منو منو

Tibial Plafond Fractures


  • SUMMARY

    • A tibial plafond fracture (also known as a pilon fracture) is a fracture of the distal end of the tibia, most commonly associated with comminution, intra-articular extension, and significant soft tissue injury.

    • Diagnosis is typically made through clinical evaluation and confirmed with plain radiographs.

    • Treatment is generally operative with temporary external fixation followed by delayed open reduction internal fixation once the soft tissues permit.

  • EPIDEMIOLOGY

    • Incidence

      • common

        • 5%-10% of all tibia fractures

        • account for <10% of lower extremity injuries

      • incidence increasing as survival rates after motor vehicle collisions increase

    • Demographics

      • average patient age is 35-45 years

      • males > females

  • ETIOLOGY

    • Pathophysiology

      • mechanism

        • high energy axial load (most common)

          • talus is driven into the plafond resulting in articular impaction of the distal tibia

          • falls from height

          • motor vehicle accidents

        • low energy rotational forces (less common)

          • alpine skiing

      • pathoanatomy

        • fracture patterns and comminution determined by position of foot, amplitude of force, and direction of force 

           

          • articular impaction and comminution

          • metaphyseal bone comminution

          • 3 fragments typical with intact ankle ligaments 

            • medial malleolar (deltoid ligament)

            • posterolateral/Volkmann fragment (posterior-inferior tibiofibular ligament)

            • anterolateral/Chaput fragment (anterior-inferior tibiofibular ligament)

    • Associated conditions

      • 75% have associated fibula fractures 

         

      • 30% have an ipsilateral lower extremity injury

      • 20% are open fractures

      • 5-10% are bilateral pilon fractures

  • ANATOMY

    • Osteology

      • tibia 

        • distal tibia forms an inferior quadrilateral surface and pyramid-shaped medial malleolus articulates with the talus and fibula laterally via the fibula notch

    • Ligaments

      • distal tibiofibular syndesmosis 

        • anterior-inferior tibiofibular ligament (AITFL)

          • originates from anterolateral tubercle of tibia (Chaput) 

          • inserts on anterior tubercle of fibula (Wagstaffe)

        • posterior-inferior tibiofibular ligament (PITFL)

          • originates from posterior tubercle of tibia (Volkmann)

          • inserts on posterior part of lateral malleolus

          • strongest component of syndesmosis

        • interosseous membrane

        • interosseous ligament (IOL)

          • distal continuation of the interosseous membrane

        • inferior transverse ligament (ITL)

  • CLASSIFICATION

      • AO/OTA Classification

      • 43-A

      • Extra-articular

      •  
      • 43-B

      • Partial articular

      •  
      • 43-C

      • Complete articular

      •  
      • Ruedi and Allgower Classification

      • Type I

      • Nondisplaced

      •  
      • Type II

      • Simple displacement with incongruous joint

      •  
      • Type III

      • Comminuted articular surface

      •  
  • PRESENTATION

    • Symptoms

      • severe ankle pain

      • ankle deformity

      • inability to bear weight

    • Physical exam

      • inspection & palpation

        • ankle tenderness, swelling, abrasions, ecchymosis, fracture blisters, open wounds, and chronic skin/vascular changes

        • examine for associated musculoskeletal injuries

      • motion

        • ankle motion limited

      • neurovascular

        • check DP and PT pulses

          • consider ABIs and CT angiography if clinically warranted

        • look for neurologic compromise

        • check for signs/symptoms of compartment syndrome

  • IMAGING

    • Radiographs

      • recommended views

        • AP

        • lateral

        • mortise

        • full-length tibia/fibula and foot x-rays performed for fracture extension

        • lumbar films if appropriate based on exam

      • findings

        • 4 classic fracture fragments 

          • medial malleolus

          • anterior malleolus = chaput

          • lateral malleolus = wagstaffe

          • posterior malleolus = volkmann

    • CT scan

      • indications

        • critical for pre-operative planning

          • articular involvement

          • metaphyseal comminution

          • fracture displacement

        • important to obtain after spanning external fixation as ligamentotaxis allows for better surgical planning 

           

        • fine cuts through the distal tibia

          • 3D reconstructions can be helpful

      • findings

        • ‘Mercedes-Benz’ sign on axials 

  • TREATMENT

    • Nonoperative

      • cast immobilization

        • indications

          • stable fracture patterns without articular surface displacement

          • critically ill or non-ambulatory patients

          • significant risk of skin problems (diabetes, vascular disease, peripheral neuropathy)

        • outcomes

          • intra-articular fragments are unlikely to reduce with manipulation of displaced fractures

