Osteotomies: High Tibial, Distal Femoral, And Tibial Tubercle

ch05 anbari:Layout 1CHAPTER8/20/200952:12 PMPage 51OSTEOTOMIES: HIGH TIBIAL, DISTAL FEMORAL,trochlea and enter the joint. The osteotomy is performedin a way that is similar to that of a high tibial osteotomy;however, the cut should be made perpendicular to thefemur in the sagittal plane to prevent flexing or extending the femur. An opening wedge instrument set similar to that used for a high tibial osteotomy, but withlonger plates, is available for this procedure.Once the appropriate angle of correction is achieved,the plate is fixed distally with 6.5-mm unicortical cancellous screws and proximally with at least three 4.5mm bicortical screws (Figure 3, B). Bone graft is theninserted. The incision is closed in layers. A drain can beused for 24 hours if needed.A rehabilitation protocol similar to that used for hightibial osteotomy (see Table 1) should be initiated.ANDTIBIAL TUBERCLEFIGURE 4Tibial Tubercle OsteotomyPatient SelectionTibial tubercle osteotomy with medialization is indicatedin symptomatic patients with a tibial–tubercle–to–trochleargroove (TT-TG) distance greater than 20 mm, with orwithout signs of patellar instability.2,3 It can be performedon patients who are also undergoing a medialpatellofemoral ligament (MPFL) repair or reconstructionand lateral release. In general, the patellofemoral compartment should exhibit no signs of chondrosis.Tibial tubercle osteotomy with anteromedializationshould be reserved for patients who have an abnormalTT-TG distance with lateral distal chondrosis or whoare undergoing a cartilage restoration procedure in thepatellofemoral compartment. In patients with Outerbridge grade I or II lesions, an anteromedialization maybe sufficient. In patients who have grade III or IVlesions, the osteotomy should be combined with a cartilage procedure.2,3A tibial tubercle osteotomy is contraindicated inpatients who have a normal TT-TG distance or who havecomplete loss of joint space and advanced diffuse arthritis. Medical issues that could interfere with bony healing (smoking, infection, and osteoporosis) also areconsidered contraindications to an osteotomy.EvaluationChondral defects in the patellofemoral compartment arecommonly seen in knee arthroscopies. These chondralAmerican Academy of Orthopaedic SurgeonsMRI of a patient about to undergo a tibial tubercle osteotomy, demonstrating how to calculate the TT-TG distance.defects sometimes present with alignment and mechanical abnormalities, which also may benefit from a tibialtubercle osteotomy.Affected patients often describe an insidious onset ofpain. The location of the anterior knee pain should bedocumented. Patients with patellar defects present withpain on the back or sides of the patella, and patients withtrochlear defects often present with posterior knee pain.All previous interventions, both nonsurgical and surgical, also should be documented. The physical examination should include testing for some of the entities oftenseen in patellofemoral pain (excessive femoral anteversion, knee valgus malalignment, hip abductor weakness,and iliotibial band contracture). Patients should beobserved in a standing position, and the Q angle shouldbe measured. It is important to make sure the patella isnot subluxated when measuring the Q angle because asubluxated patella may falsely decrease the value of theangle. Joint effusion and patellar subluxation, mobility,and tilt should be assessed and compared with that of theopposite knee. An exaggerated J-sign may suggest medial51

