Tibial condylar valgus osteotomy (TCVO): Surgical technique and clinical results for knee osteoarthritis with varus deformity

Tibial condylar valgus osteotomy (TCVO) is an intra-articular proximal tibial osteotomy developed in 1989 and has since been used for the treatment of knee osteoarthritis (OA) associated with genu varum. This article describes the surgical technique and clinical results of TCVO. TCVO can be used for all grades of varus knee OA in patients of any age. he preoperative range of movement should be at least 90°. Preoperative screening showed varus-valgus instability due to an intra-articular deformity of the proximal tibia. Using intraoperative image intensification, a sagittally oriented “L”-shaped osteotomy is made from the medial to the tibial tuberosity to the center of the tibial plateau between the medial and lateral tibial spines. The separation of the osteotomy using the lamina spreader is gradually increased using an image intensifier guidance until the articular surface of the lateral tibial plateau comes in contact with the articular surface of the lateral femoral condyle. Adequate correction is indicated by parallelism of the lateral tibial plateau and a line tangential to the distal convexity of the lateral femoral condyle on an anteroposterior (AP) image and the elimination of the valgus instability with the knee in extended position. A “T”-plate (locking or non-locking plate or circular external fixator) is used to fix the osteotomy in the corrected position. Synthetic or autologous bone grafts can be used. We used the Japanese Orthopaedic Association score to evaluate the patient's function and also measured the %MAD, medial plateau opening angle, medial plateau angle, and lateral plateau opening angle on an AP view of the long length roentgenogram of the lower limb (standing position). The JOA score, radiologically measured values, and instability of the knee joint remarkably improved.     

Femoral deformity in tibia vara

BACKGROUND: Previous studies have suggested that compensatory valgus deformity of the femur is common in patients with tibia vara, or Blount disease. The availability and routine use of standing long-cassette radiographs of the lower extremities to assess angular deformities has allowed quantitative evaluation of this hypothesis. METHODS: The cases of all patients with tibia vara, two years of age or older, seen at our institution prior to treatment, over a thirteen-year period, were reviewed. Seventy-three patients with a total of 109 involved lower limbs were identified and were classified as having either infantile tibia vara (thirty-seven patients with fifty-six involved limbs) or late-onset tibia vara (thirty-six patients with fifty-three involved limbs). Standardized standing radiographs of the lower extremity were examined to assess the deformity at the distal part of the femur and the proximal part of the tibia by measuring the lateral distal femoral angle and the medial proximal tibial angle. RESULTS: The distal part of the femur in the children with infantile tibia vara either was normal or had mild varus deformity, with a mean lateral distal femoral angle of 97 degrees (range, 82 degrees to 129 degrees). The mean medial proximal tibial angle in these children was 72 degrees (range, 32 degrees to 84 degrees). Older children with infantile tibia vara were noted to have little distal femoral deformity, with no more than 4 degrees of valgus compared with either normal values or the contralateral, normal limb. Children with late-onset tibia vara had a mean lateral distal femoral angle of 93 degrees (range, 82 degrees to 110 degrees) and a mean medial proximal tibial angle of 73 degrees (range, 52 degrees to 84 degrees). On the average, the varus deformity of the distal part of the femur constituted 30% (6 degrees of 20 degrees) of the genu varum deformity in these patients. CONCLUSIONS: Patients with infantile tibia vara most commonly had normal alignment of the distal parts of the femora; substantial valgus deformity was not observed. Distal femoral varus constituted a substantial portion of the genu varum in children with late-onset disease. When correction of late-onset tibia vara is planned, the surgeon should be aware of the possibility that distal femoral varus is a substantial component of the deformity.     

Primary hypophosphatemic rickets. Effect of oral phosphate and vitamin D on growth and surgical treatment

Failure to diagnose and treat hypophosphatemic rickets during childhood resulted in stunted growth and progressive deformities of the lower limb. When the deformities were treated surgically, recurrent deformity and non-union of osteotomies developed, and further major opeative procedures were required to remedy these complications. Treatment from early childhood with oral phosphate and vitamin D improved the rate of growth and controlled the progression of bowleg deformity. Residual varus deformity was corrected by osteotomy through the proximal tibial metaphysis at skeletal maturity, when the results were predictable. Genu valgum deformity was corrected by stapling the medial part of the distal femoral epiphysis prior to skeletal maturity. With early postoperative mobilization and adequate medication, the complications of delayed tibial union and failure to correct the femoral valgus deformity were avoided.     

