Fracture Classification Review 2024 PDF

Summary

This document reviews fracture classifications for various foot and ankle injuries. It details different methods of classification, such as Lauge-Hansen, Danis-Weber, and Rowe, for ankle fractures. It also covers classifications for calcaneal fractures, growth plate injuries, and talar fractures, along with classifications for other types of fractures.

Full Transcript

Fracture Classification Review
DPM 2026
Kevin Smith, DPM, PhD
CPMS Mission Statement
To educate a diverse group of highly
competent and compassionate podiatric
health professionals to improve lives in a
global community.
Ankle Fractures
 LAUGE-HANSEN
— First word = Position of foot at time of injury
— Second word = Motion of talus through the injury
— Four Main Patterns of Injury
— Supination-adduction
— Pronation-abduction
— Supination-external rotation
— Pronation-external rotation
— Most fractures fit into system

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 SUPINATION-ADDUCTION
— Stage 1
— Rupture of lateral collateral ligaments
OR
— Transverse fracture of fibula below ankle
joint
— Stage 2
— Vertical fracture of medial malleolus

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 PRONATION-ABDUCTION
— Stage 1
— Rupture of deltoid ligament
OR
— Transverse fracture of medial malleolus
— Stage 2
— Disruption of AITFL and PITFL
OR
— Tillaux Chaput, Wagstaffe or Volkmann fracture
— Stage 3
— Short oblique fracture of the fibula at ankle joint

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 SUPINATION-EXTERNAL ROTATION
— Stage 1
— Disruption of AITFL
OR
— Tillaux Chaput/Wagstaffe fracture
— Stage 2
— Spiral fracture of fibula at ankle joint
— Stage 3
— Disruption of PITFL
OR
— Volkmann fracture
— Stage 4
— Rupture of deltoid ligament
— Transverse fracture of medial malleolus

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 PRONATION-EXTERNAL ROTATION
— Stage 1
— Rupture of deltoid ligament
OR
— Transverse fracture of medial malleolus

— Stage 2
— Disruption of AITFL
OR
— Tillaux Chaput/Wagstaffe fracture
— Rupture of interosseous membrane

— Stage 3
— Fibular fracture proximal to syndesmosis
— Stage 4
— Disruption of PITFL
OR
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— Volkmann fracture
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 DANIS-WEBER
— Three main patterns of injury
— Based on fibular fracture and its relationship to the ankle
joint

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 DANIS-WEBER
— A: Fibular fracture below level of the ankle
B: Fibular fracture at level of the ankle
C: Fibular fracture above level of the ankle

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 DANIS-WEBER
— A=Supination-Adduction

