Femur fracture
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Transcript of Femur fracture
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FEMUR FRACTUREBy : DR. SAEED AHMED
ASSITANT PROFESSOR PIMS ORTHO AND TRAUMA DEPARTEMENT
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CLASSIFICATION Femoral Head Fractures Femoral Neck Fractures Intertrochanteric Fractures Subtrochanteric Fractures Femoral Shaft Fractures Distal Femur Fractures
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BLOOD SUPPLY OF FEMUR HEAD Femoral head has 3 sources of arterial
supply extracapsular arterial ring
medial circumflex femoral artery (main supply to the head)from profunda femoris
lateral circumflex femoral arteryascending cervical branchesartery to the ligamentum teres
from the obturator artery or MCFA supplies perifoveal area
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FEMUR HEAD FRACTURE Associated with hip dislocations -- Anterior hip dislocation. -- Posterior hip dislocation.
location and size of the fracture fragment and degree of comminution depend on the position of the hip at the time of dislocation.
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MECHANISM Impaction, avulsion or shear forces involved
unrestrained passenger MVA (knee against dashboard)
falls from height sports injury industrial accidents
5-15% of posterior hip dislocations are associated with a femoral head fracture because of contact between femoral head and
posterior rim of acetabulum anterior hip dislocations usually associated
with impaction/indentation fractures of the femoral head
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CLASSIFICATION OF FEMUR HEAD FRACTURE
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Pipkin ClassificationType I Fx below fovea/ligamentum (small)
Does not involve the weightbearing portion of the femoral head
Type II Fx above fovea/ ligamentum (larger)Involves the weightbearing portion of the femoral head
Type III Type I or II with associated femoral neck fxHigh incidence of AVN
Type IV Type I or II with associated acetabular fx (usually posterior wall fracture)
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PRESENTATION History
frontal impact MVA with knee striking dashboard fall from height
Symptoms localized hip pain unable to bear weight other symptoms associated with impact
Physical exam inspection
shortened lower limb with large acetabular wall fractures, little to no rotational asymmetry is
seen posterior dislocation
limb is flexed, adducted, internally rotated anterior dislocation
limb is flexed, abducted, externally rotated neurovascular
may have signs of sciatic nerve injury
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IMAGING STUDIES Radiographs
recommended views AP pelvis, lateral hip and Judet views
both pre-reduction and post-reduction inlet and outlet views
if acetabular or pelvic ring injury suspected CT scan
indications after reduction to evaluate:
concentric reduction loose bodies in the joint acetabular fracture femoral head or neck fracture
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TREATMENT Nonoperative
hip reduction indications
acute dislocations reduce hip dislocation within 6 hours
technique obtain post reduction CT
TDWB x 4-6 weeks, restrict adduction and internal rotation indications
Pipkin I undisplaced Pipkin II with < 1mm step off no interposed fragments stable hip joint
technique perform serial radiographs to document maintained reduction
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Operative --ORIF
indications Pipkin II with > 1mm step off if performing removal of loose bodies in the joint associated neck or acetabular fx (Pipkin type III and IV) polytrauma irreducible fracture-dislocation Pipkin IV
treatment dictated by characteristics of acetabular fracture
small posterior wall fragments can be treated nonsurgically and suprafoveal fractures can then be treated through an anterior approach
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Arthroplasty
indicationsPipkin I, II (displaced), III, and
IV in older patients
Fractures that are significantly
displaced, osteoporotic or comminuted
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FEMORAL NECK FRACTURES
Mechanismhigh energy in young patients low energy falls in older patients
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Osteology normal neck shaft-angle 130 +/- 7 degrees normal anteversion 10 +/- 7 degrees
Blood supply to femoral head major contributor is medial femoral
circumflex (lateral epiphyseal artery) some contribution to anterior and inferior head
from lateral femoral circumflex some contribution from inferior gluteal artery small and insignificant supply from artery of
ligamentum teres displacement of femoral neck fracture will disrupt
the blood supply and cause an intracapsular hematoma (effect is controversial)
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GARDEN CLASSIFICATION
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GARDEN CLASSIFICATION
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PRESENTATION Symptoms
impacted and stress fractures slight pain in the groin or pain referred along the
medial side of the thigh and knee displaced fractures
pain in the entire hip region Physical exam