Does proximal femoral?varus osteotomy in Legg–Calvé–Perthes disease predispose to angular mal-alignment of the knee? A clinical and radiographic study at skeletal maturity

Background

Though there is an impression that proximal femoral varus osteotomy (FVO) can result in a valgus deformity at the knee there is no agreement on this issue. This study was undertaken to ascertain whether a FVO predisposes to the development of genu valgum in children with Legg–Calvé–Perthes disease (LCPD).

Methods

One hundred and one children with unilateral LCPD who underwent a FVO during the active stage of the disease and 32 children who were treated non-operatively were followed till skeletal maturity. The FVO was performed with a 20° varus angulation in all the patients and weight-bearing was not permitted till the stage of reconstitution. The alignment of the knee was assessed clinically at skeletal maturity. A subset of 33 operated children also had full length standing radiographs of the limbs. The mechanical axis deviation, femur-tibial angle, lateral distal femoral angle and the medial proximal tibial angle of both limbs were measured on these radiographs.

Results

The frequency of clinically appreciable mal-alignment of the knee was not greater on the affected side in patients who had undergone FVO when compared to the unaffected limb and also when compared to the affected limb in non-operated patients. The mechanical axis of the lower limb of operated children was relatively in more valgus than that of normal limbs but they fell within the normal range.

Conclusion

This study does not support the impression that a proximal femoral osteotomy for LCPD predisposes to clinically discernable degrees of genu valgum in children who have had 20° of varus angulation at the osteotomy site and who have avoided weight-bearing for a prolonged period following surgery. Further studies are needed to clarify if genu valgum would develop if early post-operative weight-bearing is permitted.

Level of evidence

III.     

Cozen’s deformity: resolved by guided growth

Proximal tibial metaphyseal fractures in children can lead to progressive and symptomatic tibial valgus. Corrective osteotomy has been abandoned, due to frequent complications, including recurrent valgus deformity. While spontaneous remodelling has been reported, this is not predictable. For children with persistent deformities, we have resorted to guided growth of the tibia. We present 19 patients who were successfully treated with guided growth, tethering the proximal medial physis. There were ten boys and nine girls, ranging in age from two to 13.6 years at the time of intervention. The mean follow-up from injury was 7.3 years. We documented the intermalleolar distance, mechanical axis deviation (by zone), medial proximal tibial angle (MPTA), and leg length discrepancy. Removal of the plate, or more recently, the metaphyseal screw, was undertaken upon normalization of the mechanical axis. Including the four patients who have undergone repeat tethering for recurrent valgus (one patient—twice), we are effectively reviewing 24 Cozen’s phenomena, making this the largest series reported in the literature. Correction of the mechanical axis and the proximal medial tibial angle was achieved in all but one patient. Limb length inequality at follow-up ranged from 0.1 to 1.5 cm, with a mean of 0.5 cm. There have been five recurrences in four patients to date; four corrected with repeat tethering and one is pending. Two patients developed significant over correction because of parental failure to pursue timely follow-up. Both have corrected to neutral with lateral tibial physeal tethering. Ten patients have attained skeletal maturity and required no further treatment. The remaining nine patients will be followed until maturity. Guided growth is an excellent choice for the management of post-traumatic tibial valgus. Our rationale for restricting medial overgrowth is twofold: (1) to restore the MPTA and (2) to reduce the length discrepancy due to tibial overgrowth caused by the fracture. Recognizing the potential for recurrent deformity following implant removal, our standard practice now includes removal of just the metaphyseal screw and subsequent reinsertion, in the event of rebound valgus deformity.Level of evidence Therapeutic IV, retrospective series/no control cohort.     

