One of the common types in children is the distal tibial metaphyseal fracture. These types include: lateral malleolus . Incision. Ankle Fractures are very common fractures in the pediatric population that are usually caused by direct trauma or a twisting injury. Tibia and fibula fractures are characterized as either low-energy or high-energy. Repeated cleanings prior to closing the wound may be used instead. Splints and Casts: Indications and Methods | AAFP A retrospective study of two hundred . Isolated fibular fractures comprise the majority of ankle fractures in older women, occurring in approximately 1 to 2 of every 1000 White women each year [ 1 ]. The treatment of an open tibial fracture starts with antibiotics and a tetanus shot to address the risk of infection. Diagnosis is made with plain radiographs of the ankle. Fracture of the proximal fibula indicative of syndesmotic injury. ORIF of fibula fractures; resection of fibula; excision of fibula bone lesions; Internervous plane: Between . Weening B, Bhandari M. Predictors of functional outcome following transsyndesmotic screw fixation of ankle fractures. Are you sure you want to trigger topic in your Anconeus AI algorithm? Fibula Fracture: Types, Symptoms, and Treatment - Verywell Health Pathophysiology. low energy (fall from standing, twisting, etc) result of indirect, torsional injury. Wounds may be treated with vacuum-assisted closure. Are you sure you want to trigger topic in your Anconeus AI algorithm? van Staa TP, Dennison EM, Leufkens HGM, et al. Numbness or paresthesias may arise if damage to the peroneal nerve has occurred. This type of fracture usually results from high-energy trauma or penetrating wounds. Posterior tibiofibular ligament rupture or avulsion of posterior malleolus, 4. 12/11/2019. Fractures may involve the knee, tibiofibular syndesmosis, tibia, or ankle joint. Vaccines & Boosters | Testing | Visitor Guidelines | Coronavirus. Open fractures of the tibia are common among children and adults. Summary. mechanism of injury. Proximal fibula fractures - OrthopaedicsOne Articles Orthobullets Team Trauma - Ankle Fractures; Listen Now 38:12 min. a combined posterior drawer and external rotation force is then applied to the knee to assess for an increase in posterolateral translation (lateral tibia externally rotates relative to lateral femoral condyle), knee positioned at 90 and external rotation and valgus force applied to tibia, as the knee is extended the tibia reduces with a palpable clunk, tibia reduces from a posterior subluxed position at ~20 of flexion to a reduced position in full extension (reduction force from IT band transitioning from a flexor to an extensor of the knee), altered sensation to dorsum of foot and weak ankle dorsiflexion, approximately 25% of patients have peroneal nerve dysfunction, may see avulsion fracture of the fibula (arcuate fracture ) or femoral condyle, side-to-side difference 2.7-4 mm = isolated LCL tear, primary varus = tibiofemoral malalignment, secondary varus = LCL deficiency with increased lateral opening, triple varus = remaining PLC deficient, overall varus recurvatum alignment, necessary to determine mechanical axis and if a, look for injury to the LCL, popliteus, and biceps tendon, coronal oblique thin-slice through the fibular head are best at visualizing the PLC structures, hinged knee brace locked in extension x4 weeks, followed by progressive functional rehabilitation, midsubstance repair have 40% failure rate following repair, repair of LCL, popliteus tendon and/or popliteofibular ligament should be performed if structures can be, anatomically reduced to their attachment site, avulsion fracture of fibular head can be treated with screws or suture anchors, avulsion injuries where repair is not possible or tissie is poor quality, goal is to reconstruct LCL and the popliteofibular ligament using a free tendon graft (semitendinosus or achilles), soft tissue graft passed through bone tunnel in fibular head, limbs are then crossed to create figure-of-eight and fixed to lateral femur to a single tunnel, trans-tibial double-bundle reconstruction, split achilles tendon is fixed to isometric point of the femoral epicondyle, one tibia-based limb and one fibula-based limb, fibula-limb is fixed to the fibular head with a bone tunnel and transosseous sutures to reconstruct the LCL, tibia-limb is brought through the posterior tibia to reconstruct the popliteofibular ligament, proximal attachment site at anatomic femoral LCL attachment, through the fibular head lateral to medial, docking into the tibial tunnel posterior to anterior with graft #2, graft #2 reconstructs the popliteus tendon, proximal attachment site at the anatomic popliteus tendon attachment, docking into the tibial tunnel posterior