Posterolateral corner injuries: Difference between revisions

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[[Category:Orthopedic injuries]]
[[Category:Orthopedic injuries]]
<gallery>
File:Tibial and Femoral PLC Attachments.jpg|Tibial and Femoral PLC Attachments
File:Biceps Femoris Insertions MRI.jpg|Biceps Femoris Insertions MRI
File:Recurvatum Test.jpg|Recurvatum Test
File:Varus Stress Test.jpg|Varus Stress Test
File:Posterolateral Drawer Test.jpg|Posterolateral Drawer Test
File:Reverse Pivot Shift Test.jpg|Reverse Pivot Shift Test
File:Anatomic FCL Reconstruction.jpg|Anatomic FCL Reconstruction
File:Anatomic Popliteus Reconstruction.jpg|Anatomic Popliteus Reconstruction
File:Anatomic PLC Reconstruction.jpg|Anatomic PLC Reconstruction
</gallery>

Revision as of 01:48, 20 February 2025

Injuries to the posterolateral corner of the knee


Posterolateral Corner Injuries

The posterolateral corner (PLC) of the knee joint is a complex anatomical region that provides stability to the knee, particularly against varus and external rotational forces. Injuries to the PLC can lead to significant instability and dysfunction of the knee, often requiring surgical intervention for optimal recovery.

Anatomy

The posterolateral corner of the knee is composed of several key structures:

These structures work in concert to stabilize the knee during movement and protect against excessive varus and rotational forces.

Mechanism of Injury

PLC injuries often occur due to high-energy trauma, such as motor vehicle accidents or sports-related injuries. Common mechanisms include:

  • Direct blow to the anteromedial knee: This can cause a varus force, stressing the PLC.
  • Hyperextension injuries: Often seen in contact sports.
  • Rotational injuries: Excessive external rotation can damage the PLC structures.

Clinical Presentation

Patients with PLC injuries typically present with:

  • Pain and swelling: Localized to the lateral aspect of the knee.
  • Instability: Particularly with varus stress or during activities requiring pivoting.
  • Difficulty with ambulation: Due to instability and pain.

Diagnosis

Diagnosis of PLC injuries involves a combination of clinical examination and imaging studies:

  • Physical examination: Tests such as the varus stress test, dial test, and reverse pivot shift test can help assess PLC integrity.
  • Imaging: Magnetic resonance imaging (MRI) is the gold standard for visualizing soft tissue injuries in the PLC.

Treatment

Treatment options for PLC injuries depend on the severity of the injury:

  • Non-surgical management: May be appropriate for low-grade injuries and involves physical therapy and bracing.
  • Surgical intervention: Required for high-grade injuries or when there is significant instability. Surgical options include repair or reconstruction of the damaged structures.

Rehabilitation

Rehabilitation following PLC injury or surgery is crucial for optimal recovery:

  • Early phase: Focuses on reducing swelling and restoring range of motion.
  • Intermediate phase: Strengthening exercises for the quadriceps, hamstrings, and hip muscles.
  • Advanced phase: Functional training and sport-specific drills to prepare for return to activity.

Prognosis

The prognosis for PLC injuries varies based on the severity of the injury and the treatment approach. Early diagnosis and appropriate management are key to achieving good outcomes.

Related pages

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