Intrinsic Ligaments

• Volar ligaments are thicker and stronger
• In the proximal row the ligaments are intra-articular, connecting scaphoid to lunate and lunate to triquetrum
• These ligaments are strong and are critical for carpal stability
• Grouped according to length
  • Short intrinsics connect the bones of the distal carpal row and are rarely injured
  • Intermediate intrinsics
    • scapholunate interosseous ligament (SLIL)
      • dorsal region - thickest, stronges, most critical scapholunate stabilizer
      • proximal region
      • volar region
    • lunatotriquetral ligament
    • scaphotrapezial ligaments
  • Long intrinsics
    • dorsal intrinsic intercarpal ligament (scaphoid to caitate and triquetrum)
    • long palmar intrinsic ligament (aka "V" or "Deltoid" ligament)
      • V-shaped ligament that runs from scaphoid and triquetrum to the capitate capitate 

Vascular Supply

• The wrist receives its blood supply from the radial, ulnar, and anterior interosseous arteries.
• Scaphoid
  • retrograde blood supply from the radial artery
  • volar branches supply the distal 20-30%
  • dorsal branches supply the proximal 70-80%

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• The four bones of the distal row are tightly bound by intercarpal ligaments, allowing for minimal motion between them. The distal row can be considered as functionally part of the hand.
• The scaphoid, lunate, and triquetrum are an intercalated segment due to the fact they have no tendon insertions and their movement is dictated by the surrounding articulations. They flex and extend as a group, however there is considerable multiplanar motion between each of the joints.
• Wrist flexion-extension arc averages 121 degrees
  • half of this motion occurs at the radiocarpal joint and half at the midcarpal joint
• Radioulnar deviation
  • 60% of motion stems from midcarpal joint and 40% from radioulnar joint
• In a normal wrist the proximal row moves as a unit due to its ligamentous connections and contact-surface constraints
  • Wrist flexion and radial deviation both result in flexion of the proximal row secondary to the distal row (namely the trapezium) pushing the distal scaphoid into flexion. The remaining bones of the proximal row follow suit due to the strong intercarpal ligaments.
  • As the wrist ulnar deviates helicoidal triquetrohamate joint engages and via a screw-like mechanism, guides the triquetrum and remaining proximal row bones into a dorsally rotated and anteriorly translated position
    

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1. Dissociative: Results from a tear of an intrinsic ligament(s). S-L or L-T dissociation leading to DISI or VISI, respectively
2. Non-dissociative: Results from a tear of the extrinsic ligaments supporting the wrist.

Instability Patterns:

1. Dorsal Intercalated Segment Instability (DISI)
   1. The most common form of carpal instability.
   2. Secondary to disruption of the scapholunate ligamentous complex.
   3. The lunate is rotated into extension.
   4. As wrist flexes and/or radially deviates the scaphoid will flex and the lunate will extend and vice versa.
   5. Lateral radiographs will reveal a zig zag alignment of the radio-luno-capitate alignment
   6. Classified as a type of dissociative instability
2. Volar Intercalated Segment Instability (VISI)
   1. Secondary to disruption of the lunotriquetral ligamentous complex
   2. Results in volar rotation of the lunate and extension of the triquetrum
   3. Second most common type of carpal instability.
   4. Classified as a type of dissociative instability
3. Ulnar Translocation
   1. abnormal translocation of the lunate ulnarward. Ulnar translocation rarely results from injury, but is commonly seen in wrists affected by rheumatoid arthritis
   2. the entire carpus is translocated ulnarward
   3. Frequently seen in rheumatoid patients
4. Dorsal Subluxation: malunion of distal radius fracture with reversal of normal palmar tilt

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1. Predynamic (occult) Instability
   1. Partial ligamentous tear.
   2. X-rays are normal, including stress x-rays
   3. Soft tissue injury seen with MRI or arthroscopy only
2. Dynamic Instability
   1. Incompetent SLIL or complete SLIL tear
   2. Abnormal changes in carpal alignment seen on stress radiographs. Plain radiographs are normal.
3. Static Instability (Scapholunate dissociation)
   1.  Complete SLIL and volar or dorsal extrinsic disruption
   2. Scapholunate diastasis 3mm or greater and radioscaphoid angle greater than 60 degrees on non-stress x-rays
4. Dorsal Intercalated Segment Instability
   1. Complete SLIL and volar extrinsic rupture with secondary changes in radiolunate, scaphotrapezoid, and dorsal intercarpal ligaments
   2. Scapholunate diastasis 3mm or greater and radioscaphoid angle greater than 60 degrees on non-stress x-rays, radiolunate angle >15 degrees, capitolunate angle >15 degrees)
5. Scapholunate Advanced Collapse (SLAC), degenerative changes typically in the following stages:
   1. Stage I: Styloid-scaphoid DJD
   2. Stage II: DJD of the proximal scaphoid facet
   3. Stage III: Capitolunate DJD
   4. Stage IV: Radiolunate/Pancarpal DJD
      1. Due to the congruency of this joint, the articular surfaces are preserved until late in the process.