to anterior with graft #1, hinged knee brace, nonweightbearing for 6 weeks, range of motion protocols differ between surgeons, some advocate for passive ROM immediately 0-90, others immobilize for 2 weeks, then begin motion, at 6 weeks, begin weightbearing and closed-chain strenghtening, return to activities / sports ~ 6 to 9 months, operative treatment has improved outcomes compared to nonoperative treatment, repair has higher failure rate than reconstruction, particularly for midsubstance injuries, but also for soft tissue avulsions, anatomic reconstruction restores rotatory stability, but not all varus stability on stress testing, PLC reconstruction, +/- ACL reconstruction, +/-, acute and chronic combined ligament injuries, PLC reconstruction should be performed at same time or prior to (as staged procedure) ACL or PCL to prevent early cruciate failure, indicated in patients with varus mechanical alignment, failure to correct bony alignment jeopardizes ACL and PLC reconstruction success, ACL reconstruction + PLC repair 33% achieved IKDC grade A or B compared to 88% of patients who underwent ACL + PLC reconstruction, failure to identify a PLC injury will lead to failure of ACL or PCL reconstruction, Spontaneous Osteonecrosis of the Knee (SONK), Osgood Schlatter's Disease (Tibial Tubercle Apophysitis), Anterior Superior Iliac Spine (ASIS) Avulsion, Anterior Inferior Iliac Spine Avulsion (AIIS), Proximal Tibiofibular Joint Ganglion Cysts, Pre-Participation Physical Exam in Athlete, Concussions (Mild Traumatic Brain Injury). There are different types of fractures, which can also affect treatment and recovery. Medial malleolus transverse fracture or disruption of deltoid ligament, 3. Most isolated lateral malleolus fractures are stable enough to allow you to put weight on the . Patients are counseled that, although fibula fractures. leads to spiral fracture pattern with fibula fracture at a different level. Located posterolaterally to the tibia, it is much smaller and thinner. This type of injury is known as a stress fracture. The fibula is one of the two long bones in the leg, and, in contrast to the tibia, is a non-weight bearing bone in terms of the shaft. Accept Lauge Hansen classification: - classification: - C: fibula fracture above syndesmosis. Obtain AP and lateral views of the knee to look for associated injury to the knee. posterior border of the biceps femoris tendon, Shoulder Anterior (Deltopectoral) Approach, Shoulder Lateral (Deltoid Splitting) Approach, Shoulder Arthroscopy: Indications & Approach, Anterior (Brachialis Splitting) Approach to Humerus, Posterior Approach to the Acetabulum (Kocher-Langenbeck), Extensile (extended iliofemoral) Approach to Acetabulum, Hip Anterolateral Approach (Watson-Jones), Hip Direct Lateral Approach (Hardinge, Transgluteal), Hip Posterior Approach (Moore or Southern), Anteromedial Approach to Medial Malleolus and Ankle, Posteromedial Approach to Medial Malleolus, Gatellier Posterolateral Approach to Ankle, Tarsus and Ankle Kocher (Lateral) Approach, Ollier's Lateral Approach to the Hindfoot, Medial approach to MTP joint of great toe, Dorsomedial Approach to MTP Joint of Great Toe, Posterior Approach to Thoracolumbar Spine, Retroperitoneal (Anterolateral) Approach to the Lumbar Spine, may be done supine with bump under affected limb or in lateral position, Make linear longitudinal incision along the, may extend proximally to a point 5cm proximal to the fibular head, begin proximally and incise the fascia taking great care not to damage the common peroneal nerve, about 10-12 cm above the tip of the lateral malleolus, the superficial peroneal nerve pierces the fascia, distal - may be extended distally to become continuous with, Kocher lateral approach to the ankle and tarsus, susceptible to injury at junction of middle and distal third of leg, if injured will cause numbness on the dorsum of the foot. The fibular shaft is an origin for multiple muscles of the leg, including musclesof the anterior compartment (extensor digitorum longus, extensor hallucis longus, peroneus tertius), the lateral compartment (peroneus longus, peroneus brevis), the superficial posterior compartment (soleus), and the deep posterior compartment (tibialis posterior and flexor hallucis longus). The fibula supports the tibia and helps stabilize the ankle and lower leg muscles. Type of screw fixation for repairing the syndesmosis: Differences have not been found between syndesmotic screws that engage 3 or 4 cortices (, The position of the ankle when fixation is applied is not important, but the syndesmosis must be reduced anatomically (, The use of bioabsorbable screws may obviate the need for screw removal (. This procedure involves placing a piece of foam in the wound and using a device to