Complex Elbow Instability

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Definition

  • Condition resulting from injury & resultant loss of function due to damage to the articular surface & ligamentous structures that stabilise the elbow
  • May present as subluxation or incongruity with malalignment

Aetiology

Epidemiology

Anatomy

Contributions to Normal Stability

Static constraints

  • Primary
    • Ulnohumeral articulation
    • Medial collateral ligament
    • Lateral collateral ligament
  • Secondary
    • Radial head
    • Common flexor tendon
    • Common extensor tendon
    • Capsule

Dynamic constraints

  • Muscles
    • that cross the elbow – providing compression
    • Especially
      • Triceps
      • Anconeus
      • Brachialis
  • articular surfaces provide 50% of static stability & the ligaments/ capsule another 50%
  • Articular Elements
    • Proximal part of the Ulnar
      • Major determinant of elbow stability is Ulnohumeral joint
      • Linear relationship between the amount of proximal ulna & stability with at least 30% of the articulation required (attachment of collaterals here)
    • Coronoid
      • At least 50% of the coronoid should be present for the ulnohumeral joint to be functional
    • Radial Head
      • Intimately related to the collateral ligaments
      • Role as secondary stabiliser in preventing valgus instability
        • Resistance to valgus stress is minimum when the MCL intact
        • However does prevent subluxation of joint if MCL deficient
      • Also secondary stabiliser to posterolateral instability of elbow
  • Ligamentous Contributions
    • The collaterals are aided by the anterior capsule in preventing varus-valgus stress in full extension
    • LCL
      • The primary stabiliser is the ulnar part of the LCL (O’Driscoll)

Pathology

Disruption of circle of soft tissue or bone (Horii circle)

  • begins on the lateral side of the elbow & progresses to the medial side in three stages
    • Stage 1 (PLRI)
      • Lateral collateral ligament is partially or completely disrupted
        • specifically the ulnar lateral collateral ligament that lies from ulna to lateral epicondyle posterior to the radial head
        • Results in posterolateral rotatory subluxation of the elbow which can reduce spontaneously (see below)
    • Stage 2 (perched ulna)
      • Additional disruption anterior & posterior
      • Incomplete posterolateral dislocation with subluxation/ dislocation of radial head & the medial edge of ulna resting on the trochlear (AP film) & coranoid perched on the trochlear (lateral film)
      • Dislocation reduced with minimal force
    • Stage 3 (dislocated)
      • Elbow dislocates & coranoid lies posterior to trochlear
    • 3A
      • All soft tissue sleeve including posterior part of medial collateral ligament disrupted (anterior medial collateral ligament intact)
      • Elbow pivots on intact AMCL
      • Reduction performed by recreating deformity with supination & valgus stress, followed by application of traction, varus stress, & pronation simultaneously
      • AMCL provides stability if forearm remains pronated
    • 3B
      • Entire MCL (including AMCL) disrupted
      • Varus, valgus & rotatory instability all present following reduction
      • Immobilise in cast 90 flexion
    • 3C
      • Soft tissues stripped off entire distal humerus (including the flexor-pronator & common extensor origins)
      • Grossly unstable even in flexion (need to flex > 90)

Classification

Terrible Triad injury

  • Elbow dislocation
  • Fracture radial head
  • Fracture coranoid process

History

Examination

  • Assess instability by putting elbow through gentle ROM
    • 1.If elbow appears to subluxate or dislocate, a splint is applied AP & lateral XRs show reduction splint or sling re-evaluate at 5-7 days
    • 2.If elbow subluxates or dislocates with extension or XRs show incongruence of joint surfaces pronate forearm & reassess stability if stable then hinged brace or cast brace in full pronation (extension block of 30 sometimes necessary)
    • 3.If extension block of > 30-45 needed to maintain reduction then consider surgical repair
  • Stress radiographs should be taken
  • Sometimes need to evaluate instability in OT under GA
    • Best with arm in overhead position
    • Test for valgus, varus & posterolateral rotatory instability
    • (Valgus stress test in full pronation so not confuse with PLRI)
  • Test in full extension then 30 flexion
  • Lateral pivot shift
    • Arm overhead & extended
    • Supinate & valgus stress then flex causing maximum posterolateral subluxation at ~ 40 flexion (patient apprehensive)
    • Clunk of reduction with further flexion