骨性关节炎患者人工膝关节假体旋转定位标志研究

目的探讨对合并内、外翻畸形的膝关节骨性关节炎行人工全膝关节置换术，以股骨内外上髁外科轴（surgical epicondylar axis，SEA）作为股骨假体旋转参考轴，以胫骨结节内1／3作为胫骨假体旋转定位的骨性标志，判断股骨假体和胫骨假体的旋转对线情况。方法2004年7月～2005年1月，对32例（62膝）拟行人工全膝关节置换术的膝关节骨性关节炎患者（病例组），男2例，女30例；年龄58～80岁，平均68．9岁；内翻畸形55膝，胫股角平均内翻-8．23°；外翻畸形7膝，胫股角平均外翻＋15．48°。于术前行伸膝旋转中立位CT扫描，测量膝关节股骨后髁角（posterior condylar angle，PCA），并以10个正常膝关节作为对照组，测量SEA中点C与髌腱内1／3连线（BC）和经SEA中点C的垂线（AC）之间的夹角，即α角。结果病例组80％以上膝关节CT图像显示股骨内上髁陷凹；PCA中位数为＋2．36°（0～＋7．5°）；对照组膝关节α角为＋6．45±3．68°（0～＋11．8°）；病例组内翻畸形患者膝关节α角为＋10．85±10．47°（0～＋28．1°），与对照组比较差异有统计学意义（P〈0．05），病例组外翻畸形患者膝关节α角为＋11．6±7．3°（-6．5～＋26．8°），与对照组比较差异有统计学意义（P〈0．05）。结论以胫骨结节内1／3作为胫骨假体旋转参考轴线，胫骨假体相对于股骨假体处于轻度外旋位；合并内、外翻畸形患者的胫骨假体外旋角度明显增大，容易使股骨假体和胫骨假体间出现旋转对线不良。     

Different Deformity Origins and Morphological Features in Subtypes of Valgus Knees: A Radiological Classification System

ObjectiveTo analyze the deformity origins and distribution among valgus knees to individualize their morphological features.MethodsRadiographic images of 105 valgus knees were analyzed. Long‐film radiographs and computed tomography were collected for every knee. A malalignment test was performed on standing long‐film radiographs. The hip‐knee‐ankle angle (HKA), the anatomical lateral distal femoral angle (aLDFA), and the anatomical medial proximal tibial angle (aMPTA) were measured on long‐film radiographs. The distal condylar angle and posterior condylar angle on distal femur were further measured on computed tomography scans. The tibial bone varus angle was measured on long‐film radiographs as well. All the valgus knees were sorted into different subtypes according to the origins of bony deformity, and the prevalence of each subtype was reported. Finally, to examine the inter‐observer reproducibility of this classification system, two observers measured the deformities and did the classification for all the 105 knees independently and then the intraclass correlation coefficient (ICC) was calculated.ResultsAmong the 105 knees, 48 knees (45.7%) had apparent deformity from the tibial plateau, and 62 knees (59.0%) had apparent deformity from the supracondylar region of the femur. Eighteen knees (17.1%) had distal condylar angle >7°, among which 11 knees had posterior condylar angle >3° simultaneously. Valgus knees had five subtypes of bone deformity origins—the supracondylar part of the femur, the distal aspect of the lateral femoral condyle, both distal and posterior aspects of the lateral femoral condyle, the tibial plateau, or the metaphyseal segment of the tibia. A valgus knee could be labeled as only one subtype, or a combination of two or more subtypes. Labeling 105 knees with origin of the most severe deformity, the prevalence of each subtype was 40.0%, 5.7%, 9.5%, 28.6%, and 16.2%, respectively. The intra‐observer and inter‐observer ICC of this classification system was 0.992 and 0.976, respectively.ConclusionsValgus knees can be classified into different subtypes according to deformity origins. This radiological classification system has satisfactory reproducibility. It helps surgeons better individualize morphological features of valgus knees.     

Soft tissue balancing in valgus gonarthrosis

Implanting a condylar knee in patients with valgus deformity is challenging both for the surgeon and in terms of clinical instrumentation. Valgus deformity - defined as an anatomic angle >10 degrees - consists of a bony and a soft tissue component. Frequently, the lateral femoral condyle is hypoplastic and can create a secondary osteochondral lesion on the tibial plateau. Concomitantly, there is a soft tissue contracture of the lateral side with an elongation of the medial collateral ligament. Correction of the deformity and restoration of anatomic alignment should be achieved to maximize the longevity of the replaced components. Soft tissue balancing is crucial for successful treatment. This is achieved if a symmetrical flexion and extension gap together with a centralized patella position is obtained. We describe our surgical approach to address valgus deformities in primary total knee arthroplasty with special emphasize on a stepwise release of tight lateral capsular and ligamentous structures controlled by a knee balancer.     

