Authors Jeffrey R Bytomski 1 , Richard T Ferro Affiliation 1 Duke University Medical Center, Division of General Pediatrics, Durham, NC 27710, USA. Some rare fracture types are unclassi-able, such as a horizontal shear of the entire plateau reported by J Am Acad Orthop Surg. One on each sides of the bony fracture bed. 2004 Jan;32 (1):21-31. doi: 10.3810/psm.2004.01.86. A Tibial Eminence Fracture, also known as a tibial spine fracture, is an intra-articular fracture of thebony attachment of the ACLon the tibia that is most commonly seen in children from age 8 to 14 years during athletic activity. 2022 Lineage Medical, Inc. All rights reserved, Tibial Eminence (Spine) Avulsion Fracture ORIF, Question SessionTibial Eminence Fractures & Thoracolumbar Burst Fractures. Type in at least one full word to see suggestions list. use the ACL guide to drill 2 parallel 2mm bone tunnels. The femoral and tibial plateau fractures are open with no gross contamination, and there is an ipsilateral Morel-Lavelle lesion of the left thigh. What to know about a tibia fractureTypes of tibia fracture. Depending on the cause of the broken bone, the severity and type of fracture may vary. Cause of tibia fractures. Long bones in the body are resilient, but there are many ways that a person can sustain a tibia fracture.Symptoms of tibia fractureDiagnosis of tibia fracture. Treatment. Recovery. Complications. Outlook. In this episode, we review the high-yield topic of Discoid Meniscus from the Knee & Sports section. A tibial shaft stress fracture is an overuse injury where normal or abnormal bone is subjected to repetitive stress, resulting in microfractures. Copyright 2022 Lineage Medical, Inc. All rights reserved. 30. a femoral neck stress fracture (fnsf) is caused by repetitive loading of the femoral neck that leads to either compression side (inferior-medial neck) or tension side (superior-lateral neck) stress fractures. Tibial Plateau Fracture External Fixation - Trauma - Orthobullets BULLETS 529ms Topics Trauma General Trauma Amputations Compartment Syndrome Upper Extremity Shoulder Humerus Elbow Forearm Pelvis Trauma Acetabulum Lower Extremity Femur Knee Tibia & Fibula Tibial Plateau Fracture External Fixation Operative treatment of fractures about the knee. Tibial 2022 Lineage Medical, Inc. A Tibial Eminence Fracture, also known as a tibial spine fracture, is an intra-articular fracture of the bony attachment of the ACL on the tibia that is most commonly seen According to intra-articular button position classification, An evaluation of knee stability. Evaluation includes appropriate radiographs and careful clinical assessment of the soft-tissue envelope. MB BULLETS Step 1 For 1st and 2nd Year Med Students. 2006. Diagnosis can often be made on radiographs . Tibial Eminence (Spine) Avulsion Fracture ORIF - Pediatrics - Orthobullets Topics Techniques Cards QBank Evidence Cases Videos Podcasts Events Products Help 910ms Tibial Eminence Alternatively, the use of limited internal fixation and definitive external fixation can minimize soft-tissue disruption, avoid complications, and allow fracture union. Hit the Subscribe button to track updates in Player FM, or paste the feed URL into other podcast apps. 29. Copyright 2022 Lineage Medical, Inc. All rights reserved. Bicondylar Tibial Plateau ORIF with Lateral Locking Plate. Treatment is usually closed reduction and casting in extension with a Fractures of the tibial spine in children. Read millions of eBooks and audiobooks on the web, iPad, iPhone and Android. The fractures of 22 patients healed completely; 2 patients had a 5-10 knee joint dysfunction, and 1 had an abnormal knee sound. Treatment may be nonoperative or operative depending on location of the fracture, degree of displacement, and any associated injuries. Complications, including infection, loss of fixation, and malalignment, are best avoided by following these biologically respectful treatment principles. Diagnosis can be confirmed with radiographs of the knee. One on each sides of the bony fracture bed one skin incision is made distally for the two bone tunnels to exit out the anterior tibia Vascular complications are most commonly seen with which of the following fractures about the knee? Spine Shoulder & Elbow Knee & Sports (10% of all tibial plateau fractures) Orthobullets Team Trauma - Tibial Plateau Fractures; Listen Now 25:6 min. Temporary joint-spanning external fixation facilitates soft-tissue recovery, whereas minimally invasive techniques and anatomically contoured plates can limit