Short-term effectiveness of lateral raft plate combined with Jail screw fixation in treatment of tibial plateau collapse fractures involved posterior-lateral column_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

KONG Xiangru , WANG Bing , YANG Chun , SHAN Yuzhou , CHEN Hao , SUN Jianning , JIANG Wei , QIAN Yu , YANG Taiming ,  LIU Xu

Department of Orthopedics, Nanjing Drum Tower Hospital Group Suqian Hospital, the Affiliated Suqian Hospital of Xuzhou Medical University, Suqian Jiangsu, 223800, P. R. China;

Corresponding author：

LIU Xu, Email: liudongxu@163.com

Keywords：

Tibial plateau fracture; internal fixation; lateral raft plate; jail screw technique

DOI：

10.7507/1002-1892.202209014

Video：

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Objective To investigate the short-term effectiveness of proximal tibial lateral raft plate combined combined with or without Jail screw fixation in the treatment of tibial plateau collapse fractures involved posterior-lateral column. Methods A retrospective analysis was performed on 106 patients (106 knees) with tibial plateau collapse fracture involved posterior-lateral column admitted between January 2016 and January 2021. According to the combination with Jail screw fixation or not, patients were divided into control group (treated by lateral raft plate without Jail screw fixation, 52 cases) and study group (treated by lateral raft plate with Jail screw fixation, 54 cases). There was no significant difference between the two groups in terms of gender, age, affected knee side, cause of injury, Schatzker classification, Tscherne-Gotzen classification, time from injury to operation, and preoperative lateral tibial plateau posterior slope angle (PSA), tibial plateau varus angle (TPVA), Rasmussen anatomical score (P>0.05). The operation time, cumulative fluoroscopy time, intraoperative blood loss, hospitalization stay, fracture healing time, complications, and lateral tibial plateau PSA, TPVA, Rasmussen anatomical score detected by X-ray films and CT before operation and at 1 year after operation of the two groups were recorded and compared. The number of cases of articular surface collapse in the two groups was recorded at 1 year after operation, and the effectiveness was evaluated by American Special Surgery Hospital (HSS) score. Results All patients were followed up 12-32 months (mean, 19.5 months). There was no significant difference between the two groups in operation time, cumulative fluoroscopy time, intraoperative blood loss, hospitalization stay, and fracture healing time (P>0.05). There were 2 patients (3.7%) in the study group and 3 patients (5.8%) in the control group with superficial wound infection, which were cured after debridement and dressing change. There was no significant difference in the incidence between the two groups (χ²=0.252, P=0.616). There was no complication such as vascular and nerve injury, internal fixation failure, nonunion or malunion of fracture, and deep vein thrombosis of lower limbs in both groups. At 1 year after operation, 9 cases (17.3%) in the control group had joint collapse of 2-3 mm, while only 2 cases (3.7%) in the study group had joint collapse, showing significant difference (χ²=5.271, P=0.022). At 1 year after operation, the PSA, TPVA, and Rasmussen anatomical scores of the two groups were significantly improved when compared with preoperative ones (P<0.05); the differences of pre- and post-operative PSA, TPVA, Rasmussen anatomical score, and postoperative HSS score in the study group were significantly better than those in the control group (P<0.05). Conclusion The lateral raft plate combined with or without Jail screw fixation can achieve satisfactory short-term effectiveness in the treatment of tibial plateau collapse fractures involved posterior-lateral column. Combined with Jail screw, it can enhance the fixation and avoid the occurrence of secondary articular surface collapse, which can be used as a better choice.

Citation： KONG Xiangru, WANG Bing, YANG Chun, SHAN Yuzhou, CHEN Hao, SUN Jianning, JIANG Wei, QIAN Yu, YANG Taiming, LIU Xu. Short-term effectiveness of lateral raft plate combined with Jail screw fixation in treatment of tibial plateau collapse fractures involved posterior-lateral column. Chinese Journal of Reparative and Reconstructive Surgery, 2023, 37(1): 12-18. doi: 10.7507/1002-1892.202209014 Copy