apply negative pressure to draw the edges of a wound together. Symptoms of a fibula stress fracture. Approximately 7-16% knee ligament injuries are to the posterolateral ligamentous complex, only 28% of all PLC injuries are isolated, usually combined with cruciate ligament injury (PCL > ACL), common cause of ACL reconstruction failure, contact and noncontact hyperextension injuries, three major static stabilizers of the lateral knee, most anterior structure inserting on the fibular head, originates at the musculotendinous junction of the popliteus, meniscofemoral and meniscotibial ligaments, inserts on the posterior aspect of the fibula posterior to LCL, popliteus works synergistically with the PCL to control, popliteus and popliteofibular ligament function maximally in knee flexion to resist external rotation, LCL is primary restraint to varus stress at 5 (55%) and 25 (69%) of knee flexion, arcuate complex includes the static stabilizers: LCL, arcuate ligament, and popliteus tendon, Patellar retinaculum, patellofemoral ligament, 0-5 mm of lateral opening on varus stress, 0-5 rotational instability on dial test, Sprain, no tensile failure of capsuloligamentous structures, 6-10 mm of lateral opening on varus stress, 6-10 rotational instability on dial test, Partial injuries with moderate ligament disruption, > 10 mm of lateral opening on varus stress, no endpoint, > 10 rotational instability on dial test, no endpoint, often have instability symptoms when knee is in full extension, difficulty with reciprocating stairs, pivoting, and cutting, varus thrust or hyperextension thrust with ambulation, varus laxity at 0 indicates both LCL and cruciate (ACL or PCL) injury, positive when lower leg falls into external rotation and recurvatum when leg suspended by toes in supine patient, more consistent with combined ACL and PLC injuries. ; Patients may report a history of direct (motor vehicle crash or axial loading) or indirect . accounts for 25-40% of all physeal injuries (second most common), accounts for 5% of all pediatric fractures, pediatric ankle fractures are a common injury that includes, twisting injury, i.e. At its most proximal part, it is at the knee just posterior to the proximal tibia, running distally on the lateral side of the leg where it becomes the lateral malleolus at the level of the ankle. usually associated with an injury to the medial side All Rights Reserved. Posterolateral Corner Injury - Knee & Sports - Orthobullets There is very limited mobility between this syndesmosis. Although tibia and fibula shaft fractures are amongst the most common long bone fractures, there is little literature citing the incidence of isolated fibula shaft fractures. Patients with isolated fibular shaft fractures are instructed to bear partial weight. Distal tibial physeal fractures in children that may require open reduction. - C1 diaphyseal fracture of the fibula, simple. Patients with tibia fractures, syndesmosis injuries, or ankle fractures should be referred to an orthopaedic surgeon. Talofibular sprain or distal fibular avulsion, 1. Fractures of the fibula often involve a syndesmotic injury (called Maisonneuve fractures). The proximal fibula is the insertion point for the biceps femoris posterolaterally, the soleus posteriorly, and the peroneus longus and extensor digitorum longus anteiorly. Fibula Stress Fracture - Symptoms, Causes, Treatment & Rehabilitation - frx above the syndesmotic result from external rotation or abduction forces that also disrupt. In rare cases, external fixation or ORIF is more appropriate depending on the location and orientation of the fracture. Weber C fractures can be further subclassified as 6. There are three types of tibial shaft fractures: These fractures occur at the ankle end of the tibia. It may include some of the following approaches, used either alone or in combination: An open fracture occurs when the bone or parts of the bone break through the skin. Treatment can be nonoperative or operative depending on fracture displacement, ankle stability, presence of syndesmotic injury, and patient activity demands. Lateral short oblique or spiral fracture of fibula (anterosuperior to posteroinferior) above the level of the joint, 4. Mechanisms of injury for tibia-fibula fractures can be divided into 2 categories: low-energy injuries such as ground level falls and athletic injuries; high-energy injuries such as motor vehicle injuries, pedestrians struck by motor vehicles, and gunshot wounds. Posterior Malleolus and Fibula Fracture ORIF - Orthobullets counterpart of LeFortWagstaffe fracture), medial sided swelling, tenderness, and ecchymosis not sensitive for medial stability, palpate proximal fibula for Maisonneuve fracture, most appropriate stress radiograph to assess competency