Abstract:Objective: To investigate the incidence of tibia plateau fractures with meniscus injury and the clinical effect of minimally invasive combined with open surgery. Methods: The incidence of tibia plateau fractures combined with meniscus injury in the type of Schatzter of 360 patients was calculated.Then the patients of type Ⅰ and part of the joint surface didn't subsidence Ⅳ and Ⅴ tibial plateau fractures combined with meniscus injury were divided into minimally invasive open surgery treatment group and conventional open surgery treatment group. The surgical efficacy, the incidence of postoperative complications and the postoperative knee function were observed in the two groups of different injury type. Results: In 360 patients, the incidence of Schatzker Ⅰ, Ⅱ Ⅲ, Ⅳ Ⅴ, Ⅵ tibial plateau fractures combined with meniscus injury was 19.2%, 47.7%, 20.8%, 21.5%, 29.8% and 35.7%, the overall incidence of 28.6%. Compared with the conventional open surgery treatment group, minimally invasive combined with open surgery regimen showed no significant improvement in the incidence of postoperative complications (P>0.05), and significantly increased the surgical efficacy (P<0.01) and postoperative knee joint function (P<0.05). Conclusion: The clinical effect of minimally invasive combined with open surgery was significantly higher than that of conventional open surgery treatment.
曹向宇,石利涛,张立超. 微创结合开放手术对胫骨平台骨折合并半月板的临床疗效观察[J]. 河北医学, 2018, 24(12): 1981-1986.
CAO Xiangyu, SHI Litao, ZHANG Lichao. The Clinical Effect of Minimally Invasive Combined with Open Surgery for Tibia Plateau Fractures with Meniscus Injury. HeBei Med, 2018, 24(12): 1981-1986.
[1] Mattiassich G, Foltin E, Scheurecker G, et al. Radiographic and clinical results after surgically treated tibial plateau fractures at three and twenty two years postsurgery [J]. Int Orthop,2014,38(3):587~594. [2] Molenaars RJ, Mellema JJ, Doornberg JN, et al. Tibial plateau fracture characteristics: computed tomography mapping of lateral, medial, and bicondylar fractures [J].Bone Joint Surg Am,2015,97(18):1512~1520. [3] Warner SJ, Garner MR, Schottel PC, et al. The effect of soft tissue injuries on clinical outcomes after tibial pPlateau fracture fixation [J].Orthop Trauma,2018,32(3):141~147. [4] Stannard JP, Lopez R, Volgas D. Soft tissue injury of the knee after tibial plateau fractures [J].Knee Surg,2010,23(4):187~192. [5] Schatzker J, McBroom R, Bruce D. The tibial plateau fracture. The Toronto experience 1968-1975 [J]. Clin Orthop Relat Res,1979, 138: 94~104. [6] 中华创伤骨科杂志编辑委员会.胫骨平台骨折诊断与治疗的专家共识[J].中华创伤骨科杂志,2015,(1):3~7. [7] Zhang Y, Song L, Li X, et al. Flexion-valgus unicondylar tibial plateau depression fracture pattern: Classification and treatment [J]. Injury,2018, 49(4): 852~859. [8] Kandemir U, Maclean J. Surgical approaches for tibial plateau fractures [J].Knee Surg,2014, 27(1): 21~29. [9] Barber FA, McGarry JE. Meniscal repair techniques [J]. Sports Med Arthrosc Rev,2007,15(4):199~207. [10] Schmidt AH1, Finkemeier CG, Tornetta P 3rd. Treatment of closed tibial fractures [J]. Instr Course Lect,2003, 52: 607~622. [11] Kovac N, Grainger N, Hurworth M. Training models for meniscal repairs and small joint arthroscopy [J]. ANZ Surg,2015, 85(9): 649~651. [12] Chen HW, Liu GD, Wu LJ. Clinical and radiological outcomes following arthroscopic-assisted management of tibial plateau fractures: a systematic review [J]. Knee Surg Sports Traumatol Arthrosc,2015, 23(12): 3464~3472. [13] Chen XZ, Liu CG, Chen Y, et al. Arthroscopy-assisted surgery for tibial plateau fractures [J]. Arthroscopy,2015, 31(1):143~153.
2018, Vol. 24 
冀公网安备13080202000677号