Mid-term effectiveness analysis of combined knee extensor mechanism realignment with bone anchor for recurrent patella dislocation_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

CAI Guofeng ,  LI Yanlin , NING Ziwen , HAN Rui , JIA Di , LI Song , SONG En , WANG Xu

Department of Sports Medicine, First Affiliated Hospital of Kunming Medical University, Kunming Yunnan, 650032, P. R. China;

Corresponding author：

LI Yanlin, Email: 852387873@qq.com

Keywords：

Recurrent patella dislocation; anchor; extensor mechanism realignment; mid-term effectiveness

DOI：

10.7507/1002-1892.202201087

Video：

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Objective To explore the mid-term effectiveness of combined knee extensor mechanism realignment with bone anchor for recurrent patella dislocation. Methods Between August 2017 and May 2019, 21 patients with recurrent patella dislocation underwent combined knee extensor mechanism realigament with bone anchor and followed up more than 3 years. There were 8 males and 13 females with an average age of 19.4 years (range, 13-26 years). All 21 patients had a history of recurrent patellar dislocation for 2-5 times (median, 3 times), and the disease duration was 1-16 years (mean, 5 years). The preoperative Lysholm score was 67.5±6.3 and the Kujula score was 64.1±7.0. The defect of meniscus, anterior and posterior cruciate ligaments, and medial and lateral collateral ligaments were excluded by MRI examination; CT examination showed that the tibial tuberosity-trochlear groove distance was 2.05-2.56 cm, with an average of 2.16 cm; X-ray examination showed that lower limb force line was abnormal. The effectiveness were evaluated by Lysholm score and Kujula score before operation and at 3 years after operation, and Insall evaluation standard at 3 years after operation. Results All the incisions healed by first intention, and there was no surgical complication such as lower extremity deep vein thrombosis, incision infection, and nerve injury. All 21 patients were followed up 3.0-3.5 years, with an average of 3.2 years. Anteroposterior and lateral X-ray films of the knee joint at 3 years after operation showed that the position of the patella was normal, and the axial X-ray films of the patella (30°, 60°, 90°) showed that the patellofemoral joint had a good relationship. During the follow-up, there was no anchor drop or fracture, no obvious pseudarthrosis formation, and no epiphyseal injury in the minor patients. The Lysholm score was 91.5±7.1 and the Kujula score was 88.1±7.6 at 3 years after operation, which were significantly improved when compared with those before operation (t=11.57, P=0.00; t=12.78, P=0.00). According to the Insall evaluation criteria, 12 cases were excellent, 4 cases were good, 4 cases were fair, and 1 case was poor, with an excellent and good rate of 76.2%. Conclusion Combined knee extensor mechanism realignment with bone anchor is a simple and reliable way to treat the recurrent patella dislocation, with a satisfactory mid-term effectiveness and less complications; however, its long-term effectiveness needs further follow-up.

Citation： CAI Guofeng, LI Yanlin, NING Ziwen, HAN Rui, JIA Di, LI Song, SONG En, WANG Xu. Mid-term effectiveness analysis of combined knee extensor mechanism realignment with bone anchor for recurrent patella dislocation. Chinese Journal of Reparative and Reconstructive Surgery, 2022, 36(8): 963-968. doi: 10.7507/1002-1892.202201087 Copy

