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ed
i
Posterolateral Corner
O
rt
op
Anatomy, Physical Examination
and Imaging
ya
Uğur GÖNÇ, MD
Ç
an
ka
Çankaya Hospital
Dept. Orthopedics and Traumatology
ANKARA
op
ed
i
Lateral Anatomy of Knee
rt
• Complex anatomy
O
• Many variations
ka
ya
• Inconsistent terminology
Ç
an
DARK SIDE OF THE KNEE
op
ed
i
Philogenetical Evalution
• 360 million years ago
O
rt

ya
• Distal migration of fibula

Ç
an
ka
– Femoral capsular attachments
– Fibulofemoral meniscus
– Fibular attachments of popliteus 
tibio-femoral joint
fibulo-femoral joint
tibio-fibular joint


lateral collateral structure
intra-articular popliteus
tendon
popliteofibular ligament
op
• Popliteus muscle and tendon
rt
• Biceps femoris muscle
O
• Lateral gastrocnemius muscle
Ç
an
ka
ya
• Iliotibial band
ed
i
Dynamic Components
ed
i
Static Components
op
• Lateral collateral ligament
rt
• Fabellafibular ligament
O
• Arcuate ligament
ya
• Popliteofibular ligament
Ç
an
ka
• Posterolateral capsule
ed
i
Topographic Anatomy
op
Seebacher – 1982
rt
• Superficial layer
ya
ka
Ç
an
• Deep layer
O
• Middle layer
ed
i
Superficial Layer
op
• Iliotibial band
Ç
an
ka
ya
O
rt
• Biceps femoris
Ç
an
ka
ya
O
rt
op
ed
i
Superficial Layer
Iliotibial band
Biceps femoris
Peroneal nerve
Gerdy tubercule
Ç
an
ka
ya
O
rt
op
ed
i
Superficial Layer
Lateral fibular head
Ç
an
ka
ya
O
rt
op
ed
i
Superficial Layer
Quadriceps
op
• Quadriceps retinaculum
ed
i
Middle Layer
• Patellofemoral ligaments
O
rt
– Proximal
– Distal
Ç
an
ka
ya
• Patellomeniscal ligament
Patella
ed
i
Deep Layer
Ç
an
O
ya
ka
• Fabellofibular lig.
• Arcuate lig.
• Lateral capsule
rt
– Popliteus tendon
– Popliteal hiatus
– Popliteofibular lig.
op
• Lateral collateral lig.
• Popliteal complex
– Coronary lig.
– Midlateral capsular lig.
ed
i
Lateral Collateral Lig.
• Lateral epicondyle
rt
O
• Lateral fibular head
ka
 0.5-1 cm width
ya
– 8 mm posterior to ant. border
•  6-7 cm length
Ç
an
• Prox-ant  distal-post
op
– 1.4 mm prox., 3.1 mm post.
Ç
an
ka
ya
O
rt
op
ed
i
Lateral Collateral Lig.
Biseps tendon
ed
i
Popliteus Complex
Lateral gastrocnemius
op
• Dynamic component
Ç
an
ka
ya
– Popliteomeniskal fascicle
– Popliteofibular lig.
O
• Static component
rt
– Popliteus muscle
– Popliteus tendon
Popliteofibular
lig.
Lateral collateral
lig.
op
• 450 at coronal and sagittal plane
ed
i
Popliteus Tendon
rt
• Popliteus muscle  tibia post.
O
• LFC  ant. 1/5 of popliteal sulcus
Ç
an
ka
ya
• Popliteal hiatus  intraarticular
op
ed
i
Popliteus Tendon
ya
O
rt
LKL
ka
Popliteus
tendon
Ç
an
Popliteus
muscle
LKL
Popliteus
tendon
op
ed
i
Popliteus Tendon
rt
• Wider insertion
O
• Anterior and distal to LKL Lateral
ya
epicondyle
Popliteal sulcus
Popliteus tendon
Ç
an
ka
• 18.5 mm distance
LKL
LaPrade RF, Am J Sports Med, 2003
op
ed
i
Popliteus Tendon
ya
O
rt
Popliteus tendon
Ç
an
ka
Lateral collateral lig.
Ç
an
ka
ya
O
rt
op
ed
i
Popliteus Tendon
ed
i
Popliteal Hiatus
op
• Posterior border
– Posterosuperior popliteomeniscal fascicle
O
rt
• Anterior border
– Anteroinferior popliteomeniscal fascicle
Ç
an
ka
ya
• Stabilization of lat. meniscus
PSPF
AİPF
Ç
an
ka
ya
O
rt
op
ed
i
Popliteal Hiatus
ed
i
Popliteofibular Lig.
op
• Present in 95-100 %
 7 mm width
ka
O
•  1.5 cm length
ya
• Medial fibular head
rt
• Popliteus muscle-tendon junction
Ç
an
• Anterior and posterior divisions
– Inverted Y shape
Ç
an
ka
LKL
O
ya
Popliteomeniscal
fascicle
rt
op
ed
i
Popliteofibular Lig
Popliteus
tendon
PFL
ed
i
Fabellofibular Lig.
op
• “Short lateral ligament”
O
• In absence of fabella
Ç
an
ka
ya
– Posterior supracondylar process
– Lateral gastrocnemius fibers
• Present in 40 %
PT
rt
• Fabella – posterolateral styloid
LKL
FFL
ed
i
Arcuate Lig.
– Lateral styloid  post. capsule
rt
• Medial limb
op
• Lateral limb
Ç
an
ka
• Present in 70 %
ya
O
– Lateral styloid  oblique popliteal lig.
Arcuate lig.
ed
i
Variations
 FFL
• Cartilage fabella
 FFL + AL
O
rt
op
• Bony fabella
ya
• Absence of fabella  AL
Ç
an
ka
Seebacher JR, JBJS Am, 1982
ed
i
Joint Capsule
op
• Superficial layer
Ç
an
Fabellofibular l.
Biseps
tendon
ya
ka
Popliteal hiatus
Arcuate lig.
Popliteofibular lig.
Coronary lig.
O
• Deep layer
–
–
–
–
Lat. Col. l.
rt
– Lateral collateral lig.
– Fabellafibular lig.
Popliteus
tendon
Coronary l.
Popliteus
muscle Arcuate l.
Peroneal n.
L.I.G.
artery
ed
i
Joint Capsule
op
• Midlateral capsular lig.
rt
– Lateral capsule
O
• Coronary lig.
ya
– Posterior capsule
ka
• Stabilization of meniscus
Ç
an
– Meniscotibial component
ed
i
PLC Biomechanics
op
• Main structures
ka
Fabellafibular lig.
Arcuate lig.
Iliotibial band
Biceps femoris
Lateral gastrocnemius
Ç
an
–
–
–
–
–
O
ya
• Secondary structures
rt
– Lateral collateral lig.
– Popliteus tendon
– Popliteofibular lig.
op
Strength
ed
i
Biomechanics
Stiffness
295 N
PFL
298 N
28.6 N/m
700 N
83.7 N/m
33.5 N/m
Ç
an
Popliteus
ka
ya
O
rt
LKL
LaPrade RF, Am J Sports Med, 2005
ed
i
Biomechanics
ka
ya
• Posterior translation
Primary restraint
rt
O
• Varus (LKL)
• External rotation (popliteus)
op
Posterolateral structures
Secondary restraint
Posterior Cruciate lig.
Ç
an
• Varus-external rotation
(at 900 flexion)
Secondary restraint
op
ed
i
LKL Biomechanics