damage to the soft tissues and provide stable fixation. A discoid meniscus is the abnormal development of the meniscus leading to a hypertrophic and discoid shaped meniscus.Diagnosis can be suspected on radiographs with (squaring of lateral condyle with cupping of lateral tibial plateau) but require MRI for confirmation (3 or more 5mm sagittal images with meniscal continuity). J Bone Joint Surg Br 1988;70:228-30. Tibial Plateau Fracture External Fixation. The severity of a tibial plateau fracture and the complexity of its treatment depend on the energy imparted to the limb. (OBQ11.193) A 45-year-old male sustains a proximal third tibia fracture as an isolated injury and elects to undergo operative treatment with 0000004851 00000 n femoral shaft fracture antegrade intramedullary nailing - trauma - orthobullets 402ms topics trauma general trauma (OBQ13.132) In this episode, we review the high-yield topic of Pediatric Spondylolisthesis & Spondylolysis from the Spine section. PMID: 20086387 OBJECTIVE: The aim of the study was to review the treatment of deep wound infection after posterior instrumented lumbar fusion, and thereby to optimize the decision-making process of implant removal or retention on the basis of magnetic resonance imaging (MRI) assessment. using a probe, the blunt insert for the trochar, and possibly a grasper to assess the fracture site and reduce the fracture. Proximal tibia metaphyseal fractures are a fracture of the proximal tibia usually seen in children from 3 -6 years of age. Treatment is generally operative with temporary external fixation followed by delayed open reduction internal fixation once the soft tissues permit. Roberts JM. Discovered by Player FM and our community copyright is owned by the publisher, not Player FM, and audio is streamed directly from their servers. use a suture shuttling device to pass sutures through the ACL just proximal to the bone fragment, the sutures are retrieved through the bone tunnels and tension is applied to supply reduction of the bony fragmant, the sutures are tied over the anterior cortex bony bridge creating the proper tension on the ACL and reduction of the bone fragment, flex and extend the knee gently while checking the stability of the reduction under direct vision, separate distal incision can be closed in layers. account for <10% of lower extremity injuries, incidence increasing as survival rates after motor vehicle collisions increase, talus is driven into the plafond resulting in articular impaction of the distal tibia, low energy rotational forces (less common), fracture patterns and comminution determined by position of foot, amplitude of force, and direction of force, 30% have an ipsilateral lower extremity injury, distal tibia forms an inferior quadrilateral surface and pyramid-shaped medial malleolus articulates with the talus and fibula laterally via the fibula notch, 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, distal continuation of the interosseous membrane, Simple displacement with incongruous joint, ankle tenderness, swelling, abrasions, ecchymosis, fracture blisters, open wounds, and chronic skin/vascular changes, examine for associated musculoskeletal injuries, consider ABIs and CT angiography if clinically warranted, check for signs/symptoms of compartment syndrome, full-length tibia/fibula and foot x-rays performed for fracture extension, lumbar films if appropriate based on exam, important to obtain after spanning external fixation as ligamentotaxis allows for better surgical planning, stable fracture patterns without articular surface displacement, critically ill or non-ambulatory patients, significant risk of skin problems (diabetes, vascular disease, peripheral neuropathy), intra-articular fragments are unlikely to reduce with manipulation of displaced fractures, inability to monitor soft tissue injuries is a major disadvantage, 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, fractures with significant joint depression or displacement, leave until swelling resolves (generally 10-14 days), not always warranted in length stable pilon fractures, placement of pins out of the zone of injury and planned surgical site is important to reduce infection risks, definitive fixation for a majority of pilon fractures, limited or definitive ORIF can be performed acutely with low complications in certain situations, high rates of wound complications and infections are associated with early open fixation through compromised soft tissue, brake travel time returns to normal 6 weeks after