Summary Tibial Plateau fractures are periarticular injuries of the proximal tibia frequently associated with soft tissue injury. Diagnosis is made with knee radiographs but frequently require CT scan for surgical planning. Treatment is often ORIF in the acute setting versus delayed fixation after soft tissue swelling subsides. Epidemiology Incidence 1-2% of all fractures 10.3 per 100,000 people annually Demographics mean age 52 bimodal distribution males in 40s (high-energy trauma) females in 70s (low energy falls) Location lateral plateau 70-80% bicondylar 10-30% medial plateau 10-20% Etiology Mechanism Vector of applied load, amount of energy, and quality of bone determine type of fracture valgus load lateral plateau varus load medial plateau axial load bicondylar combination fracture dislocation high energy usually medial-sided plateau fractures frequently associated with soft tissue injuries low energy usually lateral plateau fractures Associated conditions meniscal tears lateral meniscal tear more common than medial associated with Schatzker II fracture pattern associated with >10mm articular depression associated with >6mm condylar widening medial meniscal tear most commonly associated with Schatzker IV fractures ACL injuries more common in type IV and VI fractures (25%) compartment syndrome associated soft tissue injuries have little bearing on final outcomes neurovascular injury commonly associated with Schatzker IV fracture-dislocations common peroneal nerve is most common nerve injury Anatomy Osteology lateral tibial plateau convex in shape proximal to the medial plateau less dense bone medial tibial plateau concave in shape distal to the lateral tibial plateau alignment of proximal tibia posterior tibial slope 6-10 deg varus slope 3 deg relative to mechanical axis of tibia Ligaments ACL inserts anteriorly between tibial spines primary restraint against anterior tibial translation secondary stabilizer of tibial rotation PCL inserts on posterior tibial sulcus below articular surface primary restraint to posterior tibial translation MCL two components superficial MCL broad insertion on proximal tibia deep to pes anserinus primary stabilizer of valgus stress deep MCL attaches to medial meniscus secondary stabilizer to valgus stress LCL inserts on anterolateral aspect of fibular head primary restraint to varus stress at 30 deg Meniscus lateral meniscus covers larger portion of articular surface more mobile easier to assess articular surface laterally through submeniscal arthrotomy due to mobility of meniscus medial meniscus less mobile due to coronary ligaments Muscles 4 compartments in lower leg anterior compartment lateral compartment superficial posterior deep posterior Tendons patellar tendon inserts anteriorly on tibial tubercle iliotibial band inserts on anterolateral aspect of proximal tibia at Gerdy's tubercle hamstring tendons pes anserine insert on anteromedial aspect of proximal tibia Neurovascular structures popliteal artery runs just posterior to knee capsule and bifurcates anterior tibial artery posterior tibial artery tibial nerve courses posteriorly along with popliteal artery sensory: plantar aspect of foot motor: innervates posterior compartments which control ankle plantarflexion and inversion of foot common peroneal nerve course around fibular neck two branches superficial peroneal nerve sensory: dorsum of foot (except first dorsal webspace) motor: innervates lateral compartment which controls ankle eversion deep peroneal nerve sensory: first dorsal webspace of foot motor: innervates anterior compartment which controls ankle dorsiflexion Biomechanics medial tibial condyle bears 60% of load through knee lateral tibial condyle bears 40% of load through knee Kinematics flexion-extension 0-140 degrees functional ROM for walking 0-70 degrees posterior femoral rollback screw-home mechanism medial tibial plateau is concave creating a pivot point lateral plateau is convex allowing for rollback of femur during flexion net effect influences amount of terminal knee flexion tibia externally rotates with knee extension Classification Schatzker classification Schatzker Classification Type I Lateral split fracture young patient with strong subchondral bone Type II Lateral Split-depressed fracture most common Type III Lateral Pure depression fracture uncommon, elderly osteoporotic Type IV Medial plateau fracture associated fx-dislocation high rate of NV and ligamentous injuries Type V Bicondylar fracture tibial spines remain continuous with shaft Type VI Metaphyseal-diaphyseal disassociation significant soft-tissue injury Hohl and Moore Classification Useful for true fracture-dislocations fracture patterns that do not fit into the Schatzker classification (10% of all tibial plateau fractures) fractures associated