ch05 anbari:Layout 18/20/20092:12 PMSURGICAL MANAGEMENTPage 52OFARTICULAR CARTILAGE DEFECTSIN THEKNEEFIGURE 5Intraoperative photographs of a tibial tubercle anteromedialization.A, A patient undergoing both an autologous chondrocyte implantationand anteromedialization of the tibial tubercle. B, The anteromedialization osteotomy cutting guide is secured with two drill bits. C, Theosteotomy is fixed with two 4.5-mm screws. The patellar autologouschondrocyte implantation is completed before fixing the osteotomy.retinacular laxity and possibly a tear in the MPFL. Finally,it is important to document limb rotation through thehip and any signs of femoral or tibial malrotation.In addition to the standard radiographic imagingdescribed earlier, a CT scan should be taken to moreaccurately evaluate patellar subluxation and tilt and todiagnose any trochlear dysplasia. The TT-TG distancecan be determined by superimposing two radiographs,one taken through the patellofemoral articulation andthe second through the tibial tubercle, and measuringthe medial-to-lateral distance from the center of thetrochlear groove to the highest point of the tibial tubercle (Figure 4). A TT-TG distance less than 15 mm is considered normal; a distance greater than 20 mm is usuallydeemed abnormal and should be considered for a tibial tubercle osteotomy.3 Sagittal and coronal reconstruc-52tions can help diagnose patella alta or patella infera. AnMRI is useful if a cartilage defect is suspected.Surgical TechniqueIn preparation for surgery, the patient is positionedsupine on a radiolucent table with a gel roll under theipsilateral buttock. A tourniquet is applied and used during the osteotomy portion of the case; it is deflatedbefore closure to achieve hemostasis.If the surgeon is not certain of the extent of the damage to the cartilage, a quick diagnostic arthroscopy canbe performed. A chondroplasty, microfracture, or lateral release also can be performed arthroscopically atthis time. In addition to the standard portals, a proximal portal can be used to examine patellar tracking inthe trochlea. If an MPFL repair or reconstruction isAmerican Academy of Orthopaedic Surgeons

ch05 anbari:Layout 1CHAPTER58/20/20092:12 PMPage 53OSTEOTOMIES: HIGH TIBIAL, DISTAL FEMORAL,FIGURE 6Postoperative AP (A) and lateral (B) views showing the fixed anteromedialization osteotomy.planned, it should be done after the osteotomy is completed. If a cartilage reconstruction procedure isplanned, it should be performed after the osteotomy cutis made but before it is fixed.A tibial tubercle medialization can be performedthrough a small, 6-cm incision centered on the lateralaspect of the tubercle. The soft tissue of the anterior compartment is elevated, and the patellar tendon is protected.The osteotomy cut is V-shaped and centered posterior tothe patellar tendon insertion. The cut is 5-cm long andis about 1.5 cm posterior to the tibial crest. Theosteotomy is rotated over the intact hinge on the distaltibial tubercle to the desired location and fixed with two4.5-mm fully threaded cortical screws lagged through thetuberosity to achieve interfragmentary fixation.A tibial tubercle anteromedialization is performedthrough an approximately 10- to 12-cm incision thatextends at an oblique angle from the anterolateral portalproximally to the tibial crest distally. The incision isextended proximally if a cartilage procedure is performedin the same setting (Figure 5, A). Medial and lateral flapsare raised to expose the proximal medial and lateral tibial surfaces. The anterior compartment is elevated subperiosteally, and both edges of the patellar tendon areopened so that a retractor may be placed under it.We use a commercially available anteromedializationosteotomy guide system to perform this procedure. AAmerican Academy of Orthopaedic SurgeonsANDTIBIAL TUBERCLEbroad retractor is placed on the posterolateral edge ofthe tibia to protect the neurovascular structures. Theosteotomy cutting guide is placed on the medial side ofthe tibia at an angle. The top of the guide should be atthe level of, and 1.5 cm posterior to, the proximal patellar tendon insertion. A 2-mm drill bit is used to securethat end of the guide. The distal end of the guide isangled laterally and should terminate on the distal endof the tubercle near the crest. The end of the guide isalso secured with a drill bit (Figure 5, B). To verify theangle and accuracy of the osteotomy cut, the C-shapedguide is placed through the cutting guide with the tipof the guide pointing to the end of the osteotomy cut.The cut should end on the lateral tibial surface. Thehigher the end points on the lateral tibia, the shallowerthe angle of the anteromedialization.Once the osteotomy cutting guide is in the desiredposition, an oscillating saw is used to perform theosteotomy