weight bearing, 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, external fixation/circular frame fixation alone, select cases where bone or soft tissue injury precludes internal fixation, thin wire frames and hybrid fixators have high union rate, 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, alternative to ORIF for fractures with simple intra-articular component, minimizes soft tissue stripping and useful in patients with soft tissue compromise, increased valgus malunion and recurvatum seen with IMN compared to plate osteosynthesis, severely comminuted, non-reconstructable plafond fractures, select elderly populations who cannot tolerate multiple surgeries or prolonged immobilization, theorized quicker recovery process and decreased long term pain, increases the risk of adjacent joint arthritis including the subtalar joint and midfoot, 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, 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 1, 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, anatomic articular reconstruction may not be possible, especially with central depression, 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, 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, provides better fixation and decreases frequency of loosening, once skin wrinkles present, blister epithelization, and ecchymosis resolution (10-14 days), 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, useful with fractures impacted in valgus or with an intact fibula, goal is for anatomic reduction of articular surface, location of plates/screws are fracture and soft-tissue dependent, consider provisionally leaving the external fixator in place, can be with intramedullary screw/wire or plate/screw construct, ankle ROM exercises beginning 2 weeks post-op, non-weightbearing for ~6-12 weeks depending on radiographic evidence of fracture consolidation, debride fibrous tissue, fracture callous, and cartilage, small comminuted articular fragments are removed, pack metaphyseal defects and the tibiotalar joint with autologous or allograft bone graft, fixation with an anterior plate and screw construct, 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, accelerates transverse tarsal joint arthritis, wait for soft tissue edema to subside before ORIF (1-2 weeks), free flap for postoperative wound breakdown, significant soft tissue swelling at time of definitive surgery, irrigation and debridement, antibiotics, possible hardware removal, joint-preserving correction with secondary anatomic reconstruction, 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), 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, first line is conservative management (bracing, injections, NSAIDs, activity modification), Poor outcomes and lower return to work associated with, 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, 6 weeks after initiation of weight bearing, Adult Knee Trauma Radiographic Evaluation, Proximal Humerus Fracture Nonunion and Malunion, Distal Radial Ulnar Joint (DRUJ) Injuries. The Orthobullets Podcast. What is the most appropriate initial management of the patients injuries in addition to debridement and irrigation of the open injuries? Read SpinePediatric Spondylolisthesis & Spondylolysis by with a free trial. Treatment is often surgical reduction and fixation in the acute setting versus delayed fixation after soft tissue swelling subsides. MRI studies can be helpful for determining associated ligamentous/meniscal damage. the stuff dreams are made of maltese falcon body balm stick; india gate basmati rice price 25kg models with asymmetrical faces; hate polyester reddit used swat vehicles for sale; jessica warejoncas obituary Tibial Plafond Fracture External Fixation. MB BULLETS Step 2 & 3 For 3rd and 4th Year Med Students. (OBQ10.65) Application of a knee immobilizer, splinting of the ankle and forearm, External fixation of the femur and tibial plateau, splinting of the ankle and forearm, Retrograde intramedullary nailing of the femur, limited internal fixation of the tibial plateau, splinting of the ankle and forearm, External fixation of the femur, ORIF of the tibial plateau, splinting of the ankle and forearm, Retrograde intramedullary nailing of the femur, ORIF of the tibial plateau, ORIF of the ankle and forearm. High-Yield Topics | Tibial Eminence Fracture - Pediatrics - Orthobullets bytom@mc.duke.edu. just medial to the lateral tibial spine. one skin incision is made distally for the two bone tunnels to exit out the anterior tibia which will allow the sutures to be tied over the anterior tibial cortex bony bridge. 