impacted and stress fractures no obvious clinical deformity minor discomfort with active or passive hip range of
motion, muscle spasms at extremes of motion pain with percussion over greater trochanter
displaced fractures leg in external rotation and abduction, with shortening
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Radiographs recommended views
obtain AP pelvis and cross-table lateral, and full length femur film of ipsilateral side
consider obtaining dedicated imaging of uninjured hip to use as template intraop
traction-internal rotation AP hip is best for defining fracture type
Garden classification is based on AP pelvis CT
helpful in determining displacement and degree of comminution in some patients
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Nonoperative observation alone
indicationsmay be considered in some
patients who are non-ambulators, have minimal pain, and who are at high risk for surgical intervention
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cannulated screw fixation indications
nondisplaced transcervical fxGarden I and II fracture patterns in the
physiologically elderlydisplaced transcervical fx in young patient
considered a surgical emergency achieve reduction to limit vascular insult reduction must be anatomic, so open if
necessary
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sliding hip screw or cephalomedullary nail indications
basicervical fracture vertical fracture pattern in a young patient
biomechanically superior to cannulated screws consider placement of additional cannulated screw above sliding
hip screw to prevent rotation hemiarthroplasty
indications debilitated elderly patients metabolic bone disease
total hip arthoplasty indications
older active patients patients with preexisting hip osteoarthritis
more predictable pain relief and better functional outcome than hemiarthroplasty
arthroplasty for Garden III and IV in patient < 85 years
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INTERTROCHANTERIC FRACTURES
Extracapsular fractures of the proximal
femur between the greater and lesser
trochanters.
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MECHANISM
elderly low energy falls in osteoporotic patients
younghigh energy trauma
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OSTEOLOGY intertrochanteric area exists between greater
and lesser trochanters made of dense trabecular bone calcar femorale
vertical wall of dense bone that extends from posteromedial aspect of femoral shaft to posterior portion of femoral neck
Determines stability
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CLINICAL PRESENTATION Physical Exampainful,
shortened, externally rotated lower extremity
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IMAGING Radiographs
recommended views AP pelvis AP of hip, cross table lateral full length femur radiographs
CT or MRIuseful if radiographs are negative but
physical exam consistent with fracture
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TREATMENT sliding hip compression screw
indications stable intertrochanteric fractures
outcomes equal outcomes when compared to intramedullary hip screws for
stable fracture patterns intramedullary hip screw (cephalomedullary
nail) indications
stable fracture patterns unstable fracture patterns reverse obliquity fractures
56% failure when treated with sliding hip screw subtrochanteric extension lack of integrity of femoral wall
associated with increased displacement and collapse when treated with sliding hip screw
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TREATMENT Arthroplasty indications
severely comminuted fracturespreexisting symptomatic degenerative
arthritisosteoporotic bone that is unlikely to hold
internal fixationsalvage for failed internal fixation
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SUBTROCHANTERIC FRACTURES
Subtrochanteric typically defined as area from lesser trochanter to 5cm distal fractures with an associated intertrochanteric component may be called intertrochanteric fracture with
subtrochanteric extensionperitrochanteric fracture
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CLINICAL PRESENTATION Symptoms
hip and thigh pain inability to bear weight
Physical exampain with motion typically associated with obvious deformity
(shortening and varus alignment)flexion of proximal fragment may threaten
overlying skin
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Radiographs views
AP and lateral of the hip AP pelvis full length femur films including the knee
additional views traction views may assist with defining fragments in
comminuted patterns but is not required findings
bisphosphonate-related fractures have lateral cortical thickening transverse fracture orientation medial spike lack of comminution
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TREATMENT Nonoperative
observation with pain management indications
non-ambulatory patients with medical co-morbidities that would not allow them to tolerate surgery
limited role due to strong muscular forces displacing fracture and inability to mobilize patients without surgical intervention
Operative intramedullary nailing (usually cephalomedullary)
indications historically Russel-Taylor type I fractures newer design of intramedullary nails has expanded indications most subtrochanteric fractures treated with IM nail