with knee instability Hohl and Moore Classification of proximal tibia fracture-dislocations Type I Coronal split fracture Type II Entire condylar fracture Type III Rim avulsion fracture of lateral plateau Type IV Rim compression fracture Type V Four-part fracture 3-column concept tibial plateau divided into 3 columns medal column lateral column posterior column utility includes posterior plateau fractures that are not considered in Schatzker classification helps determine fixation strategy Presentation History mechanism of injury high-energy vs low-energy unable to bear weight after injury baseline functional status comorbidities Physical exam inspection look circumferentially to rule-out an open injury assess soft-tissues for timing of operative intervention palpation evaluate for compartment syndrome varus/valgus stress testing any laxity >10 degrees indicates instability often difficult to perform or deferred in acute setting given pain stability assessed in full extension neurovascular exam perform ankle-brachial index if any asymmetry in pulses ABI <0.9 proceed with arteriogram assess tibial and common peroneal nerve function Imaging Radiographs recommended views AP lateral oblique oblique is helpful to determine amount of depression optional views plateau view 10 degree caudal tilt to match posterior tibial slope findings on AP depressed articular surface sclerotic band of bone indicating depression abnormal joint alignment fracture plane involving medial/lateral plateau on lateral posteromedial fracture lines must be recognized abnormal tibial slope CT scan indication negative radiographs with high index of suspicion for tibial plateau fracture preoperative planning obtain after ex-fix if definitive fixation delayed if soft-tissues are not amenable for surgery findings articular depression degree of comminution fracture plane and location posterior coronal split fracture best appreciated on axial and sagittal views lipohemarthrosis indicates an occult fracture MRI indications not well established identify meniscal and ligamentous pathology occult fractures DIFFERENTIAL Distal femur fracture Knee dislocation Patella instability Patella fracture Patella tendon rupture Quadriceps tendon rupture ACL tear Meniscus tear Treatment Nonoperative closed reduction / immobilization indications minimally displaced split or depressed fractures low energy fracture stable to varus/valgus alignment nonambulatory patients significant comorbidites that preclude surgical intervention modalities patella-tendon-bearing (PTB) cast knee immobilizer hinged knee brace Operative ORIF (acute vs staged) indications articular depression > 5-10 mm condylar widening > 5mm varus/valgus instability >10 deg medial plateau fractures bicondylar fractures timing acute ORIF lower-energy fractures with mild swelling temporizing knee-spanning external fixation w/ delayed ORIF significant soft tissue injury/swelling polytrauma outcomes restoration of joint stability is strongest predictor of long-term outcomes postoperative infection after ORIF associated with male gender smoking pulmonary disease bicondylar fracture patterns intraoperative time over 3 hours timing of definitive fixation (before, during or after) relative to fasciotomy closure does not increase the risk of infection worse results with ligamentous instability meniscectomy alteration of limb mechanical axis > 5 degrees external fixation/Ilizarov +/- limited open/percutaneous fixation of articular segment indications severe open fracture with marked contamination highly comminuted fractures where internal fixation not possible outcomes higher malunion rates arthroplasty indications consider in patients >65-years-old with osteoporotic bone outcomes earlier time to weight bearing improved outcomes for primary TKA compared to TKA for failed ORIF Techniques Closed reduction / immobilization technique NWB or PWB in a hinged-knee brace for 8-12 weeks early passive ROM is important to maintain motion Knee-spanning external fixation (temporary) technique place pins outside area of planned definitive fixation two 5-mm half-pins in femur and two in tibia shaft axial traction applied to fixator indirect reduction of fracture through ligamentotaxis fixator is locked in slight flexion to avoid tensioning posterior NV structures advantages allows soft tissue swelling to decrease before definitive fixation decreases rate of infection and wound healing complications restores length and alignment which helps to better characterize fracture on preop CT findings transient increase in leg compartment pressures during external fixator placement not been shown to increase risk of compartment syndrome External fixation with limited internal fixation (definitive) technique reduce articular surface either