of deltoid ligament, foot dorsiflexed and ER with tibia stabilized, more sensitive to injury than medial tenderness, ecchymosis, or edema, gravity stress radiograph is equivalent to manual stress radiograph, difficult for patients to tolerate in acute setting, it has also been reported that there is no actual correlation between syndesmotic injury and tibiofibular clear space or overlap measurements, normal <6 mm on both AP and mortise views, bisection of line through tibial anatomical axis and line through tip of both malleoli, shortening of lateral malleoli fractures can lead to increased talocrural angle, talocrural angle is not 100% reliable for estimating restoration of fibular length, can also utilize realignment of the medial fibular prominence with the tibiotalar joint, 25% of surgeons would change operative technique after CT, assess for anteromedial impaction of tibial plafond and talar articular cartilage injury, axial and sagittal views most useful to assess posterior malleolus, size and shape of posterior malleolus fragment, evaluate for soft tissue or cartilaginous injuries, positive anterior drawer or talar tilt test, increased medial clear space or tibiofibular diastasis on stress view, inability or weakness with plantar flexion, increased resting dorsiflexion when prone with knees bent, Chaput fragment, Volkmann fragment, medial malleolus, central impaction, high energy with extensive soft tissue injury, 25% open, x-ray shows dislocation of talus from calcaneous or navicular bone, avulsion tip fractures of medial or lateral malleolus, bimalleolar or bimalleolar-equivalent fracture, posterior malleolar fracture with > 25% or > 2mm step-off, goal of treatment is stable anatomic reduction with restoration of mortise, see fracture patterns below for specific treatment, direct reduction of medial and lateral malleolus fractures, indirect reduction of posterior malleolus, facilitates direct reduction of posterior malleolus, common approach for fibula ORIF syndesmotic fixation, concomitant access to posterior fibula and posterior malleolus, access to medial malleolus and posterior malleolus, common approach for medial malleolus ORIF, prolonged recovery expected (2 years to obtain final functional result), anatomic reduction is considered most important factor for satisfactory outcome, ORIF superior to closed treatment of bimalleolar fractures, improved incisional perfusion with Allgwer-Donati sutures, proper braking response time (driving) returns to baseline at 9 weeks after surgery, braking travel time is significantly increased until 6 weeks after initiation of weight bearing in both long bone and periarticular fractures of lower extremity, severe open fractures with gross contamination, poor soft tissue requiring close monitoring, lower risk of redislocation and skin complication in ankle fracture dislocation vs splint, isolated medial malleolus fracture without talar shift, deep deltoid inserts on posterior colliculus, good outcomes with >95% union rate for isolated injury, lag screw fixation stronger if placed perpendicular to fracture line, bicortical 3.5 mm fully-threaded screw (lag by technique) superior to unicortical 4.0 mm partially-threaded screw (lag by design), > 4-5 mm of medial clear space widening on stress views considered unstable, recent studies show deep deltoid intact with 8-10 mm of widening on stress view, open reduction and internal fixation (ORIF), presence of talar shift on static or stress view (bimalleolar equivalent), one-third tubular or anatomic distal fibular plate, stiffest fixation construct for the fibula is a locking plate, posterior antiglide plating is biomechanically superior to lateral plate, disadvantage of peroneal tendon irritation if plate too distal, newer implants have improved axial and rotational control with distal/proximal fixation, useful for poor soft-tissue envelopes or high risk for wound-healing complication, similar outcomes with operative and non-operative treatment if stable mortise, Bimalleolar-Equivalent Fracture (deltoid ligament tear with fibular fracture), low demand and unable to tolerate surgery, lateral malleolus fracture with talar shift (static or stress view), assess syndesmotic stability after fixation of lateral malleolus, not necessary to repair medial deltoid ligament, explore medially if unable to reduce mortise and deltoid ligament potentially interposed, lower rate of nonunion and fracture displacement with operative treatment, Bimalleolar (MEDIAL AND LATERAL) Fracture, low demand and unable to undergo surgical intervention, any displacement or talar shift (static or stress view), size should be calculated on CT since plain radiographs are unreliable, interval between FHL and peroneal tendons, common approach since