1.	Le Hoang Di T, Hoang Ngoc T, Ngo DHA, et al. Evaluation of the insall-salvati ratio among the vietnamese population: Application for diagnosis of patellar malalignment. Orthop Res Rev, 2021, 13: 57-61.
2.	Schmeling A, Frings J, Akoto R, et al. Patellar dislocation: Causes and treatment. Unfallchirurg, 2020, 123(12): 969-983.
3.	Grimm NL, Levy BJ, Jimenez AE, et al. Traumatic patellar dislocations in childhood and adolescents. Orthop Clin North Am, 2020, 51(4): 481-491.
4.	Migliorini F, Marsilio E, Cuozzo F, et al. Chondral and soft tissue injuries associated to acute patellar dislocation: A systematic review. Life (Basel), 2021, 11(12): 1360. doi: 10.3390/life11121360.
5.	Pogorzelski J, Rupp MC, Ketzer C, et al. Reliable improvements in participation in low-impact sports following implantation of a patellofemoral inlay arthroplasty at mid-term follow-up. Knee Surg Sports Traumatol Arthrosc, 2021, 29(10): 3392-3399.
6.	Floyd ER, Ebert NJ, Carlson GB, et al. Medial patellofemoral reconstruction using quadriceps tendon autograft, tibial tubercle osteotomy, and sulcus-deepening trochleoplasty for patellar instability. Arthrosc Tech, 2021, 10(5): e1249-e1256.
7.	Ormeci T, Turkten I, Sakul BU. Radiological evaluation of patellofemoral instability and possible causes of assessment errors. World J Methodol, 2022, 12(2): 64-82.
8.	Levy BJ, Jimenez AE, Fitzsimmons KP, et al. Medial patellofemoral ligament reconstruction and lateral retinacular lengthening in the skeletally immature patient. Arthrosc Tech, 2020, 9(6): e737-e745.
9.	Li Z, Liu G, Tian R, et al. The patellofemoral morphology and the normal predicted value of tibial tuberosity-trochlear groove distance in the Chinese population. BMC Musculoskelet Disord, 2021, 22(1): 575. doi: 10.1186/s12891-021-04454-8.
10.	Walker M, Maini L, Kay J, et al. Femoral tunnel malposition is the most common indication for revision medial patellofemoral ligament reconstruction with promising early outcomes following revision reconstruction: a systematic review. Knee Surg Sports Traumatol Arthrosc, 2022, 30(4): 1352-1361.
11.	Gould HP, Delaney NR, Parks BG, et al. Interference screw versus suture anchors for femoral fixation in medial patellofemoral ligament reconstruction: A biomechanical study. Orthop J Sports Med, 2021, 9(3): 2325967121989282. doi: 10.1177/2325967121989282.
12.	Carroll CJ, Nammour M, Reese J, et al. Patellar dislocation and fracture after medial patellofemoral ligament reconstruction in a patient with osteogenesis imperfecta. Ochsner J, Spring 2022, 22(1): 80-84.
13.	Zhang Z, Cao Y, Song G, et al. Derotational femoral osteotomy for treating recurrent patellar dislocation in the presence of increased femoral anteversion: A systematic review. Orthop J Sports Med, 2021, 9(11): 23259671211057126. doi: 10.1177/23259671211057126.
14.	Cregar WM, Huddleston HP, Wong SE, et al. Inconsistencies in reporting risk factors for medial patellofemoral ligament reconstruction failure: A systematic review. Am J Sports Med, 2022, 50(3): 867-877.
15.	李彦林, 王国梁, 蔡国锋, 等. 骨锚技术重建伸膝装置治疗青少年复发性髌骨半脱位的疗效分析. 中国修复重建外科杂志, 2015, 29(10): 1204-1207.
16.	Niu J, Lin W, Qi Q, et al. Anatomical medial patellofemoral ligament reconstruction for recurrent patella dislocation: Two-strand grafts versus four-strand grafts. J Knee Surg, 2021, 34(2): 147-154.
17.	Repo JP, Uimonen MM, Nevalainen MT, et al. Outcomes following the operative treatment of intra-articular fracture combined with medial patellofemoral ligament reconstruction after patellar dislocation. Knee Surg Relat Res, 2022, 34(1): 21. doi: 10.1186/s43019-022-00150-6.
18.	Haddad BI, Hamdan M, Isleem U, et al. Validation of the cultural adaptation of the Kujala score in Arabic. J Orthop Surg Res, 2021, 16(1): 323. doi: 10.1186/s13018-021-02489-0.
19.	Milinkovic DD, Jovandic I, Zimmermann F, et al. The J-sign and the body mass index determine the disease-specific quality of life in patients with lateral patellar instability. Knee Surg Sports Traumatol Arthrosc, 2022, 30(5): 1672-1678.
20.	Vellios EE, Trivellas M, Arshi A, et al. Recurrent patellofemoral instability in the pediatric patient: Management and pitfalls. Curr Rev Musculoskelet Med, 2020, 13(1): 58-68.
21.	Towoezim TH, Akloa KEK, Kombate NK, et al. Management of objective patellar instabilities at the University Hospital Center Sylvanus Olympio of Lome, Togo. Pan Afr Med J, 2021, 38: 371. doi: 10.11604/pamj.2021.38.371.22956.
22.	蔡国锋, 王旭, 宁梓文, 等. 伸膝装置联合重排治疗复发性髌骨脱位的三维有限元分析. 中国修复重建外科杂志, 2022, 36(5): 573-581.
23.	Dobke LS, Bonadiman JA, Lopes OV, et al. Biomechanical study of different femoral fixation devices in the reconstruction of the medial patellofemoral ligament in porcine knees. Rev Bras Ortop (Sao Paulo), 2020, 55(6): 771-777.
24.	Onggo JR, Babazadeh S, Pai V. Smaller gap formation with suture anchor fixation than traditional transpatellar sutures in patella and quadriceps tendon rupture: A systematic review. Arthroscopy, 2022. doi: 10.1016/j.arthro.2022.01.012.
25.	Dall’Oca C, Elena N, Lunardelli E, et al. MPFL reconstruction: indications and results. Acta Biomed, 2020, 91(4-S): 128-135.