1.	崔猛, 马信龙, 孙杰. 胫骨平台骨折手术治疗方法研究进展. 中华创伤杂志, 2021, 37(4): 366-372.
2.	胡东才, 辛曾峰, 黄路, 等. 经关节截骨治疗SchatzkerⅡ型胫骨平台骨折畸形愈合1例报道. 中华骨与关节外科杂志, 2019, 12(11): 903-905.
3.	白求恩·骨科加速康复联盟, 白求恩公益基金会创伤骨科专业委员会, 白求恩公益基金会关节外科专业委员会, 等. 加速康复外科理念下胫骨平台骨折诊疗方案优化的专家共识. 中华创伤骨科杂志, 2020, 22(10): 829-840.
4.	黄松, 陈敬有, 魏优秀. 关节镜辅助经皮接骨板内固定技术应用于SchatzkerⅡ~Ⅲ型胫骨平台骨折治疗的疗效及对患者远期生活质量的影响. 中华骨与关节外科杂志, 2017, 10(5): 428-432.
5.	Hermanowicz K, Mrozek T, Góralczyk A, et al. Arthroscopy-assisted management of schatzker type Ⅲ lateral tibial plateau fracture with interference screw fixation. Arthrosc Tech, 2021, 10(5): e1197-e1202.
6.	Dhillon MS, Virk MS, Kumar P, et al. The effectiveness of arthroscopy assisted fixation of Schatzker types Ⅰ-Ⅲ tibial plateau fractures: our experience at a tertiary centre. Int J Burns Trauma, 2021, 11(3): 163-169.
7.	Weimann A, Heinkele T, Herbort M, et al. Minimally invasive reconstruction of lateral tibial plateau fractures using the jail technique: a biomechanical study. BMC Musculoskelet Disord, 2013, 14: 120. doi: 10.1186/1471-2474-14-120.
8.	Rasmussen PS. Tibial condylar fractures. Impairment of knee joint stability as an indication for surgical treatment. J Bone Joint Surg (Am), 1973, 55(7): 1331-1350.
9.	Prat-Fabregat S, Camacho-Carrasco P. Treatment strategy for tibial plateau fractures: an update. EFORT Open Rev, 2017, 1(5): 225-232.
10.	Rudran B, Little C, Wiik A, et al. Tibial plateau fracture: Anatomy, diagnosis and management. Br J Hosp Med (Lond), 2020, 81(10): 1-9.
11.	Oeckenpöhler S, Domnick C, Raschke MJ, et al. A lateral fracture step-off of 2 mm increases intra-articular pressure following tibial plateau fracture. Injury, 2022, 53(3): 1254-1259.
12.	Huda N, Islam MSU, Hussain A, et al. Tibial plateau fractures-Does non anatomic reduction lead to an adverse outcome? A 10-year follow-up. Int J Burns Trauma, 2021, 11(4): 321-327.
13.	Cai P, Yuan M, Ji H, et al. The treatment of posterolateral tibial plateau fracture with a newly designed anatomical plate via the trans-supra-fibular head approach: preliminary outcomes. BMC Musculoskelet Disord, 2021, 22(1): 804. doi: 10.1186/s12891-021-04684-w.
14.	余进伟, 陈豪杰, 郭甲瑞, 等. 经腓骨颈截骨入路新型胫骨平台外侧环状接骨板治疗胫骨平台后外侧骨折. 中国修复重建外科杂志, 2022, 36(9): 1103-1107.
15.	Hu S, Chen S, Chang S, et al. Treatment of isolated posterolateral tibial plateau fracture with a horizontal belt plate through the anterolateral supra-fibular-head approach. Biomed Res Int, 2020, 2020: 4186712. doi: 10.1155/2020/4186712.
16.	Petersen W, Zantop T, Raschke M. Fracture of the tibial head. Unfallchirurg, 2006, 109(3): 219-234.
17.	Doht S, Lehnert T, Frey S, et al. Effective combination of bone substitute and screws in the jail technique: a biomechanical study of tibial depression fractures. Int Orthop, 2012, 36(10): 2121-2125.
18.	Lone AH, Khursheed O, Rashid S, et al. Jail technique for the fixation of unicondylar tibial plateau fractures operative management of split unicondylar tibial plateau fracture using “three-screw jail technique”. JMSCR, 2014, 12(2): 3251-3257.
19.	Vauclair F, Almasri M, Gallusser N, et al. Metaphyseal tibial level (MTL) screws: a modified percutaneous technique for lateral plateau depression fractures. Eur J Orthop Surg Traumatol, 2015, 25(5): 963-967.
20.	Moran E, Zderic I, Klos K, et al. Reconstruction of the lateral tibia plateau fracture with a third triangular support screw: A biomechanical study. J Orthop Translat, 2017, 11: 30-38.