posterior malleolus fractures are frequently posterolateral, decision of approach will depend on location of fracture, degree of displacement, and need for fibular fixation, stiffness of syndesmosis restored to 70% normal with isolated fixation of posterior malleolus vs 40% with isolated, PITFL may remain attached to posterior malleolus and syndesmotic stability may be restored with isolated posterior malleolar fixation, stress examination of syndesmosis still required after posterior malleolar fixation, 40-90% of distal third spiral tibia fractures have an associated posterior malleolus fracture, rare fracture-dislocation of ankle where fibula is entrapped behind tibia and is irreducible, posterolateral ridge of the distal tibia hinders reduction of the fibula, open reduction of fibula and internal fixation is required, fracture-dislocation of the ankle due to hyperplantarflexion, main feature is a vertical shear fracture of the posteromedial tibial rim, double cortical density at the inferomedial tibial metaphysis, ORIF of posterior malleolus with antiglide plating, primary closure at index procedure can be performed in appropriately-selected grade I, II, and IIIA open fractures in otherwise healthy patients without gross contamination, higher incidence with higher fibula fractures, fixation usually not required when fibula fracture within 4.5 cm of plafond, measure tibiofibular clear space 1 cm above joint, abduction/external rotation stress of dorsiflexed foot, lateral stress radiograph has greater interobserver reliability than an AP/mortise stress film, instability of the syndesmosis is greatest in the anterior-posterior direction, patient placed in lateral decubitus position, similar effectiveness to manual ER stress test, bone hook around fibula used to pull while placing counter traction on tibia, tibiofibular clear space (AP) greater than 5 mm, length and rotation of fibula must be accurately restored, "Dime sign"/Shentons line to determine length of fibula, fixing lateral and/or posterior malleolus first my obviate need for syndesmotic fixation, outcomes are strongly correlated with anatomic reduction, maximum dorsiflexion not required during screw placement (over-tightening), open reduction required if closed reduction unsuccessful or questionable, one or two cortical screw(s) or suture-button devices 2-4 cm above joint, angled posterior to anterior 20-30 degrees (fibula posterior to tibia), suture button has lower rate of malreduction and reoperation rate than screws, no difference in outcomes seen with hardware maintenance (breakage or loosening) or removal at 1 year, outcome may be worse with maintenance of intact screws, screws should be maintained in place for at least 8-12 weeks, must remain non-weight bearing, as screws are not biomechanically strong enough to withstand forces of ambulation, any postoperative malalignement or widening should be treated with open debridement, reduction, and fixation, Diabetic Ankle Fractures (with or without Neuropathy), poor circulation impairs wound and fracture healing, multiple quadricortical syndesmotic screws (even in the absence of syndesmotic injury), tibiotalar Steinmann pins or hindfoot nailing, augment with intramedullary fibula K-wires, stiffer, more rigid fibular plates (instead of 1/3 tubular plates), maintain non-weightbearing postop for 8-12 weeks (instead of 4-8 weeks in normal patients), largest risk factor for diabetic patients is presence of, articular impaction of tibial plafond in SAD injuries should be addressed at time of surgery, corrective osteotomy requires obtaining anatomic fibular length and mortise correction for optimal outcomes, Loss of dorsiflexion with posterior fixation, rare with anatomic reduction and fixation, very common in "log-splitter" type injuries (trans-syndesmotic fracture-dislocations in which the talus is driven into the distal tibiofibular articulation), superficial peroneal nerve injury (10-15%), At risk with lateral approach to distal fibula, posterolateral, and anterior/anterolateral approaches, Two terminal nerve branches that innervate dorsum of the foot, protruding screw head in most distal hole of fibula plate, at risk with posterior medial malleolus screw placement, Excellent for stable ankle fractures treated nonoperatively, Outcomes following operative treatment generally very favorable, 90% mild/no ankle pain with minimal limitations and near full functional recovery at 1 yr, Proximal Humerus Fracture Nonunion and Malunion, Distal Radial Ulnar Joint (DRUJ) Injuries. paralyzed), or those unfit for surgery, angulation and rotational alignment are well maintained with casting, however, shortening is hard to control, risk of shortening higher with oblique and comminuted fracture patterns, risk of varus