percutaneously or through small incisions stabilize reduction with percutaneous lag screws or wires must keep wires >14mm from joint to avoid intracapsular pin placement pros minimizes soft tissue insult cons pin site complications arthrofibrosis incidence as high as 15% after temporizing external fixator high malunion rates Open reduction internal fixation goals restore alignment coronal sagittal tibial slope normal condylar width congruent articular surface stable knee minimize additional soft tissue trauma approach anterolateral approach (most common) supine lazy S or hockey stick incision centered over Gerdy's tubercle elevate anterior compartment musculature and IT band submeniscal arthrotomy to assess articular surface and meniscus tear posteromedial incision supine with leg in figure-4 or prone interval between pes anserinus and medial head of gastrocnemius can be extensile and access posterolateral column release medial head of gastrocnemius off femur elevate soleus and popliteus articular surface not routinely visualized directly fluoroscopically or arthroscopically posterolateral approach prone or lateral biceps and peroneal nerve retracted lateral lateral gastroc and soleus retracted medial fibular neck osteotomy posterolateral access infrequently used due higher risk of NV complication posterior can be used for posterior shearing fractures midline incision (if planning TKA in future) can lead to significant soft tissue stripping and should be avoided dual surgical incisions with dual plate fixation indications bicondylar tibial plateau fractures reduction assess reduction submeniscal arthrotomy fluoroscopically arthroscopically depressed fragments open fracture split and elevate ("open the book") create cortical window and elevated with bone tamps fill metaphyseal void three main options autograft (ICBG - rare) allograft (cancellous chips) bone graft substitutes calcium phosphate cement high compressive strength for filling metaphyseal void less subsidence than ICBG osteoconductive biodegradable highly porous internal fixation absolute stability constructs should be used to maintain the joint reduction screws can be used in isolation but often used in conjunction with plate fixation isolated depression simple split fracture options raft screws placed in subchondral bone parallel to joint surface to support elevated articular fragments lag screws placed perpendicular to plane of split fractures plate fixation conventional non-locking plates buttress plates best indicated for partial articular fractures posteromedial fractures simple split peri-articular locking plates fixed angle mitigates risk of varus collapse comminuted fractures osteoporotic bone postoperative hinged knee brace with early passive ROM gentle mechanical compression on repaired osteoarticular segments improves chondrocyte survival NWB or PWB for 8 to 12 weeks Complications Post-traumatic arthritis incidence 25-35% 5-7% undergo TKA at 10+ years risk factors for arthritis meniscectomy malalignment > 5 deg instability risk factors for future TKA age bicondylar fracture increasing comorbidities Compartment syndrome incidence 7-20% risk factors Schatzker type IV high-energy mechanism associated fibula fracture fracture length associated plateau-shaft injury treatment emergent fasciotomy Infection incidence 2-11% risk factors poor surgical timing based on swelling open fractures longer operative time treatment irrigation and debridement + IV abx removal of hardware if loose or grossly infected ex-fix and staged revision ORIF retain hardware if fracture still healing and implant still providing stability Nonunion/malunion incidence 2-4% uncommon due to rich blood supply of cancellous bone risk factors Schatzker type VI (metaphyseal-diaphyseal junction) comminution unstable fixation treatment revision osteosynthesis augmented with bone graft Knee stiffness incidence 10-25% risk factors increasing age higher BMI severity of fracture prolonged immobilization involvement of tibial eminence polytrauma treatment arthroscopic lysis of adhesions with MUA indicated if unable to achieve 90 deg of flexion within 4 weeks Loss of reduction incidence 5-30% risk factors inadequate fixation severity of fracture osteoporosis treatment revision ORIF to address inadequate fixation i.e. posteromedial buttress plate for coronal fracture not captured with lateral plate only Deep vein thromobosis incidence nonoperative 9% operative 6% Prognosis Mortality rate 5% at 1 year Return to work 70-90% at 1 year residual dysfunction or reduced work load is common Mean ROM 10-145 degrees at 1 year
