26 Fracture Classification Review 2024.pdf

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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