Effect of knee component alignment on tibial load distribution with clinical correlation

To determine ideal alignment and component placement of total knee prostheses, Kinematic (K) and total condylar (TC) devices were physiologically loaded and interface forces were measured. Laboratory observations were correlated with clinical (roentgenographic) findings. Asymmetric loading of the tibial component has been proposed as causing loosening and radiolucent lines. Misalignment of components is one factor that affects load sharing by bone under the medial and lateral regions of the tibial plateau. Tibial components of K and TC prostheses were inserted without cement into the cut surfaces of artificial tibiae. The mating femoral condylar components were mounted. The tibial and femoral components were individually positioned at 0 degrees (horizontal) and at certain angles of varus and valgus. Pressure-sensitive film was placed between the tibial component and the artificial tibia. A vertical load of 1500 N was used. The experiment was replicated twice. The percentages of the load on the medial and lateral regions of the tibial plateau were calculated from quantitative image analysis of the pressure patterns on the film. Roentgenograms from 532 K and 21 TC patients were examined to determine the orientations of the condylar and tibial components and the presence of radiolucent lines around the tibial component. An even distribution (ideal alignment) of load on the medial and lateral regions of the K tibial component occurred at 9 degrees of valgus tilt of the femoral component and 2 degrees of varus tilt of the tibial component and for the TC at 7 degrees valgus and 0 degrees varus. Misalignment by 5 degrees yielded a 7% change in the load distribution under the K plateau and a 40% change for the TC prosthesis; a 10 degrees misalignment produced changes of 34% and 62% for the K and TC, respectively. Small variations in clinical knee alignment produced the same percentage of radiolucent lines for each alignment group. The location of radiolucent lines was distributed among the medial, lateral, and both tibial plateaus regardless of knee alignment, although there were more medial reactions overall. The smallest incidence (8%) of radiolucent lines occurred with the K prosthesis at 7 degrees of knee valgus, the femoral component placed at 9 degrees valgus, and the tibial component at 2 degrees varus. This correlated with the ideal bench-test findings for the K device.     

Weichteilbalanzierung bei Valgusgonarthrose

Implanting a condylar knee in patients with valgus deformity is challenging both for the surgeon and in terms of clinical instrumentation. Valgus deformity – defined as an anatomic angle >10° – consists of a bony and a soft tissue component. Frequently, the lateral femoral condyle is hypoplastic and can create a secondary osteochondral lesion on the tibial plateau. Concomitantly, there is a soft tissue contracture of the lateral side with an elongation of the medial collateral ligament. Correction of the deformity and restoration of anatomic alignment should be achieved to maximize the longevity of the replaced components. Soft tissue balancing is crucial for successful treatment. This is achieved if a symmetrical flexion and extension gap together with a centralized patella position is obtained. We describe our surgical approach to address valgus deformities in primary total knee arthroplasty with special emphasize on a stepwise release of tight lateral capsular and ligamentous structures controlled by a knee balancer.     

Ligament injuries associated with physeal fractures about the knee

A retrospective study of 29 cases of epiphyseal plate fractures about the knee revealed 14 patients with ligament instability at follow-up evaluation an average of 66 months after injury. Distal femoral physeal fractures had occurred in 16 of the 29 patients. Six of these patients had ligament insufficiency, which was recognized by positive anterior drawer and Lachman tests in all six and laxity to valgus stress in one. Proximal tibial physeal fractures were noted in 13 of the 29 patients. Eight of these patients had ligament laxity; anterior drawer and Lachman tests were positive in five, and laxity with valgus stress was present in four patients. It is concluded that because 14 of 29 patients (48%) had ligament insufficiency at follow-up evaluation, physeal fracture about the knee does not exclude ligament damage and, in fact, is associated with a high incidence of ligament injury. Furthermore, a complex proximal tibial physeal fracture associated with medial collateral ligament rupture is described for the first time. This resulted in medial collateral ligament insufficiency, genu valgus, and early degenerative changes. A treatment plan of primary ligament repair, fracture reduction, and follow-up evaluation to skeletal maturity is suggested for this unique fracture.     