Technique Guide Technique guides are not considered high yield topics for orthopaedic standardized exams including ABOS, EBOT and RC. Bicondylar Tibial Plateau ORIF with Lateral Locking Plate Orthobullets Team Trauma - Tibial Plateau Fractures Technique Guide Technique guides are not considered high yield topics for orthopaedic standardized exams including ABOS, EBOT and RC. Tibial Plateau Fracture External Fixation Orthobullets Team Trauma - Tibial Plateau Fractures
QUESTIONS 1 of 69 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 Previous Next Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (SBQ20TR.18) A 32-year-old male construction worker falls off a roof and lands on his left leg. He noticed immediate pain, deformity, and inability to bear weight. On presentation to the trauma bay, there are no other apparent injuries besides what is depicted in figure A. Physical examination reveals extensive swelling of the left knee with blistering present. What is the most appropriate treatment option for this injury? QID: 215806 FIGURES: A Type & Select Correct Answer 1 External fixation with delayed lateral locked plating 1% (7/1099) 2 External fixation with delayed dual incision dual plating 97% (1061/1099) 3 External fixation with delayed single incision dual plating 1% (13/1099) 4 Splinting with delayed lateral locked plating 0% (2/1099) 5 Splinting with delayed dual incision dual plating 1% (8/1099) L 1 Question Complexity E Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic (OBQ20.56) A 71-year-old female presents to the emergency department with the injury depicted in Figure A after a ground level fall. 5 days later the patient undergoes surgery for this injury. Her postoperative radiographs are depicted in Figure B. Which of the following is true of this treatment modality in this patient? QID: 215467 FIGURES: A B Type & Select Correct Answer 1 Increased risk of implant failure when compared to open reduction internal fixation (ORIF) 2% (22/1165) 2 Earlier return to full weight bearing when compared to ORIF 91% (1058/1165) 3 Decreased risk of arthrofibrosis when compared to primary total knee arthroplasty (TKA) for osteoarthritis 1% (6/1165) 4 Decreased risk of complications when compared to primary TKA for osteoarthritis 0% (4/1165) 5 Higher complication rate compared to TKA performed following ORIF of tibial plateau fractures 5% (62/1165) N/A Question Complexity E Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ18.212) A patient presents with the injury shown in figures A and B. What has been associated with the definitive treatment of this injury with the technique depicted in figures C and D? QID: 213108 FIGURES: A B C D Type & Select Correct Answer 1 Longer operative times 12% (265/2287) 2 Increased deep surgical infection rates 15% (350/2287) 3 Unacceptably high malunion/nonunion rates 32% (732/2287) 4 Slower early return to function 28% (644/2287) 5 Longer hospital stays 12% (282/2287) N/A Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 3 Review Tested Concept Review Full Topic (SBQ18TR.18) A 34-year-old construction worker fell 10-feet from a ladder and landed on a flexed knee. He is now complaining of severe right knee pain and inability to bear weight. On physical examination, there are no open skin lesions and his DP and PT pulses are 2+ and symmetric to the contralateral side. Current imaging is shown in figures A-D. What would be the most appropriate definitive treatment option? QID: 211298 FIGURES: A B C D Type & Select Correct Answer 1 Open reduction with a direct medial approach and locked lateral plating 1% (8/1075) 2 Closed reduction with hybrid external fixation 1% (10/1075) 3 Open reduction with a lateral approach and locked lateral plating 1% (6/1075) 4 Open reduction with a posteromedial approach and buttress plating 95% (1026/1075) 5 Open reduction with a anteromedial approach and anteromedial buttress plating 2% (18/1075) L 1 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 4 Review Tested Concept Review Full Topic (SBQ18TR.21) A 27-year-old sustains a high-speed moped injury and presents with the injury depicted in Figures A through E. Which of the following correctly describes the interval classically exploited for definitive reduction and fixation in the surgical approach for the medial-sided injury? QID: 211331 FIGURES: A B C D E Type & Select Correct Answer 1 Between the superficial MCL and medial head of the gastrocnemius 13% (174/1335) 2 Between the sartorius and soleus 1% (16/1335) 3 Between the gracilis and semitendinosus 4% (52/1335) 4 Between the posterior oblique ligament and soleus 1% (13/1335) 5 Between the pes anserinus and medial head of the gastrocnemius 81% (1076/1335) L 2 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 5 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ16.128) Which of the following is the most significant risk factor for lateral meniscal tears associated with lateral tibial plateau fractures? QID: 8890 