primary varus restraint
• 00 - 300

ex. rotation restraint
Ç
an
ka
ya
O
rt
• 00 - 300
ed
i
PT Biomechanics
op
• Dynamic restraint
• 200 - 1300 
O
rt
ex. rotation restraint
(more prominent at 600 flexion)
• Full ext.

varus restraint
ka

post. translation restraint
Ç
an
• 00 - 900
ya
LaPrade RF, Am J Sports Med, 2004
op
ed
i
PFL Biomechanics
O
rt
• Isometric ligament
Ç
an
ka
ya
• In all flex. degrees  ex. rotation restraint
• Post. translaslayon

primary restraint
• Varus

op
ed
i
PCL Biomechanics
O
rt
– In LKL insufficiency
secondary restraint
• Ex. rotation

Ç
an
ka
ya
– In PLC insufficiency
– At 900 flexion
secondary restraint
ed
i
PLC Injury
op
• Increased pressure at medial and patellofemoral compart.
O
rt
• Increased loading of PCL at external rotation
Ç
an
ka
ya
• Increased loading of ACL at internal rotation


Ç
an
• LKL + PLC + ACL
300 flexion  varus
300 flexion  ext.rot.



 varus
900 flexion  ext.rot.
 posterior translation


 anterior translation
 internal rotation
ya
ka
• LKL + PLC + PCL
op
• LKL + PLC
300 flexion 1-40 varus
rt

