Research progress in coronal tibiofemoral subluxation

doi:10.3877/cma.j.issn.1674-134X.2020.06.017

Abstract

Abstract:

Coronal tibiofemoral subluxation (CTFS) is one of the mostcommon imaging manifestations of knee osteoarthritis, but its pathogenesis remains unclear.The increasing aging of the world population is accompanied by a rise in the incidence of knee osteoarthritis (KOA). The significance of CTFS in diagnosis and treatment evaluation of KOA has recently been gaining attention. In particular, CTFS is an important reference for assisting plastic surgeons with patient selection, preoperative planning, surgical techniqueand predict the prognosis.This review discussed the recent advance in coronal tibiofemoral subluxation. In this paper, the recent studies on CTFS were summarized to provide better reference for clinical practice and provide a reference for clinical treatment

Key words: Knee joint, Osteoarthritis, Joint dislocations

Haohao Wang, Min Zhang, Gang Xi, Runjie Zhang, Yakun Li, Hao Li. Research progress in coronal tibiofemoral subluxation[J]. Chinese Journal of Joint Surgery(Electronic Edition), 2020, 14(06): 747-751.

/ / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: https://zhgjwkzz.cma-cmc.com.cn/EN/10.3877/cma.j.issn.1674-134X.2020.06.017

https://zhgjwkzz.cma-cmc.com.cn/EN/Y2020/V14/I06/747

Figures/Tables 1

References 42

[1]	中华医学会骨科学分会关节外科学组. 骨关节炎诊疗指南(2018年版) [J]. 中华骨科杂志，2018，38(12):705-715.
[2]	Omori G, Narumi K, Nishino K, et al. Association of mechanical factors with medial knee osteoarthritis: a cross-sectional study from matsudai knee osteoarthritis survey [J]. J Orthop Sci, 2016，21(4):463-468.
[3]	Van Tunen JA, Dell’Isola A, Juhl C, et al. Biomechanical factors associated with the development of tibiofemoral knee osteoarthritis: Protocol for a systematic review and meta-analysis [J/OL]. BMJ open, 2016，6(6). doi.org/10.1136/bmjopen-2016-011066.
[4]	Deshpande BR, Katz JN, Solomon DH, et al. Number of persons with symptomatic knee osteoarthritis in the US: impact of race and ethnicity, age, sex, and obesity [J]. Arthritis Care Res, 2016，68(12):1743-1750.
[5]	Palmer JS, Jones LD, Monk AP, et al. Varus alignment of the proximal tibia is associated with structural progression in early to moderate varus osteoarthritis of the knee [J]. Knee Surg Sports Traumatol Arthrosc, 2020：3279-3286
[6]	Hunter DJ, Sharma L, Skaife T. Alignment and osteoarthritis of the knee [J]. JBJS, 2009，91(Supplement_1):85-89.
[7]	Gauffin H, Filbay S, Andersson C, et al. Radiographic osteoarthritis and knee symptoms 32-37 years following acute anterior cruciate ligament injury [J]. Osteoarthritis Cartilage, 2019, 27:S230-S231.
[8]	Faucett SC, Geisler BP, Chahla J, et al. Meniscus root repair vs meniscectomy or nonoperative management to prevent knee osteoarthritis after medial meniscus root tears: clinical and economic effectiveness [J]. Am J Sports Med, 2019，47(3):762-769.
[9]	Khamaisy S, Zuiderbaan HA, Thein R, et al. Coronal tibiofemoral subluxation in knee osteoarthritis [J]. Skeletal Radiol, 2016，45(1):57-61.
[10]	Weber KL, Jevsevar DS, McGrory BJ. Aaos clinical practice guideline: surgical management of osteoarthritis of the knee: evidence-based guideline [J]. J Am Acad Orthop Surg, 2016，24(8):e94-e96.
[11]	Akamatsu Y, Ohno S, Kobayashi H, et al. Coronal subluxation of the proximal tibia relative to the distal femur after opening wedge high tibial osteotomy [J]. Knee, 2017，24(1):70-75.
[12]	Marti CB, Gautier E, Wachtl SW, et al. Accuracy of frontal and sagittal plane correction in open-wedge high tibial osteotomy [J]. Arthroscopy, 2004，20(4):366-372.
[13]	Khamaisy S, Zuiderbaan HA, Thein R, et al. Coronal tibiofemoral subluxation: a new measurement method [J]. Knee, 2014，21(6):1069-1071.
[14]	Khamaisy S, Nam D, Thein R, et al. Limb alignment, subluxation, and bone density relationship in the osteoarthritic varus knee [J]. J Knee Surg, 2015，28(03):207-212.
[15]	Vainionpää S, Läike E, Kirves P, et al. Tibial osteotomy for osteoarthritis of the knee. A five to ten-year follow-up study [J]. JBJS, 1981, 63(6): 938-946.
[16]	Keene JS, Dyreby JJ. High tibial osteotomy in the treatment of osteoarthritis of the knee. The role of preoperative arthroscopy [J]. J Bone Joint Surg Am, 1983，65(1):36-42.
[17]	Nam D, Khamaisy S, Gladnick BP, et al. Is tibiofemoral subluxation correctable in unicompartmental knee arthroplasty? [J]. J Arthroplasty, 2013，28(9):1575-1579.
[18]	Ogawa H, Matsumoto K, Akiyama H. Coronal tibiofemoral subluxation is correlated to correction angle in medial opening wedge high tibial osteotomy [J]. Knee Surg Sports Traumatol Arthrosc, 2018，26(11):3482-3490.
