后交叉韧带撕脱骨折不同固定技术的生物力学特性
Biomechanical Properties of Different Fixation Techniques for Posterior Cruciate Ligament Avulsion Fractures.
作者信息
Domnick Christoph, Kösters Clemens, Franke Friederike, Raschke Michael J, Petersen Wolf, Fink Christian, Herbort Mirco
机构信息
Department of Trauma, Hand and Reconstructive Surgery, Westphalian Wilhelms University Muenster, Muenster, Germany.
Department of Orthopedic and Trauma Surgery, Martin Luther Hospital, Berlin, Germany.
出版信息
Arthroscopy. 2016 Jun;32(6):1065-71. doi: 10.1016/j.arthro.2015.10.013. Epub 2016 Jan 14.
PURPOSE
To analyze the ultimate failure load, yield load, stiffness, and cyclic elongation of 4 different fixation techniques for posterior cruciate ligament avulsion fractures under cyclic loading and load-to-failure conditions.
METHODS
In 40 porcine knees, a standardized bony avulsion of the posterior cruciate ligament was generated. The osseous avulsion was fixed by the following techniques through an open approach: (1) direct anterograde screw fixation (3.5 mm with washer), (2) retrograde screw fixation (3.5 mm with washer), (3) cortical suspension button fixation (with No. 2 braided suture), and (4) direct suture cerclage (with No. 2 braided suture). The constructs were cyclically loaded 500 times (10 to 100 N) to measure the maximum elongation. Subsequently, loading to failure was performed, and stiffness, yield load, and maximum load were measured. A 1-way analysis-of-variance test was performed with significance set at P < .05.
RESULTS
Button fixation resulted in lower elongation (1.25 ± 0.27 mm) than anterograde screw fixation (2.17 ± 0.74 mm, P = .0058) and the cerclage technique (2.02 ± 0.24 mm, P = .0290). The cerclage technique showed a lower yield load (493.55 ± 88.86 N) than anterograde screw fixation (720.39 ± 139.0 N, P = .0012) and retrograde screw fixation (668.58 ± 147.59 N, P = .0145); it also had lower stiffness and maximum load values (51.2 ± 6.11 N/mm and 631.22 ± 101.22 N, respectively) than the anterograde screw fixation technique (65.6 ± 12.74 N/mm, P = .041, for stiffness and 817.5 ± 145.9 N, P = .008, for maximum load). None of the other results were significantly different (P > .05).
CONCLUSIONS
The cortical suspension button and retrograde screw fixation techniques showed comparable structural properties to the direct screw fixation technique. The raw structural properties of suture cerclage still seem eligible enough to consider using this technique for fixation.
CLINICAL RELEVANCE
In this in vitro model, all techniques appear to constitute a biomechanically stable alternative to traditional anterograde screw fixation. In contrast to anterograde screw fixation, these techniques can be performed minimally invasively.
目的
分析在循环加载和破坏载荷条件下,4种不同固定技术用于后交叉韧带撕脱骨折时的极限破坏载荷、屈服载荷、刚度和循环伸长情况。
方法
在40个猪膝关节上制造标准化的后交叉韧带骨撕脱。通过开放入路,采用以下技术固定骨撕脱:(1)直接顺行螺钉固定(3.5毫米带垫圈),(2)逆行螺钉固定(3.5毫米带垫圈),(3)皮质悬吊纽扣固定(用2号编织缝线),(4)直接缝线环扎(用2号编织缝线)。对构建物进行500次循环加载(10至100牛)以测量最大伸长。随后进行破坏载荷加载,并测量刚度、屈服载荷和最大载荷。进行单因素方差分析,显著性设定为P <.05。
结果
纽扣固定导致的伸长(1.25±0.27毫米)低于顺行螺钉固定(2.17±0.74毫米,P =.0058)和环扎技术(2.02±0.24毫米,P =.0290)。环扎技术的屈服载荷(493.55±88.86牛)低于顺行螺钉固定(720.39±139.0牛,P =.0012)和逆行螺钉固定(668.58±147.59牛,P =.0145);其刚度和最大载荷值(分别为51.2±6.11牛/毫米和631.22±101.22牛)也低于顺行螺钉固定技术(刚度为65.6±12.74牛/毫米,P =.041,最大载荷为817.5±145.9牛,P =.008)。其他结果均无显著差异(P>.05)。
结论
皮质悬吊纽扣和逆行螺钉固定技术显示出与直接螺钉固定技术相当的结构性能。缝线环扎的原始结构性能似乎仍足以考虑使用该技术进行固定。
临床意义
在这个体外模型中,所有技术似乎都构成了一种生物力学稳定的替代传统顺行螺钉固定的方法。与顺行螺钉固定相比,这些技术可以微创进行。
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