fixed angle plate indications
surgeon preference associated femoral neck fracture narrow medullary canal pre-existing femoral shaft deformity
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PROXIMAL FEMUR FRACTURE IN PAEDIATRICS
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ANATOMY OF FEMUR Growth centers of the proximal
femurproximal femoral epiphysis accounts for 13-15% of leg length accounts for 30% length of femur proximal femoral physis grows 3 mm/yr entire lower limb grows 23 mm/yr
trochanteric apophysis traction apophysis contributes to femoral neck growth disordered growth
injury to the GT apophysis leads to shortening of the GT and coxa valga
overgrowth of the GT apophysis leads to coxa vara
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TREAMENT
Nonoperative --spica cast in abduction, weekly radiographs for 3wks indications Type IA, II, III, IV, nondisplaced, <4yrs
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TREAMENT Operative emergent ORIF, capsulotomy, or joint
aspiration indications
open hip fracture vessel injury where large vessel repair is required concomitant hip dislocation or significant displacement, especially type I
may decrease the rate of AVN (supporting data equivocal) closed reduction internal fixation (CRIF)/ percutaneous
pinning (CRPP) indications
Type II, displaced postop spica (abduction and internal rotation) x 6-12wk
Type III and IV, displaced and older children open reduction and internal fixation (ORIF)
indications Type IB
pediatric hip screw / DHS indications
Type IV
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FEMORAL SHAFT FRACTURES Definition. femoral shaft fracture is defined as a
fracture of the diaphysis occurring between 5 cm distal to the lesser trochanter and 5 cm proximal to the adductor tubercle
High energy injuries frequently associated with life-threatening conditions
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MECHANISM OF SOF FRACTURE
Traumatichigh-energy
most common in younger population often a result of high-speed motor vehicle
accidents low-energy
more common in elderly often a result of a fall from standing gunshot
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OSTEOLOGY OF FEMUR DIAPHYSIS largest and strongest bone in the body femur has an anterior bow linea aspera
rough crest of bone running down middle third of posterior femur
attachment site for various muscles and fascia
acts as a compressive strut to accommodate anterior bow to femur
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Femur FractureClassification
AO/OTA Femur Diaphysis - Bone segment 32
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CLINICAL PRESENTATION Advanced Trauma Life Support (ATLS) should be initiated Symptoms
pain in thigh Physical exam
inspection tense, swollen thigh
blood loss in closed femoral shaft fractures is 1000-1500ml for closed tibial shaft fractures, 500-1000ml
blood loss in open fractures may be double that of closed fractures affected leg often shortened tenderness about thigh
motion examination for ipsilateral femoral neck fracture often difficult
secondary to pain from fracture neurovascular
must record and document distal neurovascular status
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IMAGING recommended views AP and lateral views of entire femur AP and lateral views of ipsilateral hip
important to rule-out coexisting femoral neck fracture
AP and lateral views of ipsilateral knee
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TREATMENT Nonoperative
long leg cast indications
nondisplaced femoral shaft fractures in patients with multiple medical comorbidities
Operative antegrade intramedullary nail with reamed technique
indications gold standard for treatment of diaphyseal femur fractures
outcomes stabilization within 24 hours is associated with
decreased pulmonary complications (ARDS) decreased thromboembolic events improved rehabilitation decreased length of stay and cost of hospitalization
exception is a patient with a closed head injury critical to avoid hypotension and hypoxemia consider provisional fixation (damage control)
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TREAMENT Retrograde intramedullary nail with
reamed technique indications
ipsilateral femoral neck fracture floating knee (ipsilateral tibial shaft fracture)
use same incision for tibial nail ipsilateral acetabular fracture
does not compromise surgical approach to acetabulum
multiple system traumabilateral femur fractures
avoids repositioningmorbid obesity
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ORIF with plate indications
ipsilateral neck fracture requiring screw fixation
fracture at distal metaphyseal-diaphyseal junction
inability to access medullary canal
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DISTAL FEMUR FRACTURES Defined as fxs from articular surface to
5cm above metaphyseal flare Mechanism
young patients high energy with significant displacement
older patients low energy in osteoporotic bone with less
displacement
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OSTEOLOGY anatomical axis of distal femur is 6-7
degrees of valgus lateral cortex of femur slopes ~10
degrees, medial cortex slopes ~25 degrees
