Injuries of the ankle joint which can occur
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Apr 24, 2024
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About This Presentation
injuries around the ankle joint
Slide Content
INJURIES AROUND ANKLE JOINT
AND IT’S MANAGEMENT
AND IT’S MANAGEMENT
INTRODUCTION
Ankle injury refers to disruption of any
component or components of the ankle
joint following trauma.
Ankle injuries occur frequently, and have
high propensity for complications.
Ankle injury refers to disruption of any
component or components of the ankle
joint following trauma.
Ankle injuries occur frequently, and have
high propensity for complications.
ANATOMY
Ankle joint is a synovial joint of hinge variety
Ankle joint is a synovial joint of hinge variety
Bony mortise-quadrilateral
shape
Posterolateral position of
fibula
Ligaments
3 groups
-Lateral
-Medial
-Syndesmotic
shape
Posterolateral position of
fibula
Ligaments
3 groups
-Lateral
-Medial
-Syndesmotic
ANKLE JOINT IS SUPPORTED BY
Fibrous capsule
Deltoid ligament
A. Superficial
a. Anterior-
Tibionavicular
b. Middle-
Tibiocalcanean
c. Posterior-Posterior
tibiotalar
B. Deep : Anterior-
Tibiotalar
Fibrous capsule
Deltoid ligament
A. Superficial
a. Anterior-
Tibionavicular
b. Middle-
Tibiocalcanean
c. Posterior-Posterior
tibiotalar
B. Deep : Anterior-
Tibiotalar
Lateral ligament
Anterior-Talofibular
Posterior-Talofibular
Calcaneofibular
Anterior-Talofibular
Posterior-Talofibular
Calcaneofibular
SYNDESMOTIC LIGAMENTS
Ant inf tibio fib
Supf post tibio fib
Deep post tibio fib
Interosseous lig
Ant inf tibio fib
Supf post tibio fib
Deep post tibio fib
Interosseous lig
ACUTE LIGAMENTOUS INJURY
Type I sprain-minor
Type II sprain -incomplete
Type III sprain -complete
Type I sprain-minor
Type II sprain -incomplete
Type III sprain -complete
TREATMENT
LIGAMENT INJURY
Non-operative treatment
Achieved by RICE
Operative treatment
Indicated when problems persist after 12 weeks of treatment
including physiotherapy
Associated fracture
LIGAMENT INJURY
Non-operative treatment
Achieved by RICE
Operative treatment
Indicated when problems persist after 12 weeks of treatment
including physiotherapy
Associated fracture
CLASSIFICATIONS
LAUGE HANSEN
LAUGE HANSEN
LAUGE HANSEN
1.Position of foot at
injury-
Pronation/Supination
2.Deforming force-
Abduction/ adduction/
external rotation
Most Common
mechanism of injury-SER
Most Common unstable
ankle fracture variant-SER
1.Position of foot at
injury-
Pronation/Supination
2.Deforming force-
Abduction/ adduction/
external rotation
Most Common
mechanism of injury-SER
Most Common unstable
ankle fracture variant-SER
LAUGE HANSEN
SUPINATION ADDUCTION
SUPINATION EXT ROT
PRONATION ABDUCTION
PRONATION EXT ROT
PRONATION DORSIFLEX
SUPINATION ADDUCTION
SUPINATION EXT ROT
PRONATION ABDUCTION
PRONATION EXT ROT
PRONATION DORSIFLEX
Maisonneuve’s fracture
High spiral oblique fracture
of upper 3
rd
fibula with ankle
PER injury
High spiral oblique fracture
of upper 3
rd
fibula with ankle
PER injury
TYPES OF INJURIES
Soft tissue injuries
Ligament injuries
Lateral collateral ligament injury
Deltoid ligament injury
Syndesmotic injury
Fractures
Malleolar fractures
Pilon fractures
Physeal injuries
Soft tissue injuries
Ligament injuries
Lateral collateral ligament injury
Deltoid ligament injury
Syndesmotic injury
Fractures
Malleolar fractures
Pilon fractures
Physeal injuries
DIAGNOSIS
RADIOLOGICAL VIEWS
AP / LAT ANKLE
AP/OBLIQUE FOOT
AP MORTISE ANKLE
AP / LAT ANKLE
AP/OBLIQUE FOOT
AP MORTISE ANKLE
OTHER INVESTIGATIONS
ARTHROGRAPHY
ARTHROSCOPY
CT SCAN
MRI
BONE SCAN
ARTHROGRAPHY
ARTHROSCOPY
CT SCAN
MRI
BONE SCAN
AP VIEW
SYNDESMOSIS
Tibiofibular overlap<10mm
MALLEOLAR LENGTH
Talocrural angle 83+_4 deg
TALAR TILT
-sup clear space-med clear space
diff <2mm
SYNDESMOSIS
Tibiofibular overlap<10mm
MALLEOLAR LENGTH
Talocrural angle 83+_4 deg
TALAR TILT
-sup clear space-med clear space
diff <2mm
MORTISE VIEW
What else to see in x-rays
LAT MALLEOLUS
Level of fracture
Orientation of fracture
Fracture comminution
MED/POST MALLEOLUS
Size
Assoc plafond #
Assoc syndesmotic injury
LAT MALLEOLUS
Level of fracture
Orientation of fracture
Fracture comminution
MED/POST MALLEOLUS
Size
Assoc plafond #
Assoc syndesmotic injury
SYNDESMOTIC INJURY
Pott’s Fracture
Fracture involving the ankle joint
loosely referred to as Pott’s Fracture
1.First degree single malleolus fractured.