[19]	Li J, Liu B, Zhu Y, et al. Tibial plateau non-uniform settlement, malalignment, coronal subluxation, and tibia rotation in medial compartment osteoarthritis: a geometrically radiographic study [J]. Int J Clin Exp Med, 2018，11(7):7072-7079.
[20]	Abulhasan JF, Grey MJ. Anatomy and physiology of knee stability [J]. J Funct Morphol Kinesiol, 2017，2(4):34.
[21]	Okamoto S, Okazaki K, Mitsuyasu H, et al. Lateral soft tissue laxity increases but medial laxity does not contract with varus deformity in total knee arthroplasty [J]. Clin Orthop Relat Res, 2013，471(4):1334-1342.
[22]	Siriwanarangsun P, Chen KC, Finkenstaedt T, et al. Patterns of cartilage degeneration in knees with medial tibiofemoral offset [J]. Skeletal Radiol, 2019，48(6):931-937.
[23]	Tachibana Y, Mae T, Fujie H, et al. Effect of radial meniscal tear on in situ forces of meniscus and tibiofemoral relationship [J]. Knee Surg Sports Traumatol Arthrosc, 2017，25(2):355-361.
[24]	Arno S, Bell CP, Uquillas C, et al. Tibiofemoral contact mechanics following a horizontal cleavage lesion in the posterior horn of the medial meniscus [J]. J Orthop Res, 2015，33(4):584-590.
[25]	Hosseini A, Van de Velde SK, Kozanek M, et al. In-vivo time-dependent articular cartilage contact behavior of the tibiofemoral joint [J]. Osteoarthritis cartilage, 2010，18(7):909-916.
[26]	Berger RA, Della Valle CJ. Unicompartmental knee arthroplasty: indications, technique, and results [M] // The Knee: a comprehensive review. Singapore: World Scientific Publishing, 2010: 393-411.
[27]	Chang CB, Koh IJ, Seo ES, et al. The radiographic predictors of symptom severity in advanced knee osteoarthritis with varus deformity [J]. Knee, 2011，18(6):456-460.
[28]	Chang CB, Han I, Kim S, et al. Association between radiological findings and symptoms at the patellofemoral joint in advanced knee osteoarthritis [J]. J Bone Joint Surg Br, 2007，89(10):1324-1328.
[29]	LaPrade RF, Wentorf F. Diagnosis and treatment of posterolateral knee injuries [J]. Clin Orthop Relat Res, 2002，402:110-121.
[30]	Hunter DJ, Niu J, Felson DT, et al. Knee alignment does not predict incident osteoarthritis: the framingham osteoarthritis study [J]. Arthritis Rheum, 2007，56(4):1212-1218.
[31]	d’Entremont A, McCormack R, Horlick S, et al. Effect of opening-wedge high tibial osteotomy on the three-dimensional kinematics of the knee [J]. Bone Joint J, 2014，96(9):1214-1221.
[32]	Kim YT, Choi JY, Lee JK, et al. Coronal tibiofemoral subluxation is a risk factor for postoperative overcorrection in high tibial osteotomy [J]. Knee, 2019，26(4):832-837.
[33]	Gomoll AH. High tibial osteotomy for the treatment of unicompartmental knee osteoarthritis: a review of the literature, indications, and technique [J]. Phys Sportsmed, 2011，39(3):45-54.
[34]	Watanabe Y, Takenaka N, Kinugasa K, et al. Intra-and extra-articular deformity of lower limb: Tibial condylar valgus osteotomy (TCVO) and distal tibial oblique osteotomy (DTOO) for reconstruction of joint congruency[J/OL]. Adv Orthop, 2019. doi.org/10.1155/2019/8605674.
[35]	Higuchi T, Koseki H, Yonekura A, et al. Comparison of radiological features of high tibial osteotomy and tibial condylar valgus osteotomy [J]. BMC Musculoskelet Disord, 2019，20(1):409.
[36]	Chiba K, Yonekura A, Miyamoto T, et al. Tibial condylar valgus osteotomy (tcvo) for osteoarthritis of the knee: 5-year clinical and radiological results [J]. Arch Orthop Trauma Surg, 2017，137(3):303-310.
[37]	Pearle AD, Kendoff D, Stueber V, et al. Perioperative management of unicompartmental knee arthroplasty using the mako robotic arm system (makoplasty) [J]. Am J Orthop, 2009，38(2):16-19.
[38]	Scott RD, Santore RF. Unicondylar unicompartmental replacement for osteoarthritis of the knee [J]. J Bone Joint Surg Am, 1981，63(4):536-544.
[39]	Cartier P, Cheaib S. Unicondylar knee arthroplasty: 2-10 yars of follow-up evaluation [J]. J Arthroplasty, 1987，2(2):157-162.
[40]	Collier MB, Eickmann TH, Sukezaki F, et al. Patient, implant, and alignment factors associated with revision of medial compartment unicondylar arthroplasty [J]. J Arthroplasty, 2006，21(6):108-115.
[41]	Kamenaga T, Takayama K, Ishida K, et al. Central implantation of femoral component relative to tibial insert improves clinical outcomes in fixed-bearing unicompartmental knee arthroplasty [J]. J Arthroplasty, 2020，3108-3116.
[42]	Schadler P, Kasparek M, Boettner F, et al. Coronal tibiofemoral subluxation is not an independent risk factor for total knee arthroplasty in patients with moderate to severe varus-osteoarthritis: data from the "osteoarthritis initiative" [J]. Arch Orthop Trauma Surg, 2017，137(10):1423-1428.

Please choose a citation manager

Content to export