Bone realignment with use of temporary external fixation for distal femoral valgus and varus deformities

BACKGROUND: Correction of a distal femoral deformity may prevent or delay the onset of osteoarthritis or mitigate its effects. Accurate correction of deformity without production of a secondary deformity depends on precise localization and quantification of the deformity. We report a technique to correct distal femoral deformities in the coronal plane. METHODS: Fourteen femora in thirteen skeletally mature patients with a distal femoral deformity underwent operative reconstruction. The preoperative deviation of the mechanical axis ranged from 90 mm laterally (genu valgus) to 120 mm medially (genu varus). The mechanical lateral distal femoral angle was abnormal in all fourteen knees. The technique consisted of application of an external fixator, performance of a percutaneous distal femoral dome osteotomy, correction of the deformity, and locking of the external fixator. A statically locked retrograde intramedullary nail was inserted following reaming, and the external fixator was removed. The mean duration of follow-up was thirty-three months (range, six to forty-seven months). RESULTS: The mean time until healing was thirteen weeks (range, six to thirty-nine weeks). Nine of the thirteen patients reported an improvement in walking, and none needed an assistive device. All nine patients with preoperative knee pain were free of tibiofemoral pain at the most recent follow-up evaluation. The mechanical lateral distal femoral angle was within the normal range in twelve of the fourteen knees. The mechanical axis was within the normal range in ten lower extremities. In three of the four remaining limbs, the residual abnormal deviation of the mechanical axis was due to a residual tibial deformity. CONCLUSIONS: Percutaneous dome osteotomy combined with temporary external fixation and insertion of an intramedullary nail can correct distal valgus and varus femoral deformities. We attributed the early mobilization of patients and the rapid bone-healing to the limited soft-tissue dissection, the low-energy corticotomy, and the use of intramedullary fixation in our surgical technique.     

Congenital dislocation of the patella

Purpose Congenital dislocation of the patella is permanent and manually irreducible, and it manifests immediately after birth with flexion contracture of the knee, genu valgus, external tibial torsion and foot deformity. We retrospectively reviewed the results of operative treatment of seven knees in six patients with congenital dislocation of the patella. Methods The age of the six patients at diagnosis ranged from 8 days to 3.6 years, with an average of 1.3 years, and their age at the time of operation ranged from 0.6 to 3.9 years, with an average of 2.1 years. Serial casting and/or a brace was attempted before surgery in five of seven knees, leading to improvement in the flexion contracture of the knee. All knees were treated operatively in combination with lateral release, medial plication, V-Y lengthening of the quadriceps, medial transfer of the lateral patellar tendon and posterior release of the knee. Results Although these deformities were noticed at birth in all seven knees, diagnosis was delayed in three knees due to the low suspicion of the disease and invisible patellae on radiographs. Ultrasonography confirmed the diagnosis of dislocation. The patella was centered in the groove of the femoral condyle after surgery in all knees, but subluxation of the knee with flexion was observed in one knee in which the operation was performed at 3.9 years. Genu valgus and external tibial torsion improved after surgery in all knees. The operated knee was mobile in all cases, with less than 10° flexion contracture of the knee. Flexion contracture did not increase in any of the knees. Conclusion Congenital dislocation of the patella should be suspected in every patient with knee flexion contracture, genu valgus, external tibial torsion, foot deformity and delayed walking. Successful results were obtained when the operation was performed in younger children. Other procedures, such as the semitendinosus tenodesis or tendon transfer, might have to be combined to achieve better stability with flexion in older children. None of the authors received financial support for this study.     

Anatomical analysis of the femoral condyle in normal and osteoarthritic knees.

