Management of Hip Dislocations
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![Page 1: Management of Hip Dislocations](https://reader036.fdocuments.in/reader036/viewer/2022062312/554b5dfeb4c9051b458b4f25/html5/thumbnails/1.jpg)
Management of Hip Dislocations
Dr. Ahmed ashour
Team 4
Khoula hosp.
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Introduction
Hip dislocations caused by significant force:– Association with other fractures
– Damage to vascular supply to femoral head
Thus, high chance of complications
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Anatomy
Ball and socket typical synovial joint.• Femoral head: slightly asymmetric, forms 2/3 sphere.• Acetabulum: inverted “U” shaped articular surface.• Ligamentum teres, with artery to femoral head, passes through
middle of inverted “U”.
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Joint Contact Area
Throughout ROM:• 40% of femoral head is in contact with
acetabulum.• 10% of femoral head is in contact with
labrum.
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Acetabular Labrum
Strong fibrous ring
Increases femoral head coverage
Contributes to hip joint stability
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Hip Joint Capsule
• Extends from intertrochanteric ridge of proximal femur to bony perimeter of acetabulum
• Has several thick bands of fibrous tissue (3 lig) ===Iliofemoral ligament
• Upside-down “Y”
• Blocks hip hyper-extension
• Allows muscle relaxation while standing
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The ligaments of hip joint
• The primary capsular fibers run longitudinally and are supplemented by much stronger ligamentous condensations that run in a circular and spiral fashion.
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Blood Supply to Femoral Head(3 sources)
2. Ascending Cervical Branches• Arise from ring at base of neck.
• Ring is formed by branches of medial and lateral circumflex femoral arteries.
• Penetrate capsule near its femoral attachment and ascend along neck.
• Perforate bone just distal to articular cartilage.
• Highly susceptible to injury with hip dislocation.
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Sciatic Nerve
• Composed from roots of L4 to S3.
• Peroneal and tibial components differentiate early, sometimes as proximal as in pelvis.
• Passes posterior to posterior wall of acetabulum.
• Generally passes inferior to piriformis muscle, but occasionally the piriformis may split the peroneal and tibial components
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Hip Dislocation: Mechanism of Injury
• Almost always due to high-energy trauma.• Most commonly involve unrestrained occupants
in RTAs.• Can also occur in pedestrian-RTAs, falls from
heights, industrial accidents and sporting injuries.
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Classification
Multiple systems exist:
• Thompson and epstein• Stewart and milford• AO/OTA Classification
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Thomas and Epstein Classificationof Hip Dislocations
Most well-known
Type I Pure dislocation with at most a small posterior wall fragment.
Type II Dislocation with large posterior wall fragment.
Type III Dislocation with comminuted posterior wall.
Type IV Dislocation with “acetabular floor” fracture (probably transverse + post. wall
acetabulum fracture-dislocation).
Type V Dislocation with femoral head fracture.
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Limb position ? according to types
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Posterior Dislocation
• Generally results from axial load applied to femur, while hip is flexed.
• Most commonly caused by impact of dashboard on knee.
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Types of Posterior Dislocation
• Postero-superior (iliac)
• Posterior
• ischial
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Mechanism of Anterior
Dislocation
• Extreme abduction with external rotation of hip.
• Anterior hip capsule is torn or avulsed.
• Femoral head is levered out anteriorly.
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Types of anterior dislocation
• Pubic
• Obturator
• Perineal
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Effect of Dislocation on Femoral Head Circulation
• When capsule tears, ascending cervical branches are torn or stretched.
• Artery of ligamentum teres is torn.• Some ascending cervical branches may remain
kinked or compressed until the hip is reduced.Thus, early reduction of the dislocated hip can
improve blood flow to femoral head.
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Associated Injuries
Mechanism: knee vs. dashboard injury
– Contusions or fractures of distal femur– Patella fractures, knee injuries– Foot fractures, if knee extended
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Cont……
Other associated injuries are common:
• Head, neck and facial injuries• Chest injuries• Intra-abdominal injuries• Lower extremity fractures and dislocations
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Cont…
• Sciatic nerve injuries occur in 10% of hip dislocations.