Type & Select Correct Answer 1 Age greater than 50 2% (58/2971) 2 Female sex 1% (30/2971) 3 Ipsilateral calcaneus fracture 1% (26/2971) 4 Greater than 10mm of articular depression 91% (2704/2971) 5 Schatzker I fracture pattern 4% (133/2971) L 1 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 4 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ13.156) A 44-year-old female sustains the injury shown in Figures A and B as the result of a motor vehicle collision. She undergoes immediate four compartment leg fasciotomy and placement of a spanning external fixator. A post-fixator CT scan image is shown in Figure C. After allowing her soft tissues to improve, the optimal definitive stabilization of this fracture is which of the following? QID: 4791 FIGURES: A B C Type & Select Correct Answer 1 Continued use of knee-spanning external fixator 1% (72/5288) 2 Conversion of external fixator to a simple hinged knee fixator 2% (99/5288) 3 Conversion to intramedullary nailing 0% (15/5288) 4 Open reduction and internal fixation with a lateral locked plate 1% (47/5288) 5 Open reduction and internal fixation with medial and lateral plates 95% (5031/5288) L 1 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 5 Review Tested Concept Review Full Topic (OBQ13.102) Which of the following injuries is most likely associated with the fracture seen in Figure A? QID: 4737 FIGURES: A Type & Select Correct Answer 1 Medial meniscal tear 1% (49/4850) 2 Lateral meniscal tear 89% (4317/4850) 3 Lateral collateral ligament rupture 3% (144/4850) 4 Medial collateral ligament rupture 6% (281/4850) 5 Posterior cruciate ligament rupture 1% (31/4850) L 2 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic (OBQ13.132) An ankle-brachial index is most commonly indicated after sustaining which of the following fracture patterns, seen in Figures A-E? QID: 4767 FIGURES: A B C D E Type & Select Correct Answer 1 Figure A 0% (17/3923) 2 Figure B 22% (878/3923) 3 Figure C 70% (2759/3923) 4 Figure D 1% (54/3923) 5 Figure E 5% (201/3923) L 2 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 3 Review Tested Concept Review Full Topic (SBQ12TR.21) A 35-year-old female presents with the orthopaedic injuries shown in Figures A-D following a high-speed motor vehicle collision. She is also found to have a right-sided diaphragmatic hernia (Figure E) and a stable subarachnoid hemorrhage. 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 is the most appropriate initial management of the patient’s injuries in addition to debridement and irrigation of the open injuries? QID: 3936 FIGURES: A B C D E Type & Select Correct Answer 1 Application of a knee immobilizer, splinting of the ankle and forearm 2% (33/2105) 2 External fixation of the femur and tibial plateau, splinting of the ankle and forearm 85% (1788/2105) 3 Retrograde intramedullary nailing of the femur, limited internal fixation of the tibial plateau, splinting of the ankle and forearm 7% (150/2105) 4 External fixation of the femur, ORIF of the tibial plateau, splinting of the ankle and forearm 1% (23/2105) 5 Retrograde intramedullary nailing of the femur, ORIF of the tibial plateau, ORIF of the ankle and forearm 5% (95/2105) L 1 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (SBQ12TR.100) Figure A shows an acute, isolated and closed, left knee injury in a 40-year-old male struck by a motor vehicle. What would be the most appropriate surgical fixation for this injury? QID: 4015 FIGURES: A Type & Select Correct Answer 1 Definitive external fixation 0% (5/2618) 2 Temporary external fixation then lateral percutaneous screws 2% (51/2618) 3 Lateral nonlocking plate +/- bone graft substitutes 87% (2288/2618) 4 Medial and lateral locking plate +/- bone graft substitutes 3% (87/2618) 5 Lateral percutaneous screws with assisted arthroscopy 6% (166/2618) L 1 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 3 Review Tested Concept Review Full Topic (OBQ12.209) A 32-year-old male sustains the injury shown in Figures A through D as the result of a high-speed motorcycle collision. He initially undergoes spanning external fixation and returns to the office for soft tissue evaluation prior to his definitive surgery. During this visit, you discuss that the most appropriate fixation is which of the following? QID: 4569 FIGURES: A B C D Type & Select Correct Answer 1 Lateral precontoured locked plating 1% (61/5105) 2 Posterior buttress plating 64% (3292/5105) 3 Medial antiglide plating 12% (633/5105) 4 Anterolateral and posteromedial plating 20% (1000/5105) 5 Posterolateral neutralization plating 1% (68/5105) L 3 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ12.139) A 45-year-old patient sustains the injury shown in figure A. What radiographic finding most highly suggests a lateral meniscal injury? QID: 