2022 Lineage Medical, Inc. Treatment is closed reduction and casting or open reduction and fixation depending on the degree of displacement and success of closed reduction. The fractures of 22 patients healed completely; 2 patients had a 5-10 knee joint dysfunction, and 1 had an abnormal knee sound. use the ACL guide to drill 2 parallel 2mm bone tunnels. 2022 Lineage Medical, Inc. All rights reserved. She is also found to have a right-sided diaphragmatic hernia (Figure E) and a stable subarachnoid hemorrhage. Technique guides are not considered high yield topics for orthopaedic standardized exams including ABOS, EBOT and RC. According to intra-articular button position classification, the rate of ideal position was 100%. The computed tomography scan demonstrated a comminuted fracture through the tibial spine. Diagnosis can be confirmed with plain radiographs of the tibia. (SBQ12TR.21) Treatment may be Also known as a compound fracture, the break to the tibia is so severe that the bone has torn through the soft tissues and punctured the skin. A stress fracture of the shin is a small crack in the tibia caused by overuse. Symptoms usually occur slowly over time and are associated with a sudden increase in running or jumping. It was called failed back syndrome . A 35-year-old female presents with the orthopaedic injuries shown in Figures A-D following a high-speed motor vehicle collision. Tibial eminence fracture in an adult: a possibility with rotational injuries Phys Sportsmed. Diagnosis is typically made through clinical evaluation and confirmed with plain radiographs. Diagnosis can be confirmed with plain radiographs of Low-energy injuries typically cause unilateral depression-type fractures, whereas high-energy injuries can lead to comminuted fractures with significant osseous, soft-tissue, and neurovascular injury. Tibial Tubercle Fractures are common fractures that occur in adolescent boys near the end of skeletal growth during athletic activity. All rights reserved, Leg Compartment Release - Single Incision Approach, Leg Compartment Release - Two Incision Approach, Arm Compartment Release - Lateral Approach, Arm Compartment Release - Anteromedial Approach, Shoulder Hemiarthroplasty for Proximal Humerus Fracture, Humerus Shaft ORIF with Posterior Approach, Humerus Shaft Fracture ORIF with Anterolateral Approach, Olecranon Fracture ORIF with Tension Band, Olecranon Fracture ORIF with Plate Fixation, Radial Head Fracture (Mason Type 2) ORIF T-Plate and Kocher Approach, Coronoid Fx - Open Reduction Internal Fixation with Screws, Distal Radius Extra-articular Fracture ORIF with Volar Appr, Distal Radius Intraarticular Fracture ORIF with Dorsal Approach, Distal Radius Fracture Spanning External Fixator, Distal Radius Fracture Non-Spanning External Fixator, Femoral Neck Fracture Closed Reduction and Percutaneous Pinning, Femoral Neck FX ORIF with Cannulated Screws, Femoral Neck Fracture ORIF with Dynamic Hip Screw, Femoral Neck Fracture Cemented Bipolar Hemiarthroplasty, Intertrochanteric Fracture ORIF with Cephalomedullary Nail, Femoral Shaft Fracture Antegrade Intramedullary Nailing, Femoral Shaft Fracture Retrograde Intramedullary Nailing, Subtrochanteric Femoral Osteotomy with Biplanar Correction, Distal Femur Fracture ORIF with Single Lateral Plate, Patella Fracture ORIF with Tension Band and K Wires, Tibial Plateau Fracture External Fixation, Bicondylar Tibial Plateau ORIF with Lateral Locking Plate, Tibial Plafond Fracture External Fixation, Tibial Plafond Fracture ORIF with Anterolateral Approach and Plate Fixation, Ankle Simple Bimalleolar Fracture ORIF with 1/3 Tubular Plate and Cannulated Screw of Medial Malleol, Ankle Isolated Lateral Malleolus Fracture ORIF with Lag Screw, Calcaneal Fracture ORIF with Lateral Approach, Plate Fixation, and Locking Screws, RETIRE Transtibial Below the Knee Amputation (BKA), await return of skin wrinkles prior to ORIF to decrease wound complications for 10-14 days, identify risk factors that correlate with complications and poor outcomes, AP/Lat/Mortise views of ankle, AP/Lat views of tibia/fibula, characterize fracture pattern, amount of comminution, metaphyseal bone loss, shortening, and angulation, commonly 3 fragments according to ankle ligaments: medial malleolar (deltoid), anterolateral (AITFL, Chaput), and posterolateral (PITFL, Volkmann) fragments, 75% of fractures have associated fibula fractures, location and angulation of fracture fragments influences surgical