2.In second degree two malleoli are
fractured.
3.In third degree there is bimalleolar
fracture with a fracture of posterior part
of inferior articular surface of the tibia
referred to as third malleolus. (Tri
Malleolar fracture)
Fracture involving the ankle joint
loosely referred to as Pott’s Fracture
1.First degree single malleolus fractured.
2.In second degree two malleoli are
fractured.
3.In third degree there is bimalleolar
fracture with a fracture of posterior part
of inferior articular surface of the tibia
referred to as third malleolus. (Tri
Malleolar fracture)
MANAGEMENT
RICE
Definitive
Aim-restoration of complete normal anatomical alignment of
ankle.
Patients if needs operation should be operated within 24hrs of
injury or after one week once the swelling subsides.
Undisplaced fracture medial malleolus :
Below knee POP cast for 6 weeks.
Reduction fails (may be due to soft tissue (periosteal) inter
position)
RICE
Definitive
Aim-restoration of complete normal anatomical alignment of
ankle.
Patients if needs operation should be operated within 24hrs of
injury or after one week once the swelling subsides.
Undisplaced fracture medial malleolus :
Below knee POP cast for 6 weeks.
Reduction fails (may be due to soft tissue (periosteal) inter
position)
Displaced:
Open reduction and internal fixation by
Cancellous screws group
Tension band wiring
Fracture lateral malleolus:
Lateral Malleolus helps in length maintenance &
maintenance of ankle mortice.
Hence, lateral malleolus has to be fixed internally.
Open reduction and internal fixation by
Cancellous screws group
Tension band wiring
Fracture lateral malleolus:
Lateral Malleolus helps in length maintenance &
maintenance of ankle mortice.
Hence, lateral malleolus has to be fixed internally.
TIBIAL PILON FRACTURES
Intraarticular fracture of distal tibia.
Fibula is fractured in 85% of these patients.
Intraarticular fracture of distal tibia.
Fibula is fractured in 85% of these patients.
TIBIAL PILON FRACTURE
1.Plaster immobilization
2.Traction
3.Lag screw fixation
4.OR & IF with plates
5.External fixation with or without limited
internal fixation
If articular incongruity <2 mm
and reserved for low energy
injuries
1.Plaster immobilization
2.Traction
3.Lag screw fixation
4.OR & IF with plates
5.External fixation with or without limited
internal fixation
If articular incongruity <2 mm
and reserved for low energy
injuries
COMPLICATIONS
Malunion-may result in posttraumatic arthritis and
painful movements.
Nonunionof medial malleolus-commonly due to
interposition of fractured periosteum between two
fragments.
Repeated edema
Sudeck’s Osteodystrophy
Malunion-may result in posttraumatic arthritis and
painful movements.
Nonunionof medial malleolus-commonly due to
interposition of fractured periosteum between two
fragments.
Repeated edema
Sudeck’s Osteodystrophy
TALUS FRACTURE
Anatomy-parts
Head-articulate with
navicular
Neck-nonarticular
Body-articulate with tibia
and calcaneus
No muscular or tendinous
attachment
Head-articulate with
navicular
Neck-nonarticular
Body-articulate with tibia
and calcaneus
No muscular or tendinous
attachment
Blood supply
Extraosseous supply
Posterior tibial a.tarsal canal a.
Anterior tibial a. sinus tarsi a
Peroneal a.sinus tarsi a.
Intraosseous supply
Talar head
Talar body
-anastomosis between tarsal canal a. and
tarsal sinus a.
Extraosseous supply
Posterior tibial a.tarsal canal a.
Anterior tibial a. sinus tarsi a
Peroneal a.sinus tarsi a.
Intraosseous supply
Talar head
Talar body
-anastomosis between tarsal canal a. and
tarsal sinus a.