*Most commonly, these resolve with reduction of hip and passage of time.
* Stretching or contusion most common.
*Piercing or transection of nerve by bone can occur.
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Management
History and Evaluation :
• Significant trauma, usually RTA.
• Awake, alert patients have severe pain in hip region.
Always follow ATLS guidelines……ABCDE
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Physical Examination: Classical Appearance
Posterior Dislocation: Hip flexed, internally rotated, adducted.
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Physical Examination: Classical Appearance
Anterior Dislocation: Extreme external rotation, less-pronounced abduction and flexion.
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Irregular presentation/appearance if:
• femoral head or neck are fractured
• femoral shaft fracture
• obtunded patient, confused, shocked ……
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Physical Examination
• Pain to palpation of hip.
• Pain with attempted motion of hip.
• Possible neurological impairment:
So,…
Thorough exam., is essential pre reduction!
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Radiographs: AP Pelvis X-Ray
• In primary survey as per ATLS Protocol.
• Should allow diagnosis and show direction of dislocation.
– Femoral head not centered in acetabulum (loss of parallelism)
– Femoral head appears larger (anterior) or smaller (posterior).
• Usually provides enough information to proceed with closed reduction.
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Reasons to Obtain More X-Rays Before Hip Reduction
• View of femoral neck inadequate to rule out fracture.
• Patient requires CT scan of abdomen/pelvis to rule out associated injuries.
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X-rays after Hip Reduction:
• AP pelvis, Lateral Hip x-ray.
• Judet views of pelvis.
• CT scan with 2-3 mm cuts.
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CT Scan
Most helpful after hip reduction.
Reveals:Non-displaced fractures.
Congruity of reduction.
Intra-articular fragments.
Size of bony fragments.
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MRI Scan
• Will reveal labral tear and soft-tissue anatomy.• Has not been shown to be of benefit in acute
evaluation and treatment of hip dislocations.
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Clinical Management: Emergent Treatment
• Dislocated hip is an emergency.
• The goal is to reduce risk of AVN and Degenerative joint disease.
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Benefits of early Reduction
• Allows restoration of flow through occluded or compressed vessels.
• Literature supports decreased AVN with earlier reduction.
• Requires proper anesthesia.• Requires “team” (i.e. more than one person).
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Patterns Treated Non operatively
• No associated fracture and congruent reduction
• Posterior wall fracture that is clinically stable with congruent reduction
• Pipkin type I fracture with congruent reduction.
• Pipkin type II fracture with anatomic reduction and congruent joint
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Anesthesia
• General anesthesia with muscle
relaxation facilitates reduction, but is
not necessary, but……• Conscious sedation is acceptable.
• Attempts at reduction with inadequate analgesia/ sedation will cause unnecessary pain, muscle spasm and make subsequent attempts at reduction more difficult.
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Reduction Maneuvers
Allis: Patient supine.
Requires at least two people.
Stimson: Patient prone, hip flexed and leg off stretcher.
Requires one person.
Impractical in trauma (i.e. most patients).
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Allis Maneuver
• Assistant: Stabilizes pelvis• Posterior-directed force on both ASIS’s
• Surgeon: Stands on stretcher• Gently flexes hip to 900
• Applies progressively increasing traction to the extremity
• Applies adduction with internal/external rotation
• Reduction can often be seen and felt
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Reduction of posterior dislocation
Bigelow maneuver
East Baltimore lift technique
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How to know reduced Hip ?
• The limb moves more freely
• Patient more comfortable
But……..
• Requires testing of stability
• Simply flexing hip to 900 does not sufficiently test stability
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Stability Test
1. Hip flexed to 90o
2. If hip remains stable, apply internal rotation, adduction and posterior force ??.
3. The amount of flexion, adduction and internal rotation that is necessary to cause hip dislocation should be documented.