1. Le Hoang Di T, Hoang Ngoc T, Ngo DHA, et al. Evaluation of the insall-salvati ratio among the vietnamese population: Application for diagnosis of patellar malalignment. Orthop Res Rev, 2021, 13: 57-61.
2. Schmeling A, Frings J, Akoto R, et al. Patellar dislocation: Causes and treatment. Unfallchirurg, 2020, 123(12): 969-983.
3. Grimm NL, Levy BJ, Jimenez AE, et al. Traumatic patellar dislocations in childhood and adolescents. Orthop Clin North Am, 2020, 51(4): 481-491.
4. Migliorini F, Marsilio E, Cuozzo F, et al. Chondral and soft tissue injuries associated to acute patellar dislocation: A systematic review. Life (Basel), 2021, 11(12): 1360. doi: 10.3390/life11121360.
5. Pogorzelski J, Rupp MC, Ketzer C, et al. Reliable improvements in participation in low-impact sports following implantation of a patellofemoral inlay arthroplasty at mid-term follow-up. Knee Surg Sports Traumatol Arthrosc, 2021, 29(10): 3392-3399.
6. Floyd ER, Ebert NJ, Carlson GB, et al. Medial patellofemoral reconstruction using quadriceps tendon autograft, tibial tubercle osteotomy, and sulcus-deepening trochleoplasty for patellar instability. Arthrosc Tech, 2021, 10(5): e1249-e1256.
7. Ormeci T, Turkten I, Sakul BU. Radiological evaluation of patellofemoral instability and possible causes of assessment errors. World J Methodol, 2022, 12(2): 64-82.
8. Levy BJ, Jimenez AE, Fitzsimmons KP, et al. Medial patellofemoral ligament reconstruction and lateral retinacular lengthening in the skeletally immature patient. Arthrosc Tech, 2020, 9(6): e737-e745.
9. Li Z, Liu G, Tian R, et al. The patellofemoral morphology and the normal predicted value of tibial tuberosity-trochlear groove distance in the Chinese population. BMC Musculoskelet Disord, 2021, 22(1): 575. doi: 10.1186/s12891-021-04454-8.
10. Walker M, Maini L, Kay J, et al. Femoral tunnel malposition is the most common indication for revision medial patellofemoral ligament reconstruction with promising early outcomes following revision reconstruction: a systematic review. Knee Surg Sports Traumatol Arthrosc, 2022, 30(4): 1352-1361.
11. Gould HP, Delaney NR, Parks BG, et al. Interference screw versus suture anchors for femoral fixation in medial patellofemoral ligament reconstruction: A biomechanical study. Orthop J Sports Med, 2021, 9(3): 2325967121989282. doi: 10.1177/2325967121989282.
12. Carroll CJ, Nammour M, Reese J, et al. Patellar dislocation and fracture after medial patellofemoral ligament reconstruction in a patient with osteogenesis imperfecta. Ochsner J, Spring 2022, 22(1): 80-84.