It is important to understand anatomical feature of the distal femoral condyle for treatment of osteoarthritic knees. Detailed measurement of the femoral condyle geometry, however, has not been available in osteoarthritic knees including valgus deformity. This study evaluated femoral condyle geometry in 30 normal knees, 30 osteoarthritic knees with varus deformity, and 30 osteoarthritic knees with valgus deformity using radiographs and magnetic resonance imaging (MRI). In radiographic analysis in the coronal plane, the femoral joint angle (lateral angle between the femoral anatomic axis and a tangent to femoral condyles) was 83.3 degrees in the normal knees, 83.8 degrees in the varus knees, and 80.7 degrees in the valgus knees. In MRI analysis in the axial plane, the posterior condylar tangent showed 6.4 degrees of internal rotation relative to the transepicondylar axis in the normal knees, 6.1 degrees in the varus knees, and 11.5 degrees in the valgus knees. These results suggested that there was no hypoplasia of the medial condyle in the varus knees, but the lateral condyle in the valgus knees was severely distorted. Surgeons should take this deformity of the lateral femoral condyle into account when total knee arthroplasty is performed for a valgus knee.     

Focal fibrocartilaginous dysplasia of long bones: report of eight additional cases and literature review

We report eight additional cases of focal fibrocartilaginous dysplasia (FFCD) in the proximal tibia (five), distal ulna (one), and distal femur (two). Spontaneous, complete resolution of the lesion was observed in two tibiae and one ulna. Three tibial lesions with genu varum deformity were managed with osteotomy. Two femoral FFCDs caused persistent or progressive deformity: one genu valgum with patellar dislocation, and one genu varum. These patients underwent concomitant deformity correction and lengthening by the Ilizarov method. The final results were satisfactory in all patients except one, who underwent valgus tibial osteotomy and developed mild postoperative genu valgum. The analysis of a total of 46 cases in the literature and our experience suggests that (a) FFCD has a wide histopathologic spectrum, ranging from purely dense, fibrous tendon-like tissue to benign fibrocartilaginous tissue; (b) at least 45% of tibial FFCD demonstrates progressive, spontaneous resolution; (c) in contrast, femoral and humeral FFCDs appear to have a slim possibility of spontaneous regression of the deformity; and (d) corrective osteotomy is indicated when the deformity is increasing or persistent, or when the existing deformity is severe enough to jeopardize adjacent joint mechanics and alignment.     

Lateral patellar release and bone grafting of the tibial plateau in total condylar knee arthroplasties. A technical note

In a review of 50 primary total condylar knee arthroplasties in 25 female and in 14 male patients the factors affecting the necessity of lateral patellar release and bone grafting of the medial tibial plateau were established. Lateral patellar release was performed in 18 of 33 arthroplasties in female patients, in only two of 17 operations in male patients, and on all but one of the knees with preoperative valgus deformity. Bone grafting of the medial tibial plateau was necessary mainly in small knees, i.e., for six of 18 small prostheses in contrast to one of 15 standard-sized implants in female patients and in none of the operated knees in males.     

Schatzker Ⅳ型胫骨平台骨折的分型及治疗

目的　探讨SchatzkerⅣ型胫骨平台骨折的损伤特点、疗效差的原因和改进的方法。方法　根据SchatzkerⅣ型胫骨平台骨折的骨折特点 ,将 1993～ 2 0 0 2年间诊治的 5 1例患者分为劈裂型、整髁型和塌陷型。对劈裂型和整髁型骨折 ,无关节面塌陷者 ,采用内侧切口 ;CT检查示有关节面塌陷者 ,采用正中切口纠正塌陷并植骨 ;劈裂型支撑钢板在内后侧固定 ,整髁型支撑钢板在内侧固定 ,或双侧支撑钢板固定。对塌陷型骨折 ,采用内侧切口 ,行复位、植骨、支撑钢板内侧固定。 33例患者术后平均随访 4 1个月 ,对影响骨折预后的因素进行分析。结果　随诊的 33例患者膝关节活动度为30°～ 14 7°(平均 110°) ;Lysholm评分平均为 83 2分 ,优 8例、良 9例、中 14例、差 2例。平台非解剖复位、平台增宽 >4mm、平台向外侧移位 >8mm是预后较差的相关因素 (χ2 值分别为 5 10、6 0 8、8 0 2 ,P<0 0 5、<0 0 5、<0 0 1) ,也易导致骨性关节炎的发生。结论　应根据分型和CT检查结果选择手术入路和固定方法 ,膝内翻畸形、平台增宽 >4mm或向外侧移位 >8mm是影响预后的因素。     