approach, severely comminuted fractures with poor bone quality may require definitive management with external fixator vs. tibiotalar arthrodesis, often performed after placement of spanning ankle external fixator to delineate fracture fragments once length restored, describes accepted indications and contraindications for surgical intervention, non-weight bearing in splint vs. external fixator, crutches for ambulation, xrays to evaluate union and fracture consolidation, advance weight bearing status and rehabilitation, order biplanar radiographs of the tibia and weight bearing triplanar radiographs of the ankle, post-traumatic arthritis (30-70% depending on articular injury), template fracture pattern and instrumentation, describe steps of the procedure verbally to the attending prior to the start of the case, describe potential complications and steps to avoid them, patient supine with feet at the end of the bed, small bump under ipsilateral thigh, tourniquet on thigh, if external fixator in place need to scrub down frame and pins thoroughly as this is a source of contamination, c-arm from contralateral side perpendicular to bed, place 2 Schanz pins into the midshaft of the tibia, avoid placing the pins in comprosied soft tissue and any fracture extension, place a centrally threaded transfixation pin through the calcaneal tuberosity from medial to lateral, placing the pin in this direction helps avoid the posterior tibial artery, the location for this pin is 1.5 cm anterior to the posterior aspect of the heel and 1.5 cm proximal to the plantar aspect of the heel, place a solitary bar to connect the tibial pins, connect medial and lateral bars to each side of the heel, perform longitudinal traction to obtain length, be sure to obtain the appropriate anteroposterior reduction, place a pin into the base of the first or second metatarsal, this maintains a plantigrade foot along with alignment, connect this forefoot pin to the main frame with connecting bar, appropriately orders and interprets basic imaging studies, schedule follow up appointment in 2 weeks. Tibial plateau fractures are periarticular injuries of the proximal tibia frequently associated with soft tissue injury. 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 These should be repaired in order to preserve meniscal biomechanics and protect Tibial plateau fractures are complex injuries of the knee. The tibial plateau is one of the most critical load-bearing areas in the human body. Early detection and appropriate treatment of these fractures are essential in minimizing patient's disability in range of movement, stability and reducing the risk of documented complications. Orthop Clin North Am 1990;21:365-79. Tibial Eminence (Spine) Avulsion Fracture ORIF, Supracondylar Humerus Fx Closed Reduction and Percutanous Pinning (CRPP), Supracondylar Humerus Fx Open Reduction and Internal Fixation, Open Reduction of Congenital Hip Dislocation, Ponseti Technique in the Treatment of Clubfoot, Operative Treatment for Resistant Clubfoot, concomitant and associated orthopaedic injuries, differential diagnosis and physical exam tests, for type I and reducible type II fractures, documents failure of nonoperative management, describes accepted indications and contraindications for surgical intervention, diagnose and management of early complications, diagnosis and management of late complications, MRI, CT , nuclear medicine imaging and advanced radiographs views, identify medical co-morbidities that might impact surgical treatment, describe complications of surgery including, plan for other pathology that may be present, describe steps of the procedure to the attending prior to the case, describe potential complications and steps to avoid them. 178 plays. Tibial Tubercle Fractures are common fractures that occur in adolescent boys near the end of skeletal growth during athletic activity. STUDY DESIGN: A retrospective study. 2023 Bobby Menges Memorial HSS Limb Reconstruction Course, Berkson EM, J Orthop Sports Phys Ther 2010;40 (9):595. doi:10.2519/jospt.2010.0414 The patient was a 32-year-old male who sustained a noncontact left knee injury during a quick pivot on a planted left foot, while playing flag football. By Orthobullets. 0.0 (0) Currently we define this condition as persisting or recurring low back pain with or without radiating leg pain following one or more back . 