Investigations

Differential Diagnosis

Treatment

Posterolateral Rotatory Instability

  • Pathology
    • Follows injury to the ulnar part of the LCL (varus extension stress)
    • Allows transient rotatory subluxation of the ulnohumeral joint & secondary subluxation or dislocation of the radiohumeral joint
    • Annular ligament intact thus the proximal radius & ulnar move as one
  • Clinical features
    • Recurrent painful clicking/ snapping/ clunking or locking of elbow
    • Occurs in extension 1/2 of arc with elbow in supination
    • Trauma or surgery history usually present
    • Radial head excision or Tennis elbow surgery often mentioned
  • Lateral Pivot Shift Test (O‘Driscoll)
    • Flexion of the elbow from extended position & supination of the forearm with valgus & axial load
    • In posterolateral instability the radial head subluxes or dislocates posteriorly with rotatory subluxation of the ulnohumeral joint & palpably reduces at or just beyond 40 of flexion
  • Radiographic Features
    • Normal or slight widening of radiohumeral joint on AP XR
    • Radial head posterior to capitellum on lateral XR (esp with supination)
    • Fluoroscopy of pivot shift test will often reveal subluxation
  • Treatment
    • Often reconstruction required if symptomatic
    • Tends not to become stable except possibly in the very early stages
  • Technique
    • Kocher approach
    • The common extensor origin elevated to reveal origin of LCL on the lateral epicondyle
    • Distally anconeus reflected posteriorly & ECU anteriorly
    • Supinator crest of Ulna identified
    • Capsulotomy & inspection of joint
    • Anterior & posterior capsule plicated
    • If able to reattach the LCL then performed
    • If not then reconstructed with palmaris longus graft
    • Isometric point located on the epicondyle & then fixed
    • All sutures tied with the elbow flexed 30 & pronated
  • Post op
    • Cast for 4 weeks in elbow flexion of 90 & full pronation
    • Then hinged splint with 30 extension stop for 6 weeks
    • Then free splint for further 4-6 weeks
    • Normal activity at 6 months

Fracture of Olecranon

  • Type III fracture has ligamentous disruption
  • If minimally comminuted then plate fixation stabilises the ulnohumeral joint (mandatory if fracture line in anterior half of notch)
  • If coronoid involved then must be reduced & rigidly fixed

Fracture of Coronoid

  • Most important part of the ulnohumeral articulation
  • Resists posterior displacement of the ulna
  • Classification
    • Reagan & Morrey
    • Type 1
      • Small chip off tip & indicator of elbow dislocation and/or collateral ligament injury
      • Stable & early mobilisation
    • Type 2
      • Up to 50% of coronoid elbow may be unstable
      • If EUA has subluxation in less than 40-45 of flexion then need to stabilise
      • If large enough then screw fixation performed
      • If too small for screw then heavy braided sutures used (passed over coronoid fragment & tied through ulna)
      • If still unstable then elbow distraction device used (eg. Compass Hinge)
    • Type 3
      • Greater than 50%
      • Grossly unstable ulnohumeral joint
      • Fix with screw & distraction neutralisation device
      • If severely comminuted then realign with heavy suture & distraction device applied

Fracture of Radial Head & Coronoid with Dislocation

  • Terrible triad
  • Radial head replaced or fixed & coronoid fixed
  • Protected with distractor
    • Allows motion but eliminates the forces