          • loss of reduction is common

          • inability to monitor soft tissue injuries is a major disadvantage

    • Operative

      • temporizing spanning external fixation across ankle joint 

         

        • indications

          • acute management of most length unstable fractures

            • provides stabilization to allow for soft tissue healing and monitoring

            • capsuloligamentotaxis to indirectly reduce the fracture by tensioning the soft tissues about the ankle

            • keeps fracture fragments out to length

            • fractures with significant joint depression or displacement

            • leave until swelling resolves (generally 10-14 days)

            • not always warranted in length stable pilon fractures

        • outcomes

          • placement of pins out of the zone of injury and planned surgical site is important to reduce infection risks

      • open reduction and internal fixation (ORIF) 

        • indications

          • definitive fixation for a majority of pilon fractures

          • limited or definitive ORIF can be performed acutely with low complications in certain situations

        • outcomes

          • dependent on articular reduction

          • high rates of wound complications and infections are associated with early open fixation through compromised soft tissue

          • ability to drive

            • brake travel time returns to normal 6 weeks after weight bearing 

               

          • fibula fixation

            • not a necessary step in the reconstruction of pilon fractures

            • may be helpful in specific cases to aid in tibial plafond reduction or augment external fixation

            • higher rates of fibula hardware removal 

               

      • external fixation/circular frame fixation alone

        • indications

          • select cases where bone or soft tissue injury precludes internal fixation

        • outcomes

          • thin wire frames and hybrid fixators have high union rate

          • high rates of pin tract infections

          • osteomyelitis and deep infection are rare

          • meta-analysis comparing this method with open reduction and internal fixation found no difference in infection or complication rates between the two groups

      • intramedullary nailing with percutaneous screw fixation 

         

        • indications

          • alternative to ORIF for fractures with simple intra-articular component

        • outcomes

          • minimizes soft tissue stripping and useful in patients with soft tissue compromise

          • high union rates

          • increased valgus malunion and recurvatum seen with IMN compared to plate osteosynthesis

      • primary ankle arthrodesis

        • indications

          • no definitive indications

        • potential indications

          • severely comminuted, non-reconstructable plafond fractures

          • select elderly populations who cannot tolerate multiple surgeries or prolonged immobilization

          • manual laborers

        • techniques

          • plate and screw fixation

          • retrograde intramedullary TTC nail

        • outcomes

          • theorized quicker recovery process and decreased long term pain

          • increases the risk of adjacent joint arthritis including the subtalar joint and midfoot

  • TECHNIQUES

    • Cast immobilization

      • technique

        • long leg cast for 6 weeks followed by fracture brace and ROM exercises

        • close follow-up and imaging needed to ensure articular congruity and axial alignment

    • External fixation (temporary and definitive)

      • technique 

         

        • fixator constructs vary with ‘delta’ and ‘A’ frames assemblies being most common

        • 2 tibial shaft half pins outside the zone of injury connected to a single transcalcaneal pin

          • consider trans-navicular pin if associated calcaneal fracture

          • consider connecting fixator to the forefoot 1st metatarsal to prevent an equinus contracture

        • joint-spanning articulated vs. nonspanning hybrid ring

          • none have been shown to be superior with respect to ankle stiffness

        • can combine with limited percutaneous fixation using lag screws

      • complications

        • pin site drainage

        • pin/wire tract infections

        • pin site fracture

        • ankle stiffness

        • injury to neurovascular structures

        • anatomic articular reconstruction may not be possible, especially with central depression

    • Circular frame fixation 

      • technique

        • distraction is the key to reduction

        • proximal fixation

          • tibial shaft is used as a fixation base to reduce the fracture

          • two half-pins in the AP plane with rings in an orthogonal position

          • used to support the distal fixation rings

        • distal fixation 

          • determined by the configuration of the fracture and the soft-tissue injury

          • rings placed at the level of the plafond or calcaneus to distract and reduce the fracture

          • pins should be placed at least 1-2 cm from the joint line in order to avoid possible septic arthritis

          • safe zones for wire placement form a 60-degree arc in the medial-lateral plane 

        • can include limited internal fixation if soft tissues permit

        • consider the need for soft tissue coverage with position of the fixator

        • hydroxyapatite coated pins

          • provides better fixation and decreases frequency of loosening

    • Open reduction and rigid internal fixation (ORIF) 

      • timing to definitive surgery

        • once skin wrinkles present, blister epithelization, and ecchymosis resolution (10-14 days)

      • approach(es)