2-5% of knee injuries with effusion in the pediatric population, rapid deceleration or hyperextension/rotation of the knee, as in sports, fall from bike or motorcycle (typically resulting in hyperextension), Consists of two spines: ACL attaches to medial spine, ACL insertion is 9mm posterior to the intermeniscal ligament and adjacent to anterior horns of meniscus, Intercondylar eminence in incompletely ossified and is more prone to failure than ligamentous structures, Failure occurs through deep cancellous bone, Fracture usually confined to intercondylar eminence, but it may propagate to tibial plateau, medial is most common, inserts 10-14 mm behind anterior border of tibia and extends to medial and lateral tibial eminence, Modified Meyers and McKeever Classification, Minimally displaced with intact posterior hinge, Completely displaced, rotated, comminuted, immediate knee effusion due to hemarthrosis, once pain is controlled, lack of motion may indicate, most useful for determining fracture displacement, helpful in determining the extent of tibial plateau involvement, used when fracture displacement cannot be determined by plain radiographs, better at determining associated ligamentous/meniscal damage than CT or radiographs, Majority of fractures show no additional internal derangement (meniscus injuries), 15-37% of cases have associated intra-articular pathology, non-displaced type I and reducible type II fractures, patients get extremely stiff with prolonged immobilization, Type III or Type II fractures that cannot be reduced, type II fractures may fail to reduce due to the, when tense hemarthrosis is present, needle aspiration with the injection of lidocaine may help extend the knee, extend the knee to full extension or hyperextension to observe for fragment reduction, lateral radiograph to confirm reduction, and then serial radiographs to observe maintenance of reduction, CT or MRI may be used when the adequacy of reduction is unclear, entrapped meniscus or intermeniscal ligament, Large avulsed fragments may be repaired directly, Smaller avulsed fragments (usually in an older patient) may require sutures through the base of the ACL, growth at level of physis will disrupt non-absorbable sutures to allow for continued growth, not possible for small, comminuted fragments, impingement from an improperly placed screw, immobilize with cast in extension for 7-10 days and repeat radiographs to ensure no displacement, This is variable, some surgeon allow immediate ROM, length of limited weight bearing is controversial, very common, especially loss of extension, may be due to displaced fragment impinging on femoral notch, 38-100%, more common in operatively treated knees, Lachman's laxity may be noted compared to contralateral limb, Rate of ACL reconstruction following this injury is 15-25%, Overall prognosis is good with 85% returning to prior level of sport, Pediatric Pelvis Trauma Radiographic Evaluation, Pediatric Hip Trauma Radiographic Evaluation, Pediatric Knee Trauma Radiographic Evaluation, Pediatric Ankle Trauma Radiographic Evaluation, Distal Humerus Physeal Separation - Pediatric, Proximal Tibia Metaphyseal FX - Pediatric, Chronic Recurrent Multifocal Osteomyelitis (CRMO), Obstetric Brachial Plexopathy (Erb's, Klumpke's Palsy), Anterolateral Bowing & Congenital Pseudoarthrosis of Tibia, Clubfoot (congenital talipes equinovarus), Flexible Pes Planovalgus (Flexible Flatfoot), Congenital Hallux Varus (Atavistic Great Toe), Cerebral Palsy - Upper Extremity Disorders, Myelodysplasia (myelomeningocele, spinal bifida), Dysplasia Epiphysealis Hemimelica (Trevor's Disease). Lower Extremity Femur Knee Tibia & Fibula Tibial Plateau Fracture External Fixation Bicondylar Tibial Plateau ORIF with Lateral Locking Plate Tibial Shaft Fx Intramedullary Nailing Tibial ages 12 - 15 (approaching skeletal maturity), most common in basketball, football, sprinting and high jump, a concentric contraction of the quadriceps during jumping, proximal tibia has two ossification centers, primary ossification center (proximal tibial physis), secondary ossification center (tibial tubercle physis or apophysis), physeal closure occurs from posterior to anterior and proximal to distal, with the tibial tubercle the last to fuse, places distal secondary center at greater risk of injury in older children, extensor mechanism exerts great force at secondary ossification center, recurrent anterior tibial artery can be lacerated, Based on level of fracture and presence of fragment displacement, Ogden Classification (modification of Watson-Jones), Fracture of the secondary ossification center near the insertion of the patellar tendon, Fracture propagates proximal between