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CLASSIFICATION OF DISTAL FEMUR Supracondylar
Intercondylar
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IMAGING Radiographs
obtain standard AP and Lat traction views
AP, Lat, and oblique traction views can help characterize injury CT
obtain with frontal and sagittal reconstructions useful for
establish intra-articular involvement identify separate osteochondral fragments in the area of the
intercondylar notch identify coronal plane fx (Hoffa fx)
38% incidence of Hoffa fx's in Type C fractures preoperative planning
Angiography indicated when diminished distal pulses after gross
alignment restored
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TREATMENT OF SUPRACONDYLAR FEMUR FRACTURE open reduction internal fixation indications
displaced fracture intra-articular fracture nonunion
goals need anatomic reduction of joint stable fixation of articular component to shaft preserve vascularity
technique (see below) postoperative
early ROM of knee important non-weight bearing or touch toe weight-bearing for 6-8
weeks quadriceps and hamstring strength exercises
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ORIF IN DISTAL FEMUR FRACTURE Blade Plate Fixation Dynamic Condylar Screw Placement Locked Plate Fixation
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DISTAL FEMUR PLATES
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DISTAL FEMUR PLATING
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• retrograde IM nail • indications
• good for supracondylar fx without significant comminution
• preferred implant in osteoporotic bone• distal femoral replacement
• indications• unreconstructable fracture• fracture around prior total knee arthroplasty with
loose component
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SHAFT OF FEMUR FRACTURE IN CHILDREN
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MECHANISM correlated with age due to the
increasing thickness of the cortical shaft during skeletal growth and maturity falls most common cause in toddlershigh energy trauma is responsible for
second peak in adolescents MVC or ped vs vehicle
fractures after minor trauma can be the result of a pathologic processbone tumors, OI, osteopenia, etc.
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CLASSIFICATION Descriptive classification
characteristics of the fracture transverse comminuted spiral etc.
integrity of soft-tissue envelope open closed fracture
Stability length stable fractures
are typically transverse or short oblique length unstable fractures
are spiral or comminuted fractures
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TREATMENT OF DIAPHYSIS FEMUR FRACTURE Based on age and size of patient and
fracture pattern Guidelines provided by AAOS
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DISTAL FEMORAL PHYSEAL FRACTURES Physeal considerations of the knee
general assumptions leg growth continues until
16 yrs in boys 14 yrs in girls
growth contribution leg grows 23 mm/year, with most of that
coming from the knee (15 mm/yr) proximal femur - 3 mm / yr (1/8 in) distal femur - 9 mm / yr (3/8 in) proximal tibia - 6 mm / yr (1/4 in) distal tibia - 5 mm / yr (3/16 in)
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CLINICAL PRESENTATION Symptoms
unable to bear weight Physical exam
pain and swelling tenderness along the physis in the presence
of a knee effusionmay see varus or valgus knee instability on
exam
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IMAGING MRI or ultrasound is now the diagnositic
modality of choice when confirmation of a physeal fracture is needed
follow up radiographs after 2-3 weeks of casting can be used as treatment if physeal injury is likely but not identifiable on injury films
stress radiographs to look for opening of the physis were indicated in the past if there was suspicion of physeal injury
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SALTER-HARRIS CLASSIFICATION
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TREATMENT OF DISTAL FEMUR FRACTURE Nonoperative
long leg casting indications
stable nondisplaced fractures close clinical followup is mandatory
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TREATMENT OF DISTAL FEMUR Operative
closed reduction and percutaneous pinning followed by casting indications
displaced Salter-Harris I or II fractures displaced fractures successfully reduced with closed
methods should still be pinned (undulating physis makes unstable following reduction)
technique avoid multiple attempts at reduction avoid physis with hardware if possible
if physis must be crossed (SH I and SH II with small Thurston-Holland fragments), use smooth k-wires
SH II fracture, if possible, should be fixed with lag screws across the metaphyseal segment avoiding the physis
postoperatively follow closely to monitor for deformity
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ORIF IN DSTAL FEMUR FRACTURE indications
Salter-Harris III and IV in order to anatomically reduce articular surface
irreducible SHI and SHII fractures reduction often blocked by periosteum infolding
into fracture site techniques
If anatomic reduction cannot be obtained via closed techniques, incision over the displaced physis to remove interposed periosteum is necessary.