B=Supination-External Rotation
=Pronation-Abduction

C=Pronation-External Rotation

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Pilon Fractures
— Ruedi/Allgower
— Stage I: No comminution or displacement of joint fragments
— Stage II: Some displacement but not comminution or impaction
— Stage III: Comminution and/or impaction of the joint surface
Growth Plate Injuries
initial
SH I
— Through hypertrophic zone
— No x-ray evidence, need high degree of suspicion
with pain with palpation directly over the physis
— Closed reduction with excellent prognosis
— NWB cast for 3 weeks, followed by WB cast for 3 weeks
SH II
— Partially splits through physis and then out
through metaphysis with a metphyseal
triangular shaped piece of bone (Thurston-
Holland sign)
— Periosteum on side of fragment remains intact,
facilitating closed reduction
— Prognosis excellent
— 75% of all physeal fractures
SH III
— Partially extends through physis and then through
epiphysis into the joint, disrupting joint surface
— ORIF
SH IV
— Runs obliquely through the metaphysis, through
the physis and epiphysis, and enters joint
— Thurston Holland sign also seen
— ORIF
SH V
— Compression or crush injuries that are difficult to
diagnose
— No fracture lines evident
— If growth disturbance occurs, treatment still
possible if child younger with remaining growth
potential
— Rang (1969) added
SH VI-result of
damage to periosteum
or perichondral ring
with resultant bony
bridge formation
external to growth plate
— SH VII (Ogden): damage to epiphysis and not to
physis
— SH VIII: damage to metaphysis and not to physis
— SH IX: injury to diaphyseal periosteum that may
result in disruption of normal diaphyseal growth
and remodelling
Calcaneal Fractures
CLASSIFICATIONS
— Extra-articular and Intra-articular
— Rowe: Extra-articular (does describe some intra-articular
fractures)
— Essex-Lopresti: Intra-articular
— Sanders: Intra-articular CT classification
 ROWE CLASSIFICATION
— I a - Fracture of the calcaneal tubercle
— I b - Fracture of the sustentaculum tali
— I c - Fracture of the anterior process
— II a - Beak fracture of the tuberosity
— II b - Avulsion fracture of the tuberosity
— III - Oblique body fracture not involving
the STJ
— IV - Body fracture involving the STJ
— V - Joint depression with comminution
ROWE I a
— Fall with the heel everted
or inverted
— Fracture of the medial or
lateral tubercle
— Lateral
— Treatment depends on
displacement and size of
the fragment
ROWE I b
— Fall with twisting on a
supinated foot
— Fracture of the
sustentaculum tali
— First stage in a joint
depression fracture
— ROM of FHL
— Calcaneal axial
— Treatment depends on
displacement
ROWE I c

— Supination and
plantarflexion
— Most common type I
— Fracture of anterior
process
— MO and lateral
— Treatment depends on
displacement
ROWE II a

— Direct trauma
— Fracture of the superior
portion of the tuberosity
— Lateral
— Spares achilles tendon
insertion
— Treatment depends on
displacement
ROWE II b
— Strong pull of achilles
tendon
— Avulsion fracture of
tuberosity
— Involves achilles tendon
insertion
— Lateral
— Treatment depends on
displacement, but favors
surgical
ROWE III
— Fall from height with
heel in varus or valgus
— Fracture of body without
STJ involvement
— Most common extra-
articular
— Treatment depends on
displacement
ROWE IV

— Fall from height with
foot plantarflexed
— Fracture of the body that
is intra-articular
— CT scan
— Treatment?
— Same as Essex-lopresti
tongue type fracture
ROWE V

— Fall from height with
foot dorsiflexed
— Intra-articular fracture
with joint depression and
comminution
— Same as Essex-Lopresti
joint depression fracture
— Treatment?
ESSEX-LOPRESTI TONGUE TYPE
FRACTURE
— Primary fracture line (shear fracture) which is intra-articular
separates the sustentaculum tali from the lateral body
— Secondary fracture line through the tuberosity
— Resembles avulsion fracture
 ESSEX-LOPRESTI JOINT DEPRESSION
TYPE FRACTURE
— Shear fracture divides the calcaneus into two parts -
sustentaculum fragment and tuberosity fragment
— Lateral portion of posterior facet is isolated and
impacted into the body
— Lateral wall blow-out
— Position of the foot may determine the type of
blow-out fracture
— Decrease in the height and width of calcaneus
 ESSEX-LOPRESTI JOINT DEPRESSION
TYPE FRACTURE
— Shear fracture divides the calcaneus into two parts -
sustentaculum fragment and tuberosity fragment
— Lateral portion of posterior facet is isolated and
impacted into the body
— Lateral wall blow-out
— Position of the foot may determine the type of
blow-out fracture
— Decrease in the height and width of calcaneus
 ESSEX-LOPRESTI JOINT DEPRESSION
TYPE FRACTURE
— Shear fracture divides the calcaneus into two parts -
sustentaculum fragment and tuberosity fragment
— Lateral portion of posterior facet is isolated and
impacted into the body
— Lateral wall blow-out
— Position of the foot may determine the type of
blow-out fracture
— Decrease in the height and width of calcaneus
SANDERS CLASSIFICATION
— CT classification - coronal and axial
— Section with widest part of posterior facet used
— The calcaneus can be divided into four parts by three fracture
lines
— Lines named A,B and C from lateral to medial
— Four types with subclassifications
SANDERS CLASSIFICATION
SANDERS TYPE I
— All nondisplaced intra-articular fractures are Type I,
irrespective of the number of fracture lines
SANDERS TYPE II
— Two part fractures of the posterior facet
— Type IIA, IIB and IIC based on primary fracture line
SANDERS IIA