Caution!: Large posterior wall fractures may make appreciation of dislocation difficult.
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Nonoperative Treatment
• If hip stable after reduction, and reduction congruent.• Maintain patient comfort skin traction , analgesia• Avoid Adduction, Internal Rotation.• No flexion > 60o.• Early mobilization usually few days to 2 weeks.• Touch down weight-bearing may be delayed• Repeat x-rays before allowing full weight-bearing.
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Irreducible Hip ?
• Requires emergent reduction in theatre.• Pre-op CT obtained if it will not cause delay.• One more attempt at closed reduction in O.T. with
anesthesia.
( Repeated efforts not likely to be successful and may create harm to the neurovascular structures or the articular cartilage.)
Surgical approach from side of dislocation.
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Causes of Irreducible dislocation
• Anterior:
Buttonholing through the capsule Rectus femoris Capsule Labrum Psoas tendon
• Posterior:
Piriformis tendon Gluteus maximus Capsule, Ligamentum teres Posterior wall, Bony fragment Iliofemoral ligament Labrum
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Indications for open Reduction
• Irreducible dislocation
• Iatrogenic sciatic nerve injury
• Incongruent reduction with incarcerated fragments
• Incongruent reduction with soft tissue interposition
• Incongruent reduction with Pipkin type I femoral head fracture (relative)
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Irreducible anterior hip dislocation
• Smith-Peterson approach ,Watson-Jones approach, Extended iliofemoral, ilioinguinal approach.
• Allows visualization and retraction of interposed tissue.
• Placement of Schanz pin in intertrochanteric region of femur will assist in manipulation of the proximal femur.
• Repair capsule, if this can be accomplished without further dissection.
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• Kocher-Langenbeck approach.
• Remove interposed tissue, or release buttonhole.
• Repair posterior wall of acetabulum if fractured and amenable to fixation.
Irreducible Hip Dislocation: Posterior
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1. Irreducible Posterior Dislocation with Large Femoral Head Fracture
Fortunately, these are rare.
Difficult to fix femoral head fracture from posterior approach without transecting ligamentum teres.
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Three Options
1.Detach femoral head from ligamentum teresrepair femoral head fracture with hip dislocatedreduce hip.
2.Close posterior wound, fix femoral head fracture from anterior approach (either now or later).
3.Ganz trochanteric flip osteotomy.
Best option is not known: Damage to blood supply from anterior capsulotomy vs. damage to blood supply from transecting ligamentum teres. Mm
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2. Hip Dislocation with Femoral Neck Fracture
• Attempts at closed reduction potentiate chance of fracture displacement with consequent increased risk of AVN.
• If femoral head is dislocated with neck fracture, then the ability to reduce the head by closed means is markedly compromised.
Thus, closed reduction should not be attempted.
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Cont…..
• Usually the dislocation is posterior.• If fracture is non-displaced, stabilize
fracture with parallel lag screws first.
• If fracture is displaced, open reduction of femoral head into acetabulum, reduction of femoral neck fracture, and stabilization of femoral neck fracture.
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3. Incarcerated Fragment
• Can be detected on x-ray or CT scan.
• Surgical removal necessary to prevent abrasive wear of the articular cartilage.
• Posterior approach allows best visualization of acetabulum (with distraction or intra-op dislocation).
• Anterior approach only if:
dislocation was anterior and,
fragment is readily accessible anteriorly.
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4. Incongruent Reduction
• Acetabulum Fracture (weight-bearing portion).• Femoral Head Fracture (any portion).• Interposed tissue.• Achieve congruence by removing interposed tissue and/or reducing and stabilizing fracture.
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5. Unstable Hip after Reduction
• Due to posterior wall and/or femoral head fracture.• Requires reduction and stabilization fracture.
• Labral detachment or tear– Highly uncommon cause of instability.– Its presence in the unstable hip would justify surgical repair.– MRI may be helpful in establishing diagnosis.