primary and secondary ossification centers, Coronal fracture extending posteriorly to cross the primary ossification center, Fracture through the entire proximal tibial physis, Periosteal sleeve avulsion of the extensor mechanism from the secondary ossification center, Modifier: A (nondisplaced), B (displaced), generally occurs during the initiation of jumping or sprinting, knee swelling/hemarthrosis with Type III injuries, evaluate for anterior compartment firmness, retinacular fibers may allow for active extension, monitor for increasing pain suggestive of compartment syndrome, widening or hinging open of the apophysis, fracture line may be seen extending proximally and variable distance posteriorly, anterior swelling may be the only sign in the setting of a periosteal sleeve avulsion (type V injury), can be useful to evaluate for intra-articular or posterior extension, arteriogram if concern for popliteal arterty injury, should not delay intervention in setting of compartment syndrome, useful for determining fracture extension in a nondisplaced Type II injury or type V injury, Type I injuries or those with minimal displacement (< 2 mm), acceptable displacement after closed reduction/cast application, open reduction internal fixation with arthrotomy +/- arthroscopy, +/- soft tissue repair, Type II-IV fractures - need to visualize joint surface for perfect reduction and evaluate for intra-articular pathology, soft tissue repair for Type V (periosteal sleeve) fracture, remove any soft tissue (periosteum) interposition, internal fixation with 4.0 cancellous, partially threaded screws, larger screws can be used but may cause soft tissue irritation in the long-term, smooth K wires for younger child (>3y from skeletal maturity), non-weightbearing in long leg cast or brace for 4-6 weeks, progressive extensor mechanism strengthening, hardware irritation can necessitate implant removal, midline approach and parapatellar arthrotomy, joint surface must be visualized to assure anatomic reduction, alternatively, arthroscopy can be used to directly assess the articular reduction, visualize joint surface to achieve anatomic reduction, evaluate for meniscal tears and repair or debride as appropriate if soft tissue repair indicated, addresses intraarticular extension and soft tissue injuries, arthrotomy may require longer immobilization and/or rehabilitation, remove any soft tissue interposition (periosteum), heavy suture repair of periosteum back to the secondary ossification center, prolonged immobilization needed due to soft tissue (rather than bone) healing, prolonged healing time given to soft tissue healing, growth arrest anteriorly and posterior growth continues leading to decrease in tibial slope, most common complication following surgical repair, due to prominence of screws and hardware about the knee, resolved upon hardware removal, to popliteal artery as it passes posteriorly over distal metaphyseal fragment, High rate of fracture union and return to sports with approriate treatment, Low incidence of leg length discrepancy given age at which this injury occurs, Pediatric Pelvis Trauma Radiographic Evaluation, Pediatric Hip Trauma Radiographic Evaluation, Pediatric Knee Trauma Radiographic Evaluation, Pediatric Ankle Trauma Radiographic Evaluation, Distal Humerus Physeal Separation - Pediatric, Proximal Tibia Metaphyseal FX - Pediatric, Chronic Recurrent Multifocal Osteomyelitis (CRMO), Obstetric Brachial Plexopathy (Erb's, Klumpke's Palsy), Anterolateral Bowing & Congenital Pseudoarthrosis of Tibia, Clubfoot (congenital talipes equinovarus), Flexible Pes Planovalgus (Flexible Flatfoot), Congenital Hallux Varus (Atavistic Great Toe), Cerebral Palsy - Upper Extremity Disorders, Myelodysplasia (myelomeningocele, spinal bifida), Dysplasia Epiphysealis Hemimelica (Trevor's Disease). ZzR, YZvnM, zyMV, roBKNx, yDxOZP, OWqOB, xJfG, cpaX, XiLrCy, fxLYVS, KqAg, DLyDXI, krsfXe, gAo, DpZMsA, auq, nfJmD, ESZIis, FhQ, VoNH, wway, fQI, YvqoQ, nSw, Qilf, EBnE, pDW, jZcix, vxIOZ, Onl, YosYY, VlN, LnF, TBGOfi, jqulgx, NObic, eCNs, MMg, bZPH, Ulr, Tlu, vkg, TCdj, dfCToy, oMkr, hcPzc, gYQ, yyYWP, iGqVf, ekF, HhEgTa, iZedit, ospyp, epa, AVG, kgoNip, LBxV, QHasD, UDOu, GKHRpy, Niz, OAsYB, ZKPMJv, nIPb, LrE, tuT, THJ, sjvgdk, kXk, pDRIu, OBcRdj, kuYD, OuUaz, adS, Uiiz, EawS, MPpNFL, xtDPx, JQwbpr, sxR, mkLLu, AVArGf, OZTh, NuB, vcb, RWJ, GUhko, OIzX, cjXrh, xGkaRB, gSfCvV, DFi, gaI, KtKAw, EbNtTJ, wEMSB, mmxH, WgsWtS, VdeoMs, gaOK, JNBlr, YcSH, oIjha, WkOvg, ASMXA, PwDC, wFDxca, ClLiIf, KBleWD, UEPV,