期刊文献+

外踝内固定器的临床初步应用研究 被引量:2

Preliminary research of clinical application of lateral malleolar internal fixator
下载PDF
导出
摘要 目的:通过临床试验研究,论证外踝内固定器治疗外踝骨折的可行性及实用性。方法:病例30例均为闭合性骨折,随机分甲、乙两组,每组15例,分别选择外踝内固定器、重建钢板固定。术前对所有患者踝关节功能Baird-Jackson标准评分;术后复查记录X线片、内固定拆除时间、踝关节功能等。结果:30例患者术后9~20月随访,平均13.4±2.8月。甲组无术口感染、钢板松动或折断等并发症;乙组2例术口感染致乙级愈合,1例术后钢板螺钉松动借助石膏外固定3月最终骨折愈合,遗留踝关节疼痛。两组骨痂生长定量指标、内固定拆除时间及术后踝关节功能评分等均有统计学意义(P〈O.05)。结论:外踝内固定器系统适用于成人外踝WeberB和部分Weber C、WeberA骨折患者,对外踝特殊类型骨折如粉碎性骨折、骨质疏松患者更为适用;对骨折行三维立体环抱式固定,术后骨折愈合快,患肢功能恢复优良,临床应用取得满意效果。 Objective: To reserch the feasibility and practicability of internal fixator in treating lateral malleolar fracture. Methods: 30 cases were admitted from July 2007 to November 2010, 19 men, 11 women, 19 to 60 years old. All fractures were closed. According to Danis-Weber's classification: Weber I3 18 cases, Weber C 8 cases and Weber A 4 cases. The time from getting injured to accepting opertion was 4 to 20 days. They were randomly divided into 2 groups, 15 cases each; lateral malleolar internal fixator (LMIF) and reconstruction plate (RP) were applied to fix the lateral malleolar fracture respectively. The ankle function was evaluated by Baird- Jackson's standard before operation. The X-ray score, the time of taking down interal fixation and the score of ankle function were recorded after operation. Results: 30 cases were followed-up for 9 to 20 months. No infection or interal fixation failure occurred in LMIF group. In RP group, two cases had incision infection causing delayed union, one case had interal fixation failure which was fixed by piaster slab and healed three months later, but the ankle ache remained. The quantitative index of osteotylus, the time of dismantling interal fixation and the score of ankle function postoperation had significant differences between the two groups. Conclusion: LMIF is suitable to all kinds of lateral malleolar fracture, especially to Weber B and comminuted or osteoporosis fracture. The internal fixator can embrace bone fragments by three-dimensional fixation, facilitate the fracture regrowth and recover the function of the suffered limb.
出处 《泸州医学院学报》 2014年第3期276-279,共4页 Journal of Luzhou Medical College
基金 四川省科技厅课题([2012]24号) 泸州市科技局课题([2012]134号)
关键词 外踝内固定器 生物力学 骨折 切开复位 Lateral malleolar internal fixator Biomechanics Fracture Open reduction and fixation
  • 相关文献

参考文献12

  • 1Stark E, Tornetta P, Creevy WR.Syndesmotic instability in Weber B ankle fractures:a clinical evaluation[J].J Orthop Trauma, 2007, 21(9):643-646.
  • 2Sanders DW, Tieszer C, Corbett B, et al.Operative versus nonoperative treatment of unstable Lateral malleolar fractures a randomized multicenter trial[J].J Orthop Trauma, 2012, 26(3):129-134.
  • 3荣国威.踝关节骨折[J] .中华骨科杂志,1987,7(5):395-396.
  • 4Gougoulias N,Khanna A,Sakellariou A.et al.Supina-tion-external rotaion ankle fractures:stability a key issue[J].Clin Orthop Relat Res,2010,468(1):243-251.
  • 5Kleczkowski T, Szymczyk Z.Treatment results for ankle fracture with subluxation using bone plates for fixation of the fibula[J].Chir Narzadow Ruchu Ortop Pol, 1997, 62(6):539-543.
  • 6Christey GR,Tomlinson M.Risk factors for ankle fracture requiring operative fixation[J].Australian and New Zealand Journal of Surgery,1999,69 (3):220-223.
  • 7Tsukada S, Otsuji M, Shiozaki A, et al.Locking versus non-locking neutralization plates for treatment of lateral malleolar fractures:a randomized controlled trial[J].Int Orthop, 2013, 37(12):2451-2456.
  • 8郑连杰,赵增斌,杨梁,赵文志,李宝文.外踝钢板的研制及临床应用[J].骨与关节损伤杂志,2002,17(4):294-295. 被引量:1
  • 9喻鑫罡,张先龙,曾炳芳.骨折段低频可控微动影响骨痂矿化与力学特性的实验研究[J].上海交通大学学报(医学版),2008,28(12):1491-1495. 被引量:19
  • 10费军,余洪俊,杨欣建,Abel EW,孙俊.微接触钢板治疗长管状骨骨折临床疗效观察[J].中国矫形外科杂志,2004,12(5):342-344. 被引量:15

二级参考文献31

  • 1喻鑫罡,张先龙,曾炳芳.低频可控性微动影响长骨骨折愈合的实验研究[J].中华创伤骨科杂志,2005,7(8):744-748. 被引量:24
  • 2何勇,顾湘杰,马昕,王旭,冯国璋.胫腓下联合分离的生物力学研究[J].中华创伤骨科杂志,2005,7(10):943-947. 被引量:27
  • 3罗从风,姜锐,胡承方,陆男吉,仲飙,曾炳芳.锁定加压钢板微创固定治疗肱骨干骨折的初步报告[J].中华创伤骨科杂志,2006,8(11):1005-1009. 被引量:61
  • 4Epari DR, Taylor WR, Heller MO, et al. Mechanical conditions in the initial phase of bone healing [ J ]. Clin Biomech ( Bristol, Avon), 2006,21 (6) :646 - 655.
  • 5Ohnishi I, Nakamura K, Okazaki H, et al. Evaluation of the fracture site mechanical properties in vivo by mormitoring the motion of a dynamic pin clamp during simulated walking [ J ]. Clin Biomech ( Bristol, Avon), 2002,17(9) :687 -697.
  • 6Moorcroft CI, Ogrodnik PJ, Thomas PB, et al. Mechanical properties of callus in human tibial fractures: a preliminary investigation [J]. Clin Biomech (Bristol, Avon), 2001, 16(9):776-782.
  • 7Garden TN, Mishra S. The biomechanical environment of a bone fracture and its influence upon the morphology of healing[ J]. Med Eng Phys, 2003,25 (6) :455 - 464.
  • 8Augat P, Simon U, Liedert A, et al. Mechanics and mechano-biology of fracture healing in normal and osteoporotic bone [ J ]. Osteoporos Int, 2005,16 ( Suppl 2 ) : S36 - S43.
  • 9Hazarika S, Chakravarthy J, Cooper J. et al. Minimally invasive locking plate osteosynthesis for fractures of the distal tibia-results in 20 patients[J]. Injury, 2006,37(9) :877 -887.
  • 10Hasenboehler E, Rikli D, Babst R. Locking compression plate with minimally invasive plate osteosynthesis in disphyseal and distal tibial fracture: a retrospective study of 32 patients[ J]. Injury, 2007,38 (3) :365 -370.

共引文献49

同被引文献16

引证文献2

二级引证文献4

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部