4499 FIGURES: A Type & Select Correct Answer 1 Joint depression of 3mm 37% (1880/5126) 2 Ipsilateral femoral shaft fracture 1% (39/5126) 3 Joint widening of 6mm 48% (2475/5126) 4 Ipsilateral tibial shaft fracture 1% (36/5126) 5 Displaced tibial spine fracture 13% (670/5126) L 5 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 3 Review Tested Concept Review Full Topic (OBQ12.261) A 23-year-old healthy male was involved in a motor vehicle collision and sustained the injury seen in Figure A. Physical examination after ORIF of the plateau fracture revealed a Grade 3 Lachman, varus laxity at both 0 and 30 degrees of knee flexion, and 15 degrees of external rotation asymmetry at 30 degrees of knee flexion. Which of the following structures (indicated with asterisk*) must be surgically repaired to restore stability to the knee? QID: 4621 FIGURES: A B C D E F Type & Select Correct Answer 1 Figure B 4% (105/2607) 2 Figure C 52% (1349/2607) 3 Figure D 25% (663/2607) 4 Figure E 5% (123/2607) 5 Figure F 13% (348/2607) L 4 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic (OBQ12.22) A 32-year-old man sustains the knee injury seen in Figure A after falling from a ladder. Which of the following options is the most biomechanically stable and appropriate definitive surgical treatment? QID: 4382 FIGURES: A Type & Select Correct Answer 1 Spanning knee external fixation 1% (51/4019) 2 Lateral plateau locking plate 1% (55/4019) 3 Posteromedial locking plate 1% (39/4019) 4 Lateral plateau percutaneous lag screws and posteromedial plate 4% (164/4019) 5 Lateral plateau and posteromedial plating 92% (3685/4019) L 1 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 5 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ11.212) Which of the following tibial plateau fractures would be most appropriately treated by buttress plating alone? QID: 3635 FIGURES: A B C D E Type & Select Correct Answer 1 Figure A 0% (9/2291) 2 Figure B 2% (51/2291) 3 Figure C 1% (17/2291) 4 Figure D 94% (2152/2291) 5 Figure E 2% (48/2291) L 1 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 4 Review Tested Concept Review Full Topic Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK Sorry, this question is for PEAK Premium Subscribers only Upgrade to PEAK (OBQ11.71) A 38-year-old male suffers the injury shown in Figure A. During operative fixation, free osteoarticular fragments are encountered and reconstruction of these pieces is attempted. Postoperatively, which of the following will have the most beneficial effect on the healing potential of the surviving chondrocytes within these reconstructed articular segments? QID: 3494 FIGURES: A Type & Select Correct Answer 1 Gentle compressive loading of the affected joint through early range of motion exercises 90% (3311/3663) 2 Strict joint immobilzation for three weeks 4% (158/3663) 3 Shear loading of the affected joint 1% (43/3663) 4 Joint distraction with a spanning external fixator for three weeks 3% (112/3663) 5 Glucosamine chondroitin sulfate supplementation 1% (23/3663) L 1 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 1 Review Tested Concept Review Full Topic (OBQ10.158) A 58-year-old man injures his knee in a high-speed motor vehicle collision. Radiographs and CT are shown in Figures A through C. What is the most appropriate surgical plan based on the images provided? QID: 3246 FIGURES: A B C Type & Select Correct Answer 1 ORIF with medial and lateral plating with grafting of metaphyseal defect 1% (14/1057) 2 ORIF with lateral plating with grafting of metaphyseal defect 90% (956/1057) 3 ORIF with medial plating 1% (8/1057) 4 ORIF with lateral plating 5% (55/1057) 5 Percutaneous articular fragment reduction and screw fixation 2% (16/1057) L 1 Question Complexity A Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic (OBQ10.175) A 21-year-old male sustains the injury shown in Figures A through D. Which of the following is the most appropriate definitive treatment of this injury? QID: 3268 FIGURES: A B C D Type & Select Correct Answer 1 Spanning external fixation 0% (11/2452) 2 Lateral locking plate 2% (57/2452) 3 Lateral buttress plate 3% (77/2452) 4 Posteromedial buttress plate 93% (2280/2452) 5 Medial bridging plate 1% (20/2452) L 1 Question Complexity C Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 4 Review Tested Concept Review Full Topic (OBQ10.65) Vascular complications are most commonly seen with which of the following fractures about the knee? QID: 3152 FIGURES: A B C D E Type & Select Correct Answer 1 Figure A 0% (13/3135) 2 Figure B 70% (2184/3135) 3 Figure C 2% (57/3135) 4 Figure D 2% (65/3135) 5 Figure E 26% (806/3135) L 1 Question Complexity B Question Importance Select Answer to see Preferred Response SUBMIT RESPONSE 2 Review Tested Concept Review Full Topic (OBQ10.