— Two part fracture
— Primary fracture line is
lateral separating the
lateral column from the
central
SANDERS IIB

— Two part fracture
— Primary fracture line is
central separating the
central column from the
medial
SANDERS IIC

— Two part fracture
— Primary fracture line is
medial separating the
medial column from the
sustentaculum column
SANDERS III
— Three part fracture of posterior facet
— Features a centrally depressed fragment
— Type IIIAB, IIIAC and IIIBC based on two fracture lines
SANDERS IIIAB

— Three part fracture
— Two fracture lines
separate the posterior
facet into lateral, central
and medial columns
SANDERS IIIAC

— Three part fracture
— Two fracture lines
separate the posterior
facet into lateral column,
central/medial column
and sustentaculum
column
SANDERS IIIBC

— Three part fracture
— Two fracture lines
separate the posterior
facet into lateral/central
column, medial column
and sustentaculum
column
SANDERS IV
— Four part fracture
— Highly comminuted
— Usually more than four fragments
— Joint depression present
SANDERS IV

— Four part fracture
— Three fracture lines which
separate all of the
columns of the posterior
facet and sustentaculum
Talar Fractures
Sneppen Classification
— Based on anatomical location
— I – Transchondral dome
— II – Shear
— III – Posterior tubercle
— IV – Lateral process
— V – Crush
Hawkins Classification 1970
Talar Neck Fractures

— Of the many fracture classifications this one has value
— Excellent correlation with prognosis
— Predictive of AVN rate
— Widely accepted
 Hawkins 1

— Non displaced neck fracture
— AVN 0 – 13 %
 Hawkins 2

— Displaced neck
fracture
— Subtalar subluxation
— AVN 20 – 50 %
 Hawkins 3

— Subtalar and ankle joint
dislocated
— Talar body is tethered
around deltoid
ligament
— AVN 83 – 100 %
Hawkins 4
— Includes
talonavicular
subluxation
— Rare variant
— Complex talar neck
fractures which do
not fit classification
can be included
 Berndt & Harty Classification

— I – Small area of compression
— II – Partially detached OCD
— III – Fully detached OCD but remains in crater
— IV – Displaced
Berndt & Harty
Generalizations

— Medial – Posterior – Deeper

— Lateral – Anterior - Shallower
Navicular Fractures
Watson-Jones Classification
— I – Avulsion fracture of tuberosity
— II – Dorsal chip fracture
— III – Body fracture
— IV – Stress fracture
Tarsal-Metatarsal Fractures
Quenu and Kuss
Hardcastle
— Type A - Total incongruity of the TMT joint
— Type B1 - Partial incongruity affecting the first ray in relative
isolation (ie, partial medial incongruity)
— Type B2 - Partial incongruity in which the displacement
affects one or more of the lateral four metatarsals (ie, partial
lateral incongruity)
— Type C1 and C2 - A divergent pattern, with partial or total
displacement
Fifth Metatarsal Fractures
Stewart Classification
— Type 1 - fracture at the metaphyseal-diaphyseal junction. This
is the classic Jones fracture.
— Type 2 - intra-articular tuberosity fracture without
comminution.
— Type 3 - extra-articular tuberosity fracture.
— Type 4 - intra-articular, comminuted tuberosity fracture.
— Type 5 - fracture of the epiphysis.
 Jones / Stress Fractures
When to Operate

— Jones fractures in athletes*
— Stress fractures
— Torg type I – same as Jones
— Torg type II
— Inlay bone graft Based on pt’s
— Intramedullary screw
activity level
— Torg type III
— Inlay bone graft
— Intramedullary screw