[1]田维,贾健.急性髌骨脱位的解剖学因素及核磁影像特征[J].中国矫形外科杂志,2015,23(6):527-532.
[2]Seitlinger G,Ladenhauf HN,Wierer G.What is the chance that a patella dislocation will happen a second time:Update on the natural history of a first time patella dislocation in the adolescent[J].Curr Opin Pediatr,2018,30(1):65-70.
[3]Lewallen LW,McIntosh AL,Dahm DL.Predictors of recurrent instability after acute patellofemoral dislocation in pediatric and adolescent patients[J].Am J Sports Med,2013,41(3):575-581.
[4]Jaquith BP,Parikh SN.Predictors of recurrent patellar instability in children and adolescents after first-time dislocation[J].J Pediatr Orthop,2017,37(7):484-490.
[5]Askenberger M,Janarv PM,Finnbogason T,et al.Morphology and anatomic patellar instability risk factors in first-time traumatic lateral patellar dislocations:A prospective magnetic resonance imaging study in skeletally immature children[J].Am J Sports Med,2017,45(1):50-58.
[6]Yeoh CS,Lam KY.Tibial tubercle to trochlear groove distance and index in children with one-time versus recurrent patellar dislocation:a magnetic resonance imaging study[J].J Orthop Surg(HK),2016,24(2):253-257.
[7]K-hlitz T,Scheffler S,Jung T,et al.Prevalence and patterns of anatomical risk factors in patients after patellar dislocation:A case control study using MRI[J].Eur Radiol,2013,23(4):1067-1074.
[8]Guilbert S,Chassaing V,Radier C,et al.Axial MRI index of patellar engagement:A new method to assess patellar instability[J].Orthop Traumatol Surg Res,2013,99(8 Suppl):S399-405.
[9]Roger J,Viste A,Cievet-Bonfils M,et al.Axial patellar engagement index and patellar tilt after medial patello-femoral ligament reconstruction in children and adolescents[J].Orthop Traumatol Surg Res,2019,105(1):133-138.
[10]Pozzi G,Al-Mnayyis A,Almolla J,et al.Middle patellar tendon to posterior cruciate ligament(PT-PCL)and normalized PTPCL:New magnetic resonance indices for tibial tubercle position in patients with patellar instability[J].Knee,2018,25(5):799-806.
[11]Yue RA,Arendt EA,Tompkins MA.Patellar height measurements on radiograph and magnetic resonance imaging in patellar instability and control patients[J].J Knee Surg,2017,30(9):943-950.
[12]Bonadio MB,Helito CP,do Prado Torres JA,et al.Plateau-patella angle:An option for the evaluation of patellar height in patients with patellar instability[J].Knee,2017,24(2):340-344.
[13]Diederichs G,K-hlitz T,Kornaropoulos E,et al.Magnetic resonance imaging analysis of rotational alignment in patients with patellar dislocations[J].Am J Sports Med,2013,41(1):51-57.
[14]Chassaing V,Zeitoun JM,Camara M,et al.Tibial tubercle torsion,a new factor of patellar instability[J].Orthop Traumatol Surg Res,2017,103(8):1173-1178.
[15]Wang S,Ji G,Yang X,et al.Femoral trochlear groove development after patellar subluxation and early reduction in growing rabbits[J].Knee Surg Sports Traumatol Arthrosc,2016,24(1):247-253.
[16]Yang G,Li F,Lu J,et al.The dysplastic trochlear sulcus due to the insufficient patellar stress in growing rats[J].BMC Musculoskelet Disord,2019,20(1):411.
[17]Neyret P,Robinson AH,Le Coultre B,et al.Patellar tendon length the factor in patellar instability[J].Knee,2002,9(1):3-6.
[18]Dejour D,Ferrua P,Ntagiopoulos PG,et al.The introduction of a new MRI index to evaluate sagittal patellofemoral engagement[J].Orthop Traumatol Surg Res,2013,99(8 Suppl):S391-398.
[19]Diederichs G,Scheffler S.MRI after patellar dislocation:assessment of risk factors and injury to the joint[J].Rofo,2013,185(7):611-620.
[20]Koh YG,Nam JH,Chung HS,et al.Genderrelated morphological differences in sulcus angle and condylar height for the femoral trochlea using magnetic resonance imaging[J].Knee Surg Sports Traumatol Arthrosc,2019,27(11):3560-3566.
[21]Fu K,Duan G,Liu C,et al.Changes in femoral trochlear morphology following surgical correction of recurrent patellar dislocation associated with trochlear dysplasia in children[J].Bone Joint J,2018,100B(6):811-821.
[22]Niu Y,Cao P,Liu C,et al.Early patellar dislocation can lead to tibial tubercle lateralization in rabbits[J].Knee Surg Sports Traumatol Arthrosc,2018,26(9):2602-2606.
[23]阮文辉,李宏波.成人复发性髌骨脱位的术前影像学评估与联合手术[J].中华骨与关节外科杂志,2016,9(1):57-61.
[24]马超,林杨景,熊然,等.内侧髌股韧带重建术联合胫骨结节截骨术治疗伴高位髌骨复发性髌骨脱位的临床疗效[J].中华创伤杂志,2017,33(10):911-917.
[25]徐华,王友华,曹毅.关节镜辅助下自体腓骨长肌腱重建内侧髌股韧带治疗髌骨脱位[J].中华创伤杂志,2020,36(4):327-331.
[26]Frosch KH,Schmeling A.A new classification system of patellar instability and patellar maltracking[J].Arch Orthop Trauma Surg,2016,136(4):485-497.
[27]Dejour D,Saggin P.The sulcus deepening trochleoplastythe Lyon's procedure[J].Int Orthop,2010,34(2):311-316.
[28]Ntagiopoulos PG,Byn P,Dejour D.Midterm results of comprehensive surgical reconstruction including sulcus-deepening trochleoplasty in recurrent patellar dislocations with highgrade trochlear dysplasia[J].Am J Sports Med,2013,41(5):998-1004.
[29]Malghem J,Maldague B.Depth insufficiency of the proximal trochlear groove on lateral radiographs of the knee:Relation to patellar dislocation[J].Radiology,1989,170(2):507-510.
[30]Longo UG,Vincenzo C,Mannering N,et al.Trochleoplasty techniques provide good clinical results in patients with trochlear dysplasia[J].Knee Surg Sports Traumatol Arthrosc,2018,26(9):2640-2658.
[31]Kita K,Tanaka Y,Toritsuka Y,et al.3D computed tomography evaluation of morphological changes in the femoral tunnel after medial patellofemoral ligament reconstruction with hamstring tendon graft for recurrent patellar dislocation[J].Am J Sports Med,2017,45(7):1599-1607.
[32]Düppe K,Gustavsson N,Edmonds EW.Developmental morphology in childhood patellar instability:Age-dependent differences on magnetic resonance imaging[J].J Pediatr Orthop,2016,36(8):870-876.
[33]李海群,张志仕,李博,等.三维CT扫描评价股骨滑车发育不良的应用研究[J].中国运动医学杂志,2017,36(4):286-289.