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Results of Treatment
• Pain : normal to severe pain and degeneration.• In general, dislocations with associated femoral head or
acetabulum fractures fare worse.• Dislocations with fractures of both the femoral head and the
acetabulum have a strong association with poor results.• Irreducible hip dislocations have a strong association with poor
results.– 13/23 (61%) poor and 3/23 (13%) fair results.
McKee, Garay, Schemitsch, Kreder, Stephen. Irreducible fracture-dislocation of the hip: a severe injury with a poor prognosis. J Orthop Trauma. 1998.
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Complications of Hip Dislocation
1- Avascular Necrosis (AVN): 1-40%
– Several authors have shown a positive correlation between duration of dislocation and rate of AVN.
– Results are best if hip reduced within six hours.
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2- Post-traumatic Osteoarthritis
• Can occur with or without AVN.• May be unavoidable in cases with severe
cartilaginous injury.• Incidence increases with associated femoral head or
acetabulum fractures.
• Efforts to minimize osteoarthritis are best directed at achieving anatomic reduction of injury and preventing abrasive wear between articular carrtilage and sharp bone edges.
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3- Recurrent Dislocation
• Rare, unless an underlying bony instability has not been surgically corrected (e.g. excision of large posterior wall fragment instead of ORIF).
• Some cases involve pure dislocation with inadequate soft-tissue healing – may benefit from surgical imbrication .
• Can occur from detached labrum, which would benefit from repair (rare).
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Recurrent Dislocation Caused by Defect in Posterior Wall and/or Femoral Head
• Can occur after excision of fractured fragment.• Pelvic or intertrochanteric osteotomy could alter the
alignment of the hip to improve stability.• Bony block could also provide stability.
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4- Delayed Diagnosis of Hip Dislocation
• Increased incidence in multiple trauma patients.
• Higher if patient has altered sensorium.
• Results in more difficult closed reduction, higher incidence of AVN.
In NO Case should a hip dislocation be treated without reduction.
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5- Sciatic Nerve Injury
Occurs in up to 20% of patients with hip dislocation.
Nerve stretched, compressed or transected.
With reduction: 40% complete resolution
25-35% partial resolution
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Sciatic Nerve Palsy:If No Improvement after 3–4 Weeks
• EMG and Nerve Conduction Studies for baseline information and for prognosis.
Allows localization of injury in the event that surgery is required.
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6- Foot Drop
Splinting (i.e. ankle-foot-orthosis):
• Improves gait• Prevents contracture
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7- Infection
Incidence 1-5%
Lowest with prophylactic antibiotics and limited surgical approaches
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8- Iatrogenic Sciatic Nerve Injury
Most common with posterior approach to hip.
Results from prolonged retraction on nerve.
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Iatrogenic Sciatic Nerve Injury
Prevention:Maintain hip in full extension
Maintain knee in flexion
Avoid retractors in greater sciatic notch
? Intra-operative nerve monitoring (SSEP, motor monitoring)
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10- Thromboembolism
• Hip dislocation = high risk patient.• Prophylactic treatment with:
low molecular weight heparin• Early postoperative mobilization.
• Discontinue prophylaxis after 2-6 weeks (if patient mobile).
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11. Heterotrophic ossification
• Higher incidence after open reduction with internal fixation via an anterior approach than a posterior approach
• The use of indomethacin may diminish the rate of clinically significant heterotrophic ossification.
• The other choice is to use radiation therapy, usually 700 Gy in one dose. This method is very effective in decreasing the rate of heterotopic ossification, but is not favored in young patients
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Conclusion
• It is highly stable joint that needs high energy trauma to dislocate,(so, don't miss associated injuries)
• Early reduction of the dislocated hip (within 6 hrs) can improve blood flow to femoral head.
• Up to 5 views of xrays/C-T may be needed for proper evaluation( pre and post reduction)
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Cont…..
• Minimize closed trials to avoid the risk of vascular damage and AVN
• Surgical approaches according to the direction of dislocation
• Surgeon experience is highly considered for treatment (as revision surgeies caries a high risk of complications)
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Thank you