膝关节外翻畸形股骨侧形态学参数分析

目的探讨膝关节外翻畸形股骨侧形态结构改变特点,并分析各参数的异常分布。方法收集2010年1月至2012年12月北京积水潭医院矫形骨科收治的68例(68膝)膝关节外翻畸形患者的影像学资料,包括下肢全长X线片和膝关节CT容积性数据。在下肢全长X线片上测量解剖学股胫角(aFTA)和解剖学股骨远端外侧角(aLDFA),将DICOM格式的CT容积性数据导入MIMICS17.0软件,测量股骨远髁角(DCA)和股骨后髁角(PCA)。分析膝关节外翻畸形股骨侧各参数异常的构成比,并绘制散点图分析各参数的线性相关性。结果股骨侧形态学参数测量结果:aFTA为(18.42±6.42)°,aLDFA为(74.71±4.63)°,DCA为(6.64±1.36)°,PCA为(4.51±1.82)°,其中DCA异常人数占比最高(95.59%)。DCA、PCA和aLDFA均存在异常的人数占比为51.47%。DCA与PCA和aLDFA之间均不存在线性相关。结论股骨外侧髁远端形态结构异常是膝关节外翻畸形股骨侧骨组织异常的主要来源。约1/2的患者同时存在股骨外侧髁远端、后方和股骨干骺端形态结构异常。     

Which osteotomy for a valgus knee?

A valgus knee is a disabling condition that can affect patients of all ages. Antivalgus osteotomy of the knee is the treatment of choice to correct the valgus, to eliminate pain in the young or middle age patient, and to avoid or delay a total knee replacement. A distal femoral lateral opening wedge procedure appears to be one of the choices for medium or large corrections and is particularly easy and precise if compared to the medial femoral closing wedge osteotomy. However, if the deformity is minimal, a tibial medial closing wedge osteotomy can be done with a faster healing and a short recovery time.     

计算机导航胫骨高位截骨联合关节镜的短期疗效

目的观察计算机导航辅助下胫骨高位截骨(HTO)联合关节镜治疗胫骨内翻畸形的临床疗效。 方法本回顾性研究收集了2018年11月至2019年1月在上海长海医院接受治疗的20例膝内翻畸形合并内侧间室骨关节炎的患者,男性7例,女性13例。纳入标准：膝关节内侧间室骨关节炎,症状局限于膝内侧;膝关节内翻畸形,且胫骨近端内翻畸形。排除标准：膝关节外侧间室骨关节炎;外侧半月板损伤或有手术史;膝关节屈曲挛缩>10°;严重肥胖。手术方式为计算机导航辅助下开放楔形胫骨高位截骨联合关节镜手术。测量术前、目标及术后的机械胫股角(mTFA)、胫骨近端内侧角(MPTA)、关节线会聚角(JLCA),测量术前及术后的Lysholm评分及美国特种外科医院(HSS)膝关节评分,进行配对t检验及Mann-Whitney U检验。 结果本组20例患者,平均年龄(55±7)岁,平均随访(11±3)个月。术后mTFA、MPTA、JLCA及力线位置均较术前显著改善。术后Lysholm评分与HSS评分均高于术前[67(60,75) vs. 51(46,61)(Z＝-4.22,P<0.001),67(59,71)vs. 55(49,59)(Z＝-3.64,P<0.001)];术后mTFA、力线位置、矫正角度及撑开高度与术前规划目标无差异统计学意义(P>0.05)。关节镜探查发现6例患者伴有内侧半月板撕裂(其中2例患者为内侧半月板后脚根部撕裂),5例存在内侧肥厚或纤维化的滑膜皱襞,4例股骨内侧髁明显骨赘增生,均予以相应处理。 结论计算机导航辅助下胫骨高位截骨能获得与术前力线矫正计划一致的精确性;关节镜探查时处理关节内半月板、滑膜及骨赘增生等病理性改变,改善内侧间室的局部环境,是提高胫骨高位截骨术疗效必要的操作。