cut. The guide is removed, and the distal endof the cut is finished with the saw. The proximal end ofthe cut is performed with an osteotome placed on thelateral tibia to connect the saw cut to the anterior tibia.The bone is now rotated up the slope to the desiredlocation. The osteotomy is fixed with two 4.5-mm, fullythreaded screws lagged bicortically, and both screws arecountersunk (Figure 5, C and Figure 6). The tourniquetis deflated, and a drain is put into place for 24 hours, ifnecessary. The anterior compartment is reattached, andthe incision is closed in layers. A hinged knee brace isapplied and locked in extension.Rehabilitation ProtocolThe protocol for rehabilitation following a tibial tubercle osteotomy is discussed in Table 2.Summary and ConclusionsHigh Tibial and Distal FemoralOsteotomiesClosing wedge high tibial and distal femoral osteotomies have produced successful short- and long-termresults.4-6 Recent studies have looked at the efficacy andsuccess of opening wedge osteotomies. Esenkaya andElmali7 performed 58 opening wedge high tibial53

ch05 anbari:Layout 18/20/20092:12 PMSURGICAL MANAGEMENTPage 54OFARTICULAR CARTILAGE DEFECTSTA B L E 2Rehabilitation Protocol for Tibial TubercleOsteotomyPhase I (first 12 weeks): Touch-down weight bearing isallowed for the first 6 weeks. A radiograph is taken atthat point and, if adequate healing is achieved, weightbearing may progress as tolerated by the patient. Thehinged brace is locked for the first 2 weeks and can beremoved by the patient to perform exercises at home.The patient is allowed immediate full range of motionas tolerated. For the first 6 weeks, the patient worksmainly on quadriceps sets and ankle and knee motion.During weeks 6 to 10, the patient may do straight-legraises and partial wall squats. In weeks 10 to 12, hamstring strengthening is added. The brace should beunlocked during walking by week 6 and discontinuedby week 8.Phase II (12 to16 weeks): Patients should be bearing fullweight on their affected legs, and they should have fullrange of motion. Treadmill walking can begin, alongwith balance and proprioception exercises.Phase III (16 to 20 weeks): Closed-chain exercises andlight plyometric exercises are advanced.Phase IV (20 to 24 weeks): Strengthening exercises continue, progressing to running, single-leg jumping, andloading.osteotomies in patients with medial compartmentarthrosis. Patient ages ranged from 36 to 66 years andthe average follow-up was 21 months. The Hospital forSpecial Surgery (HSS) score improved from 58 to 89.Lateral tibia plateau fractures were seen in 8.6% ofpatients, and lateral cortex fractures were noted in25.8%. Delayed union occurred in 1.7% of patients.Koshino and associates8 studied the outcomes of 21opening wedge high tibial osteotomies. The meanpatient age was 66.6 years, and the patients were followed for an average of 78.6 months. Two hydroxyapatite wedges were placed in each osteotomy site. Themean American Knee Society knee scores and functional scores improved from 60.2 and 48.1 to 94.3 and93.1, respectively. No recurrence of varus deformity wasnoted in any patient. Franco and associates1 reviewedthe outcomes of 30 patients who underwent openingwedge high tibial osteotomy and who were followed for54IN THEKNEE36 to 48 months. The average patient age was 49 years.The authors used International Knee DocumentationCommittee and HSS scoring systems for evaluation. Allpatients improved by at least one category. Using anopening wedge technique, Hernigou and associates9treated 93 knees with opening wedge high tibialosteotomy. At 5-year follow-up, 90% of the knees hadgood or excellent results. These results deteriorated overtime, with just 45% of the patients having excellent orgood results after 10 years. Finally, Dietrick and Bugbee10 reported their unpublished results of 18 patientsranging in age from 17 to 58 years who underwentopening wedge distal femoral osteotomy for lateralcompartment arthritis or to unload a cartilage restoration reconstruction procedure. Symptoms improved in15 patients, but 3 patients eventually underwent conversion to a total knee arthroplasty.Tibial Tubercle OsteotomiesShort- and long-term