        • single or multiple incisions based on fracture pattern and goals of fixation

        • keep full thickness skin bridge >7cm between incisions

        • positioning of patient dependent on approach(es) being utilized

        • direct anterior approach to ankle 

        • anterolateral approach to ankle 

          • useful with fractures impacted in valgus or with an intact fibula

          • puts the deep peroneal nerve at risk during exposure and dissection in the anterior compartment

          • superficial peroneal nerve at risk during superficial dissection in the lateral compartment 

             

        • anteromedial approach to ankle 

        • medial approach 

        • posteromedial approach 

        • posterolateral approach 

        • lateral approach 

      • technique

        • reduction and fixation

          • goal is for anatomic reduction of articular surface 

          • location of plates/screws are fracture and soft-tissue dependent

          • restore alignment

            • <5-10 degrees varus/valgus

            • <5-10 degrees procurvatum/recurvatum

          • restore length

            • consider provisionally leaving the external fixator in place

          • reconstruct metaphyseal shell

          • bone graft (if warranted)

          • reattach metaphysis to diaphysis

          • fibula fixation if needed

            • can be with intramedullary screw/wire or plate/screw construct

        • postoperative care

          • ankle ROM exercises beginning 2 weeks post-op

          • non-weightbearing for ~6-12 weeks depending on radiographic evidence of fracture consolidation

    • Primary ankle arthrodesis

      • approach

        • direct anterior 

      • technique

        • plate and screw fixation

          • debride fibrous tissue, fracture callous, and cartilage

          • small comminuted articular fragments are removed

          • remove talar dome cartilage

          • pack metaphyseal defects and the tibiotalar joint with autologous or allograft bone graft

            • iliac crest

            • demineralized bone matrix

          • optimal position

            • neutral dorsiflexion

            • 5-10° of external rotation

            • 5° of hindfoot valgus

            • 5 mm of posterior talar translation

          • fixation with an anterior plate and screw construct

          • post-op care

            • apply cast or splint for 8 weeks

            • progress weight bearing between 8 and 12 weeks in removable boot

            • full weight bearing with ankle brace at 12 weeks post-op

            • CT at 3 months to assess for successful fusion

        • tibiotalocalcaneal (TTC) fusion with retrograde intramedullary nail

          • sacrifices subtalar joint motion

          • accelerates transverse tarsal joint arthritis

          • immediate weightbearing permissible

  • COMPLICATIONS

    • Wound slough and dehiscence

      • incidence

        • 9-30%

        • wait for soft tissue edema to subside before ORIF (1-2 weeks)

      • treatment

        • free flap for postoperative wound breakdown

    • Infection

      • incidence

        • 5-15%

      • risk factors

        • significant soft tissue swelling at time of definitive surgery

        • Increasing fracture severity  

           

      • treatment

        • irrigation and debridement, antibiotics, possible hardware removal

    • Malunion

      • incidence

        • 6-14%

      • treatment

        • joint-preserving correction with secondary anatomic reconstruction

        • corrective ankle fusion

    • Nonunion 

       

      • incidence

        • 5% of patients undergoing ORIF

        • usually at the metaphyseal junction

      • risk factors

        • metaphyseal comminution

        • open fractures

        • bone loss

        • tobacco use

        • NSAID use

      • treatment

        • must rule out infected non-union (labs to obtain CRP, ESR, WBC)

        • other non-union labs (PTH, calcium, total protein, serum albumin, vitamin D, TSH)

        • rigid fixation with bone grafting

    • Post-traumatic arthritis

      • incidence

        • chondrocyte cell death at fracture margins is a contributing factor 

           

        • IL-6 is elevated in the synovial fluid following an intra-articular ankle fracture 

           

        • most commonly begins 1-2 years postinjury

      • risk factors

        • sequalae of cartilage trauma

        • non-anatomic articular reduction

        • mal-alignment

      • treatment

        • first line is conservative management (bracing, injections, NSAIDs, activity modification)

        • total ankle arthroplasty

        • ankle arthrodesis

    • Chondrolysis

    • Stiffness  

       

      • Present in up to 33% at three years post-injury 

      • risk factors 

        • increasing fracture severity

        • obesity

        • ASA of three or greater

  • PROGNOSIS

    • Poor outcomes and lower return to work associated with

      • lower level of education 

         

      • pre-existing medical comorbidities

      • male sex

      • work-related injuries

      • lower income levels

    • Outcomes correlate with severity of the fracture pattern and the quality of reduction

      • at 2 year follow-up, the majority of type C pilon fractures report lower SF-36 scores than patients with pelvic fractures, AIDS, or coronary artery disease

      • clinical improvement seen for up to 2 years after injury 

         

    • Return of vehicle braking response time

      • 6 weeks after initiation of weight bearing

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