly w/ navicular fxs
  • Active Pts. Also are probe to jt. Stiffness w/ a
    navicular fx
  • Articular Involvement
  • Posttraumatic arthritis fusion
  • Limited pronation supination
  • Location or possible
  • Open Fractures
  • Damage to the dorsal pedis artery
  • Open fx must undergo irrigation, debridement,
    intrevenous antibiotics
  • Always a possibility of compartment syndrome
  • Tendon Ligament Injuries
  • Extensor tendons should be inspected for possible
    damage

24
Gait
  • Stance Phase
  • 60 of gait cycle
  • Heel Strike
  • ? pn from inversion to eversion
  • Foot-Flat
  • Painful b/c of injured bones of the medial arch
  • Mid-Stance
  • Painful as foot is moving from neutral to
    eversion
  • Push-Off
  • Pt may limit plantar flexion
  • Cycle is shortened
  • Swing Phase
  • 40 of gait cycle
  • Not affected by any of these fxs b/c foot is not
    in contact w/ ground

25
  • http//www.youtube.com/watch?v5nokor_ecSI
  • http//www.youtube.com/watch?vr8-eG9hc344feature
    related
  • http//video.aol.com/video-detail/short-leg-cast/4
    134668378
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