1. 崔猛, 马信龙, 孙杰. 胫骨平台骨折手术治疗方法研究进展. 中华创伤杂志, 2021, 37(4): 366-372.
2. 胡东才, 辛曾峰, 黄路, 等. 经关节截骨治疗SchatzkerⅡ型胫骨平台骨折畸形愈合1例报道. 中华骨与关节外科杂志, 2019, 12(11): 903-905.
3. 白求恩·骨科加速康复联盟, 白求恩公益基金会创伤骨科专业委员会, 白求恩公益基金会关节外科专业委员会, 等. 加速康复外科理念下胫骨平台骨折诊疗方案优化的专家共识. 中华创伤骨科杂志, 2020, 22(10): 829-840.
4. 黄松, 陈敬有, 魏优秀. 关节镜辅助经皮接骨板内固定技术应用于SchatzkerⅡ~Ⅲ型胫骨平台骨折治疗的疗效及对患者远期生活质量的影响. 中华骨与关节外科杂志, 2017, 10(5): 428-432.
5. Hermanowicz K, Mrozek T, Góralczyk A, et al. Arthroscopy-assisted management of schatzker type Ⅲ lateral tibial plateau fracture with interference screw fixation. Arthrosc Tech, 2021, 10(5): e1197-e1202.
6. Dhillon MS, Virk MS, Kumar P, et al. The effectiveness of arthroscopy assisted fixation of Schatzker types Ⅰ-Ⅲ tibial plateau fractures: our experience at a tertiary centre. Int J Burns Trauma, 2021, 11(3): 163-169.
7. Weimann A, Heinkele T, Herbort M, et al. Minimally invasive reconstruction of lateral tibial plateau fractures using the jail technique: a biomechanical study. BMC Musculoskelet Disord, 2013, 14: 120. doi: 10.1186/1471-2474-14-120.
8. Rasmussen PS. Tibial condylar fractures. Impairment of knee joint stability as an indication for surgical treatment. J Bone Joint Surg (Am), 1973, 55(7): 1331-1350.
9. Prat-Fabregat S, Camacho-Carrasco P. Treatment strategy for tibial plateau fractures: an update. EFORT Open Rev, 2017, 1(5): 225-232.
10. Rudran B, Little C, Wiik A, et al. Tibial plateau fracture: Anatomy, diagnosis and management. Br J Hosp Med (Lond), 2020, 81(10): 1-9.
11. Oeckenpöhler S, Domnick C, Raschke MJ, et al. A lateral fracture step-off of 2 mm increases intra-articular pressure following tibial plateau fracture. Injury, 2022, 53(3): 1254-1259.
12. Huda N, Islam MSU, Hussain A, et al. Tibial plateau fractures-Does non anatomic reduction lead to an adverse outcome? A 10-year follow-up. Int J Burns Trauma, 2021, 11(4): 321-327.
13. Cai P, Yuan M, Ji H, et al. The treatment of posterolateral tibial plateau fracture with a newly designed anatomical plate via the trans-supra-fibular head approach: preliminary outcomes. BMC Musculoskelet Disord, 2021, 22(1): 804. doi: 10.1186/s12891-021-04684-w.
14. 余进伟, 陈豪杰, 郭甲瑞, 等. 经腓骨颈截骨入路新型胫骨平台外侧环状接骨板治疗胫骨平台后外侧骨折. 中国修复重建外科杂志, 2022, 36(9): 1103-1107.
15. Hu S, Chen S, Chang S, et al. Treatment of isolated posterolateral tibial plateau fracture with a horizontal belt plate through the anterolateral supra-fibular-head approach. Biomed Res Int, 2020, 2020: 4186712. doi: 10.1155/2020/4186712.
16. Petersen W, Zantop T, Raschke M. Fracture of the tibial head. Unfallchirurg, 2006, 109(3): 219-234.
17. Doht S, Lehnert T, Frey S, et al. Effective combination of bone substitute and screws in the jail technique: a biomechanical study of tibial depression fractures. Int Orthop, 2012, 36(10): 2121-2125.
18. Lone AH, Khursheed O, Rashid S, et al. Jail technique for the fixation of unicondylar tibial plateau fractures operative management of split unicondylar tibial plateau fracture using “three-screw jail technique”. JMSCR, 2014, 12(2): 3251-3257.
19. Vauclair F, Almasri M, Gallusser N, et al. Metaphyseal tibial level (MTL) screws: a modified percutaneous technique for lateral plateau depression fractures. Eur J Orthop Surg Traumatol, 2015, 25(5): 963-967.
20. Moran E, Zderic I, Klos K, et al. Reconstruction of the lateral tibia plateau fracture with a third triangular support screw: A biomechanical study. J Orthop Translat, 2017, 11: 30-38.

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