malunion with midshaft tibia fractures and an intact fibula, high success rate if acceptable alignment maintained, non-union occurs in approximately 1% of patients treated with closed reduction, all open tibia fractures require an emergent I&D, surgical debridement within 12-24 hours of injury, wounds should be irrigated and dressed with saline-soaked gauze in the emergency department before splinting, all open tibia fractures require immediate antibiotics, should be administered within 3 hours of injury, standard abx for open fractures (institution dependent), cephalosporin given continuously for 24 hours, after definitive surgery in Grade I, II, and IIIA open fractures, aminoglycoside added in Grade IIIB injuries, tetanus vaccination status should be confirmed and appropriate prophylaxis should be administered if necessary, early antibiotic administration is the most important factor in reducing infection, emergent and thorough surgical debridement is also an, must remove all devitalized tissue including cortical bone, open fractures with soft tissue defects/contamination, uniplanar, circular, hybrid external fixators all available, should be converted to intramedullary nail within 7-21 days, ideally less than 7 days, longer time to union and worse functional outcomes, high rate of pin tract infections; avoid intra-articular placement given risk for septic arthritis, unacceptable alignment with closed reduction and casting, soft tissue injury that will not tolerate casting, ipsilateral limb injury (i.e., floating knee), reamed nailing allows for larger diameter nail, provisional reduction techniques (blocking screws, plating, etc), particularly useful for proximal 1/3 tibial shaft fractures, for closed tibia fractures treated with nailing, risks for nonunion: gapping at fracture site, open fracture and transverse fracture pattern, shorter immobilization time, earlier time to weight-bearing, and decreased time to union compared to casting, decreased malalignment compared to external fixation, improved fracture alignment with suprapatellar nailing, reamed may have higher union rates and lower time to union than unreamed nails in closed fractures (controversial), reamed nails are safe for use with open fractures, with no evidence of decreased nonunion rates in open fractures, recent studies show no adverse effects of reaming (infection, embolism, nonunion), reaming with the use of a tourniquet is not associated with thermal necrosis of the tibial shaft, despite prior studies suggesting otherwise, higher rate of locking screw breakage with unreamed nailing, proximal tibia fractures with inadequate proximal fixation from IM nailing, distal tibia fractures with inadequate distal fixation from IM nail, tibia fractures in the setting of adjacent implant/hardware (i.e. Low-energy, nondisplaced (aligned) fractures, sometimes called toddlers fractures, occur from minor falls and twisting injuries. These fractures are usually transverse (across) or oblique (slanted) breaks in the bone. Tornetta P, III, Spoo JE, Reynolds FA, et al. open 1/3 tibial shaft fracture with placement of proximal 1/3 tibia and calcaneus/metatarsal pins to span fracture), construct stiffness increased with larger pin diameter, number of pins on each side of fracture, rods closer to bone, and a multiplanar construct, incision from inferior pole of patella to just above tibial tubercle, identify medial edge of patellar tendon, incise, insert guidewire as detailed below and ream, can lead to valgus malalignment in proximal 1/3 tibial fractures, helps maintain reduction when nailing proximal 1/3 fractures, can damage patellar tendon or lead to patella baja (minimal data to support this), semiextended medial or lateral parapatellar, used for proximal and distal tibial fractures, skin incision made along medial or lateral border of patella from superior pole of patella to upper 1/3 of patellar tendon, knee should be in 5-30 degrees of flexion, choice to go medial or lateral is based of mobility of patella in either direction, identify starting point and ream as detailed below, suprapatellar nailing (transquadriceps tendon), easier positioning if additional instrumentation needed, more advantageous for proximal or distal 1/3 tibia fractures, starting guidewire is placed in line with medial aspect of lateral tibial spine on AP radiograph, just below articular margin on lateral view, in proximal 1/3 tibia fractures starting point should cheat laterally to avoid classic valgus/procurvatum deformity, ensure guidewire is aligned with tibia in coronal and sagittal planes as you insert, opening reamer is placed over guidewire and ball-tipped guidewire can then be passed, spanning external fixation (ie.
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