Initial construct stability of long cephalomedullary nails with superior locking for a complex trochanteric fracture model AO31A2.2- a biomechanical study.

IF 2.8 3区 医学 Q1 ORTHOPEDICS
Arndt-Peter Schulz, Matthias Münch, Tobias Barth, Birgitt Kowald, Jasper Frese, Lina Behrends, Maximilian Hartel
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Abstract

Background: Complex fractures of the trochanteric region, as well as fractures located in the directly subtrochanteric region, are controversially discussed around the world regarding the nail type to be used. A long nail is recommended by manufacturers but requires longer surgical and fluoroscopy times. A possible solution could be a nail with an appropriate length which can be locked in a minimally invasive manner by the main aiming device. We aimed to determine if such a nail model (DCN SL nail, SWEMAC, Linköping, Sweden) offers similar structural stability on biomechanical testing on artificial bone as a standard long nail when used to treat complex trochanteric fractures and compared it to long nails usually used in this setting.

Methods: An osteoporotic bone model was chosen. The Swemac Hansson DCN Nail System was used as osteosynthesis material. Two types of nails were chosen: a superior lock nail which can be implanted with a singular targeting device, and a long nail with distal locking using free-hand technique. AO31A2.2 fractures were simulated in a standardised manner. Axial height of the construct, varus collapse, and rotational deformity directly after nail insertion were simulated. A Universal Testing Machine was used. Measurements were made with a stereo-optic tracking system.

Findings: There was a detectable difference in the axial fracture movement resulting in narrowing of the fracture gap. There was no difference in varus collapse or rotational deformity between the nail variants CONCLUSION: We conclude that there are small differences which are clinically insignificant and that a superior locking nail can safely be used to manage complex trochanteric fractures.

针对复杂转子骨折模型 AO31A2.2 的长头髓内钉与超强锁定的初始构建稳定性--一项生物力学研究。
背景:对于转子区的复杂骨折以及位于转子下正中的骨折,世界各地在使用何种钉子类型上存在争议。制造商推荐使用长钉,但需要更长的手术和透视时间。一种可能的解决方案是使用适当长度的钉子,这种钉子可以通过主瞄准装置以微创方式锁定。我们的目的是确定这种钉子模型(DCN SL 钉,瑞典林雪平 SWEMAC 公司)在用于治疗复杂转子间骨折时,在人工骨生物力学测试中是否具有与标准长钉相似的结构稳定性,并将其与通常在这种情况下使用的长钉进行比较:方法:选择了一种骨质疏松骨模型。方法:选择一个骨质疏松骨模型,使用 Swemac Hansson DCN 钉系统作为骨合成材料。选择了两种类型的钉子:一种是上锁钉,可使用单一瞄准装置植入;另一种是长钉,使用徒手技术进行远端锁定。以标准化方式模拟 AO31A2.2 骨折。模拟了结构的轴向高度、屈曲塌陷以及钉子插入后的直接旋转畸形。使用了万能试验机。使用立体光学跟踪系统进行测量:结果:轴向骨折移动存在可察觉的差异,导致骨折间隙变窄。结论:我们得出的结论是,两者之间存在微小的差异,但在临床上并不明显,因此可以安全地使用高级锁定钉来处理复杂的转子骨折。
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来源期刊
CiteScore
4.10
自引率
7.70%
发文量
494
审稿时长
>12 weeks
期刊介绍: Journal of Orthopaedic Surgery and Research is an open access journal that encompasses all aspects of clinical and basic research studies related to musculoskeletal issues. Orthopaedic research is conducted at clinical and basic science levels. With the advancement of new technologies and the increasing expectation and demand from doctors and patients, we are witnessing an enormous growth in clinical orthopaedic research, particularly in the fields of traumatology, spinal surgery, joint replacement, sports medicine, musculoskeletal tumour management, hand microsurgery, foot and ankle surgery, paediatric orthopaedic, and orthopaedic rehabilitation. The involvement of basic science ranges from molecular, cellular, structural and functional perspectives to tissue engineering, gait analysis, automation and robotic surgery. Implant and biomaterial designs are new disciplines that complement clinical applications. JOSR encourages the publication of multidisciplinary research with collaboration amongst clinicians and scientists from different disciplines, which will be the trend in the coming decades.
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