O
• LKL isolated
ed
i
Functional Biomechanics
op
• Hyperextention – varus loading
O
rt
– Direct blow to ant-med tibia
– Rotational trauma
• Varus loading at flexion
ya
• High energy injury !!
ka
• Isolated PLC injury  16 %
Ç
an
– Cruciate ligament injury
– Reduced knee dislocation
ed
i
PLC Injury
ed
i
Physical Examination
op
Acute period
O
• Posterolateral echymosis
rt
• Posterolateral tenderness
ya
• Effusion  intraarticular
Ç
an
ka
pathology
Ç
an
ya
ka
op
rt
O
ed
i
Soft Tissues
ed
i
Vascular Injury
op
• Incidence 4 - 35 %
rt
• Angiography
Ç
an
ka
ya
O
• Ater 6 hours  68 % amputation
ed
i
Peroneal Nerve Injury
op
• Incidence 4 - 50 %
ya
possible
O
• Recovery is not always
rt
• Sensory / complete motor loss
Ç
an
ka
Cush G, Sports Med Arthrosc. 2011
ed
i
Associated Injuries
op
• ACL and PCL
rt
• Patellar tendon
Ç
an
ya
ka
– Varus
– External rotation
– Cruciate ligaments
O
• Examination under anesthesia
ed
i
Chronic Period
op
• Joint motion
• Limb alignment
O
rt
– Varus
• Gait
Ç
an
ka
ya
– Hyperextension-varus thrust
– Gait in flexion
ed
i
Rotational Instability
op
• Posterolateral rotational instability
rt
– PLC + PCL
O
• Anterolateral rotational instability
Ç
an
ka
ya
– PLC + ACL
ed
i
PLRI
op
•  varus
Ç
an
ka
O
ya
•  posterior translation
rt
•  external rotation
ed
i
Varus Stress Test
• 300 flexion
rt
op
– Isolated LKL  1-40 varus
– PLC / PCL  Varus 
O
• 00 flexion
Ç
an
ka
ya
– PCL injury !!
“Dial” Test
ed
i
(posterolateral rotation test)
op
• 300 flexion
– PLC injury
rt
• 900 flexion
Ç
an
ka
ya
• 100 difference
O
– PLC + PCL injury
Ç
an
ya
ka
op
rt
O
ed
i
“Dial” Test
ed
i
External Rotation
Recurvatum Test
op
• PLC + PCL
Ç
an
ka
O
– Hyperextention
– External rotation
– Varus
ya
subluxation of tibia
rt
• Posterior and lateral
Ç
an
ka
ya
O
rt
op
ed
i
External Rotation
Recurvatum Test
ed
i
Posterolateral Drawer
Test
rt
op
• PLC + PCL
Ç
an
ya
ka
• 150 ankle ext. rot.
O
• 900 knee flexion
Ç
an
ka
ya
O
rt
op
ed
i
Apprehension Test
ed
i
Associated Injuries
• ACL
Ç
an
ka
– Anterior drawer
– Pivot “shift” test
ya
rt
– Reverse pivot “shift” test
O
– Posterior drawer
(increases with PLC injury)
op
• PCL
Ç
an
ka
ya
O
rt
op
ed
i
Arthroscopic Examination
ed
i
Direct Radiography
op
• Knee dislocation
O
Fibular head
Segond fracture
Femoral side
Gerdy tubercule
ya
–
–
–
–
rt
• Avulsion fractures
Ç
an
ka
• Tibia plateau fractures
op
rt
• “Arcuate sign”
• Pathognomonic for PLC
• PFL avulsion
ed
i
Fibular Head
ya
O
– Fibular styloid
– Small fragment
– Displaced medially and superiorly
ka
• LKB ve biceps avulsion
Ç
an
– Fibular head
– Bigger fragment
– More displacement
ed
i
Segond Fracture
op
• Lateral Segond fracture
Ç
an
ka
– PCL injury
– PCL + PLC injury
O
ya
• Medial Segond fracture
rt
– Midlateral capsular lig.
– ACL injury
– PLC injury
Ç
an
ya
ka
op
rt
O
ed
i
Femoral Side
op
ed
i
Stress Radiographs
O
rt
• Evaluation of LKL
ya
•  4 mm difference  PLC injury
Ç
an
ka
LaPrade RF, JBJS Am, 2008
ed
i
Standing Hip-to-ankle
Radiographs
rt
– Varus-recurvatum
– Varus  reconstruction failure
op
• Chronic PLC injury
O
• HTO first !!
ya
• Open wedge HTOincreases varus and
ka
ext. rotation stability
Ç
an
LaPrade, Am J Sports Med, 2008
op
• Essential for treatment planning
ed
i
Magnetic Resonance
• All PLC structures
O
rt
– PFL  visible in 50-60 %
• Associated injuries
ka
ya
– Cruciate ligaments
– Meniscus, cartilage injury
– Occult fractures
Ç
an
• Thin cut coronal oblque series !!
Yu JS, Radiology, 1996
LaPrade RF, Am J Sports Med, 2000
Ç
an
ka
ya
O
rt
op
ed
i
LKL
normal
Grade III
Ç
an
ka
ya
O
rt
op
ed
i
Popliteus Tendon
Ç
an
ya
ka
op
rt
O
ed
i
PFL
Ç
an
ka
ya
O
rt
op
ed
i
Occult Fractures
ed
i
Posterolateral Corner
op
• Complex anatomy
O
– Varus-ext.rotation deformity
rt
• Part of multiple ligament injuries
ya
• Other reconstructions fail unless PLK is treated
Ç
an
– PLC / PCL
– “Dial” test
ka
• Physical examination
• MR is essential for treatment planning
– All PLC structures can be evaluated