Talar head fracture
5~10% of all talus fracture
5~10% of all talus fracture
Talar neck fracture
Aviator’s astragalus
High energy injury, hyperdorsiflexion
15~20% open fracture
Associated with malleloar fracture(25% of cases), medial
malleolusis more common
High risk of soft tissue injury and compartment syndrome
Aviator’s astragalus
High energy injury, hyperdorsiflexion
15~20% open fracture
Associated with malleloar fracture(25% of cases), medial
malleolusis more common
High risk of soft tissue injury and compartment syndrome
Classification-Hawkins
classification
nondisplaced
Displaced
Subtalar subluxation
Ankle dislocation
(Talar body dislocation)
Talonavicular
dislocation
classification
nondisplaced
Displaced
Subtalar subluxation
Ankle dislocation
(Talar body dislocation)
Talonavicular
dislocation
Treatment
Hawkins type I
4~6 weeks of no weightbearing in a short leg cast
walking cast for 1~2 months
Percutaneous screw fixation
Hawkins type I
4~6 weeks of no weightbearing in a short leg cast
walking cast for 1~2 months
Percutaneous screw fixation
Treatment
Hawkins type II
Orthopaedic emergency: traction and plantar flexion by
manipulation anatomic reduction(50%) treated as type
I
Open reduction: screw placed across the neck fracture
Hawkins type II
Orthopaedic emergency: traction and plantar flexion by
manipulation anatomic reduction(50%) treated as type
I
Open reduction: screw placed across the neck fracture
Treatment
Hawkins type III
ORIF and Skeletal traction
through the calcaenus
Open fracture (> type III)
:talar body excision followed
By primary tibiocalcanealor
Blair-type arthrodesis
Hawkins type IV
Rare injury
As type II
Hawkins type III
ORIF and Skeletal traction
through the calcaenus
Open fracture (> type III)
:talar body excision followed
By primary tibiocalcanealor
Blair-type arthrodesis
Hawkins type IV
Rare injury
As type II
Complication
Skin necrosis and infection
Delayed union or nonunion
Malunion
Posttraumatic arthritis
Osteonecrosis
Skin necrosis and infection
Delayed union or nonunion
Malunion
Posttraumatic arthritis
Osteonecrosis
Calcaneal fracture
Anatomy
Largest, most irregularly shaped bone in foot
Large calcellousbone and multiple processes
Achilles tendon posteriorly and plantar fascia inferiorly : tuberosity
Posterior facet: talarlateral process and body
Middle facet: Sustentacularfragment (flexor hallucislonguspass)
Anterior process: cuboid
Largest, most irregularly shaped bone in foot
Large calcellousbone and multiple processes
Achilles tendon posteriorly and plantar fascia inferiorly : tuberosity
Posterior facet: talarlateral process and body
Middle facet: Sustentacularfragment (flexor hallucislonguspass)
Anterior process: cuboid
Calcaneal fracture
Classification
Essex-Lopresti
--Extraarticular(25%) v.s intraarticular(75%) fracture
Sanders
--CT classification of intraticular calcaneal fracture
Classification
Essex-Lopresti
--Extraarticular(25%) v.s intraarticular(75%) fracture
Sanders
--CT classification of intraticular calcaneal fracture
Associated injuries
A fall from a height or high–energy mechanisms
10% lumbar spine fracture(L1); 10% of calcaneal fracture are bilateral
A fall from a height or high–energy mechanisms
10% lumbar spine fracture(L1); 10% of calcaneal fracture are bilateral
Broden’s view showing the depressed
posterior facet
varus position of the tuberosity
↓
↑
posterior facet
varus position of the tuberosity
↓
↑
Intraarticular fracture
(joint depression and tongue type)
Mechanism injury
Axial loading
Radiography
Loss of Bohler’s and Gissane’s angles
(joint depression and tongue type)
Mechanism injury
Axial loading
Radiography
Loss of Bohler’s and Gissane’s angles
Intraarticular fracture
Joint-depression type, in which the
primary fracture line exited the bone
close to the subtalarjoint
tongue-type, in which the primary
fracture line exited the bone posteriorly
Joint-depression type, in which the
primary fracture line exited the bone
close to the subtalarjoint
tongue-type, in which the primary
fracture line exited the bone posteriorly
Intraarticular fracture
--Treatment
Nondisplaced articular fractures
Bulky (Robert-jones) dressing: active subtalar ROM, prohibit
weightbearing walking 8~12 wks later
Displaced intraarticular fracture with large fragment
ORIF
--Treatment
Nondisplaced articular fractures
Bulky (Robert-jones) dressing: active subtalar ROM, prohibit
weightbearing walking 8~12 wks later
Displaced intraarticular fracture with large fragment
ORIF
Intraarticular fracture
--Treatment
Displaced intraarticular fracture with severe comminution
Increasing intraarticualr comminution leads to less satisfactory
results
ORIF primary arthrodesis
Restoring the heel width and height
--Treatment
Displaced intraarticular fracture with severe comminution
Increasing intraarticualr comminution leads to less satisfactory
results
ORIF primary arthrodesis
Restoring the heel width and height
Intraarticular fracture
--complications
Soft tissue breakdown
Local infection
Subtalararthritis
--complications
Soft tissue breakdown
Local infection
Subtalararthritis
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