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Mechanism of Injury

• Fall on an outstretched arm resulting in  a wrist placed into dorsiflexion, ulnar deviation, and supination.
• As the wrist is continually loaded, it sequentially undergoes the following stages of injury

1. scapholunate diastasis
2. dorsal dislocation of the capitate
3. lunatotriquetral dissociation
4. dislocation of the lunate

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• Measurements
  • Scapholunate interval (Normal is <3mm)
• DISI pattern
  • Terry Thomas sign: Scapho-lunate diastasis greater than or equal to 3mm is suspicious for DISI
  • Signet ring sign: flexed, proximal pole of the scaphoid seen end on
  • Scaphoid shortening
  • Distance between ring and proximal pole less than 7 mm
  • the volar-flexed scaphoid is seen with a dorsiflexed lunate(quadrilateral) and with the triquetrum in a distal (dorsiflexed) position

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• VISI pattern
  • Signet ring sign
  • Scaphoid shortened
  • Lunate volar flexed (triangular)
  • Triquetrum distal in relation to the hamate (dorsiflexed)
  • Distance between the ulnar head and the triquetrum is reduced (Mayersbach sign)
  • The convex outline of the proximal carpal row (the Shenton line of the wrist) is interrupted by a step off between lunate and triquetrum
• Ulnar Translocation
  • Carpal-Ulnar distance: is the distance from the center of the head of the capitate, i.e. the center of rotation of the carpus, and a line produced along the line of the center of the ulna
  • Normally ratio of C-U distance/length of 3rd metacarpal = 0.30 +/- 0.03
  • With ulnar translocation the ratio is less

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• Bone scan
  • May be useful to localize pathology (eg occult fractures)
• Arthrography
  • Helpful in finding acute ligament tears in younger patients. The test becomes much less specific in older patients due to the common presence of age-related  ligament degeneration.
  • Most sensitive with3-compartment arthrography (radiocarpal, midcarpal, and radioulnar compartments injected separately).
  • Results need to be compared with normal side
• Computed tomography
• CT Arthrogram
  • 94% sensitivity and 86% specificity for detecting SLIL tears when compared to arthroscopy as the gold standard for diagnosis diagnosis 

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• Acute ligamentous injury with occult instability (pre-dynamic instability)
  • casting, splinting NSAIDS, and/or therapy
  • Arthroscopic debridement
  • pinning or capsulodesis
• Acute ligamentous injury with dynamic instability and a repairable SLIL:
  • open reduction, scapholunate repair, and dorsal capsulodesis
  • should preferable be performed within 4-6 weeks of the injury, however good results have been reported in patients up to three years from the injury
  • Treatment based on plane of instability
    • Coronal: Widening of the Scapholunate joint: Repair vs. Reconstruction of the SLIL
    • Sagital: Rotary subluxation of the scaphoid resulting from attenuation of the secondary stabilizers: Repair SLIL and perform a dorsal capsulodesis (eg Blatt procedure)
• Subacute or chronic dynamic instability without a repairable SLIL:
  • ligament reconstruction with tendon graft, capsulodesis
  • Creation of pseudoarthrosis with Herbert screw
  • Intercarpal fusions
• Dorsal Intercalary Segment Instability (DISI)
  • Reducible deformity without degenerative changes (SLAC)
    • Ligament reconstruction
  • Fixed deformity without degenerative changes (SLAC)
    • Intercarpal fusion
• Scapholunate Advanced Collapse (SLAC)
  • Scaphoid excision should be performed with additional surgery guided by to condition of the capitolunate joint:
    • Degenerative changes of the midcarpal joint and a preserved radiolunate joint:
      • excision of the scaphoid and fusion of the capitate, hamate, triquetrum and lunate (4 corner fusion)
      • exision of the scaphoid and triquetrum and fusion of the captitate and lunate
    • Midcarpal joint preserved:
      • Proximal row carpectomy
        • Often reserved for older, lower demand patients with Stage I or II SLAC disease
  • Severe wrist degeneration
    • Total wrist fusion
    • Wrist arthoplasty

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Figure: Proximal row carpectomy

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Figure: Four corner fusion

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Lunatotriquetral dissociatons (VISI)

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• Acute: Repair of the disrupted volar and dorsal radiocarpal ligaments
• Chronic
  
  • Ligament repair unreliable
  • Relocation of the carpus and maintenance of reduction by radiolunate arthrodes is more reliable

References

http:

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//www.ncbi.nlm.nih.gov/pubmed/10675851
http://www.ncbi.nlm.nih.gov/pubmed/18656780
http://www.ncbi.nlm.nih.gov/pubmed/7400560
http://www.ncbi.nlm.nih.gov/pubmed/17606063

Taliesnik "Current Concepts Review: Carpal Instability" JBJS 70A:1262-1267, 1988. Stanley and Trail " Carpal instability" JBJS 76B: 691-700, 1994