Fracture of Radial Head with Attenuation or Tear of MCL

  • 1-2% of patients with radial head fracture
  • Classification of radial head fractures
    • Mason (1954) three types
      • Type I undisplaced
      • Type II displaced wedge fragments
      • Type III comminuted
      • Type IV radial head fracture associated with elbow dislocation
        • Added by Johnson
  • Principles of treatment
    • Aim to retain the radial head as the secondary stabiliser to valgus stress by osteosynthesis
    • If able to reconstruct then
      • Stable arc within 40 of extension unrestricted motion after 2 weeks
      • Dislocates with 60 of extension immobilise for 2 weeks then motion in hinged elbow splint with 30 extension stop for 2 weeks
      • MCL not repaired
  • Prerequisites for excision of fragment of radial head
    • Excised fragment < 1/3 of radial head
    • Excised fragment does not articulate with lesser sigmoid notch of ulna (ie anterolateral 1/3 of radial head this is also the site where fixation can be placed without impingement against the ulna during forearm rotation)
  • If not able to reconstruct the radial head then
    • Use of prosthesis or allograft
  • Repair of the MCL acutely may be avulsed directly from the medial epicondyle requiring reattachment but if midsubstance then attachment more difficult
  • Followed by locked hinged brace for 4 weeks then unlocked & motion in stable arc
  • Total of 6 weeks

Fracture of Radial Head with Dislocated elbow

  • Mason IV injury
  • If coronoid intact then reduce & assess the stability of the ulnohumeral joint
  • Additional treatment according to fracture type
  • Principles of treatment
    • Type 1 (undisplaced)
      • If arc of motion stable to 45-50 then place in splint with 60 extension stop for 10 days
      • Full extension allowed in hinged splint for protection
    • Type 2 (displaced)
      • Need ORIF
      • Will result in instability if radial head resected
      • Usually not necessary to repair the MCL repair only if unstable arc of motion
    • Type 3 (comminuted)
      • Most difficult to treat
        • If not able to reconstruct the radial head then excise & repair the collateral ligaments
        • If still unstable then use of implant
        • If still unstable then External Fixator allowing flexion an option (Compass Hinge from S & N)
          • Allows distraction to maintain alignment but ROM allowed
          • Removed at 3-4 weeks & splint used then

Chronic Elbow Instability

  • Most activities only need 30-130 (100 arc) flexion-extension
  • And 100 pronation-supination (50 each)
  • Prerequisites for elbow stability
    • Normal articular congruence
    • Anterior band of MCL
    • Ulnar part of LCL
    • Annular ligament
  • Resistance to valgus stress by radial head minimal when MCL intact
  • Attenuated or torn ulnar part of LCL can cause PLRI with or without radial head

Chronic Non-Reduced Dislocation

  • Normally 3rd world
  • Secondary to fracture causing instability
  • Operation indicated if painful
  • Use external fixation distraction device

Recurrent Dislocation

  • Rare
  • LCL (PLRI) >> MCL
  • 25% have lateral epicondyle nonunion
  • LCL laxity most common
  • MCL is unlikely to be lax

Posterolateral Rotatory Instability

  • Secondary to LCL laxity
  • Acute LCL tear after dislocation
  • Tennis Elbow Release
  • Describe clunk on flexion/ extension
  • Posterolateral pain
  • O’Driscoll Lateral Pivot Shift Test
  • Treatment PLRI
    • Kocher approach
    • Drill holes x 2 base Tubercle of Crista Supinatoris
    • Drill holes x 2 at Lateral Epicondyle
    • Palmaris graft in figure of “8”
    • Nestor 90% success
  • MCL Deficiency
  • Throwing injury
  • Examination
    • Valgus stress
    • 40% Ulna nerve symptoms
    • 40% Calcification MCL
    • Pain at anterior bundle MCL on palpation
  • Investigations
    • Stress view
    • Abnormal cf. opposite side if > 3mm difference
  • Management
    • Reconstruct with palmaris longus with two-strand technique

Complications

Prognosis

References