studies of tibial tubercleosteotomies have shown promising, good to excellentresults. Fulkerson and associates11 followed 30 patientswho underwent anteromedialization of the tibial tubercle (average follow-up of 35 months) and reported 89%objective and 93% subjective good to excellent results.Similar results were reported in 2000 by Buuck andFulkerson.12 Carney and associates13 published a caseseries of 18 patients who underwent a combination oflateral release, medial reefing, and tibial tubercle medialization for patellar instability. The patients were followed at least 3 years and at 26 years. Seven percent ofthe patients had recurrent instability at both 3 and 26years. Although at 3 years, 73% of the patients reportedgood to excellent results, the results dropped to 54%good to excellent results at 26 years. Tibial tubercleanteromedialization results in patients withpatellofemoral arthritic changes depend on the location of the arthritis. Pidoriano and associates14 retrospectively reviewed the outcomes of 36 patients whounderwent tibial tubercle anteromedialization forarthritis. Of patients who had distal or lateral patellarlesions, 87% had good to excellent results, as did 55%of patients who had medial facet lesions. Only 20% ofpatients with proximal or diffuse lesions had good toexcellent results, however. Interestingly, no correlationexisted between the Outerbridge grade of the lesion andthe results.American Academy of Orthopaedic Surgeons

ch05 anbari:Layout 1CHAPTER8/20/200952:12 PMPage 55OSTEOTOMIES: HIGH TIBIAL, DISTAL FEMORAL,References1. Franco V, Cerullo G, Cipolla M, Gianni E, Puddu G:Open wedge high tibial osteotomy. Tech Knee Surg2002;1:43-53.2. Gomoll AH, Minas T, Farr J, Cole BJ: Treatment ofchondral defects in the patellofemoral joint. J KneeSurg 2006;19:285-295.3. Farr J: Distal realignment for patellofemoral disease, inCole BJ, Sekiya JK (eds): Surgical Techniques of theShoulder, Elbow, and Knee in Sports Medicine, Philadelphia, PA, Saunders, 2008, pp 755-767.4. Insall JN, Joseph DM, Msika C: High tibial osteotomyfor varus gonarthrosis: A long-term follow-up study.J Bone Joint Surg Am 1984;66:1040-1048.5. McDermott AG, Finklestein JA, Farine I, Boynton EL,MacIntosh DL, Gross A: Distal femoral varusosteotomy for valgus deformity of the knee. J BoneJoint Surg Am 1988;70:110-116.6. Healy WL, Anglen JO, Wasilewski SA, Krackow KA:Distal femoral varus osteotomy. J Bone Joint Surg Am1988;70:102-109.7. Esenkaya I, Elmali N: Proximal tibia medial openwedge osteotomy using plates with wedges: Earlyresults in 58 cases. Knee Surg Sports Traumatol Arthrosc2006;14:955-961.American Academy of Orthopaedic SurgeonsANDTIBIAL TUBERCLE8. Koshino T, Murase T, Saito T: Medial opening-wedgehigh tibial osteotomy with use of porous hydroxyapatite to treat medial compartment osteoarthritis of theknee. J Bone Joint Surg Am 2003;85:78-85.9. Hernigou P, Medevielle D, Debeyre J, Goutallier D:Proximal tibial osteotomy for osteoarthritis with varusdeformity: A ten to thirteen-year follow-up study.J Bone Joint Surg Am 1987;69:332-354.10. Dietrick T, Bugbee W: Distal femoral osteotomy utilizing a lateral opening-wedge technique. Tech Knee Surg2005;4:186-192.11. Fulkerson JP, Becker GJ, Meaney JA, Miranda M, FolcikMA: Anteromedial tibial tubercle transfer without bonegraft. Am J Sports Med 1990;18:490-497.12. Buuck D, Fulkerson JP: Anteromedialization of the tibial tubercle: A 4- to 12-year follow-up. Op Tech SportsMed 2000;8:131-137.13. Carney JR, Mologne TS, Muldoon M, Cox JS: Longterm evaluation of the Roux-Elmslie-Trillat procedurefor patellar instability: A 26-year follow-up. Am J SportsMed 2005;33:1220-1223.14. Pidoriano AJ, Weinstein RN, Buuck DA, Fulkerson JP:Correlation of patellar articular lesions with resultsfrom anteromedial tibial tubercle transfer. Am J SportsMed 1997;25:533-537.55

The indications and contraindications for distal femoral osteotomy are similar to those for high tibial osteotomy. Surgical Technique A lateral approach is used to perform a distal femoral osteotomy. The iliotibial band is split along its fibers and the vastus lateralis is elevated off the femur to expose the femoral shaft and metaphysis. A .