13. Zhang Z, Cao Y, Song G, et al. Derotational femoral osteotomy for treating recurrent patellar dislocation in the presence of increased femoral anteversion: A systematic review. Orthop J Sports Med, 2021, 9(11): 23259671211057126. doi: 10.1177/23259671211057126.
14. Cregar WM, Huddleston HP, Wong SE, et al. Inconsistencies in reporting risk factors for medial patellofemoral ligament reconstruction failure: A systematic review. Am J Sports Med, 2022, 50(3): 867-877.
15. 李彦林, 王国梁, 蔡国锋, 等. 骨锚技术重建伸膝装置治疗青少年复发性髌骨半脱位的疗效分析. 中国修复重建外科杂志, 2015, 29(10): 1204-1207.
16. Niu J, Lin W, Qi Q, et al. Anatomical medial patellofemoral ligament reconstruction for recurrent patella dislocation: Two-strand grafts versus four-strand grafts. J Knee Surg, 2021, 34(2): 147-154.
17. Repo JP, Uimonen MM, Nevalainen MT, et al. Outcomes following the operative treatment of intra-articular fracture combined with medial patellofemoral ligament reconstruction after patellar dislocation. Knee Surg Relat Res, 2022, 34(1): 21. doi: 10.1186/s43019-022-00150-6.
18. Haddad BI, Hamdan M, Isleem U, et al. Validation of the cultural adaptation of the Kujala score in Arabic. J Orthop Surg Res, 2021, 16(1): 323. doi: 10.1186/s13018-021-02489-0.
19. Milinkovic DD, Jovandic I, Zimmermann F, et al. The J-sign and the body mass index determine the disease-specific quality of life in patients with lateral patellar instability. Knee Surg Sports Traumatol Arthrosc, 2022, 30(5): 1672-1678.
20. Vellios EE, Trivellas M, Arshi A, et al. Recurrent patellofemoral instability in the pediatric patient: Management and pitfalls. Curr Rev Musculoskelet Med, 2020, 13(1): 58-68.
21. Towoezim TH, Akloa KEK, Kombate NK, et al. Management of objective patellar instabilities at the University Hospital Center Sylvanus Olympio of Lome, Togo. Pan Afr Med J, 2021, 38: 371. doi: 10.11604/pamj.2021.38.371.22956.
22. 蔡国锋, 王旭, 宁梓文, 等. 伸膝装置联合重排治疗复发性髌骨脱位的三维有限元分析. 中国修复重建外科杂志, 2022, 36(5): 573-581.
23. Dobke LS, Bonadiman JA, Lopes OV, et al. Biomechanical study of different femoral fixation devices in the reconstruction of the medial patellofemoral ligament in porcine knees. Rev Bras Ortop (Sao Paulo), 2020, 55(6): 771-777.
24. Onggo JR, Babazadeh S, Pai V. Smaller gap formation with suture anchor fixation than traditional transpatellar sutures in patella and quadriceps tendon rupture: A systematic review. Arthroscopy, 2022. doi: 10.1016/j.arthro.2022.01.012.
25. Dall’Oca C, Elena N, Lunardelli E, et al. MPFL reconstruction: indications and results. Acta Biomed, 2020, 91(4-S): 128-135.

Chinese Journal of Reparative and Reconstructive Surgery

Mid-term effectiveness analysis of combined knee extensor mechanism realignment with bone anchor for recurrent patella dislocation

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