Three-dimensional biomechanical analysis of flexible intramedullary nailing constructs in length-unstable pediatric femur fractures.

IF 0.9 4区医学 Q4 ORTHOPEDICS

Journal of Pediatric Orthopaedics-Part B Pub Date : 2025-06-18 DOI:10.1097/BPB.0000000000001267

Emmanouil Grigoriou, Emil Varas-Rodriguez, M Bryant Transtrum, Ameya H Deshpande, Jeremy P Doak, Mark T Ehrensberger

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引用次数: 0

Abstract

Flexible intramedullary nail fixation of pediatric femoral shaft fractures offers advantages such as shorter hospital stays, faster return to function, and less associated costs when compared with traction and casting. This study compared the biomechanical performance of three configurations: 2CS, 2CL, and 3CL. Thirty synthetic femur models with identical, length-unstable, spiral fractures were tested using a three-dimensional camera system to assess real-time micromotion. Three groups were analyzed: (a) 2CS - two 3.5 mm C- and S-shaped nails inserted anterograde, (b) 2CL - one 'C' and one 'S' shaped 3.5 mm titanium nail-inserted retrograde from a single lateral entry, (c) 3CL - two 'C' shaped 3.5 mm titanium nails inserted medially and laterally with a third 'C' shaped 2.5 mm nail placed retrograde from an anterolateral site. Torsional loading, cyclical loading, and load-to-failure tests were conducted. The 3CL configuration demonstrated superior biomechanical performance. It exhibited the highest torsional stiffness [0.67 ± 0.06 Nm/° for external rotation (ER), 0.404 = ± 0.06 Nm/° for internal rotation (IR); P = 0.002], least displacement (0.05 ± 0.02 vs. 0.30 ± 0.02 mm for 2CL and 0.57 ± 0.05 mm for 2CS; P = 0.012), and required the highest load-to-failure (162 ± 83 vs. 1064 ± 75 N for 2CL and 790 ± 34 N for 2CS; P = 0.016).The 3CL configuration provided superior strength and stability across all tests, supporting its role in the fixation of length-unstable pediatric femoral fractures.

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弹性髓内钉治疗长度不稳定儿童股骨骨折的三维生物力学分析。

与牵引和铸造相比，柔性髓内钉固定治疗小儿股骨干骨折具有住院时间短、恢复功能快、费用低等优点。本研究比较了三种构型：2CS、2CL和3CL的生物力学性能。使用三维摄像系统对30个具有相同长度不稳定螺旋骨折的合成股骨模型进行了测试，以评估实时微运动。对三组进行分析：(a) 2CS -两枚3.5 mm C型和S型钛钉顺行插入，(b) 2CL -一枚“C”型和一枚“S”型3.5 mm钛钉从单个外侧入口逆行插入，(C) 3CL -两枚“C”型3.5 mm钛钉在内侧和外侧插入，第三枚“C”型2.5 mm钛钉从前外侧逆行插入。进行了扭转载荷、循环载荷和载荷至失效试验。3CL结构表现出优异的生物力学性能。其抗扭刚度最高，外旋（ER）为0.67±0.06 Nm/°，内旋（IR）为0.404 =±0.06 Nm/°；P = 0.002]，位移最小（0.05±0.02 vs. 2CL为0.30±0.02 mm， 2CS为0.57±0.05 mm）；P = 0.012)，并且要求最高的失效载荷（162±83 vs. 2CL的1064±75 N和2CS的790±34 N）；P = 0.016)。3CL结构在所有测试中提供了优越的强度和稳定性，支持其在固定长度不稳定的儿童股骨骨折中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Pediatric Orthopaedics-Part B 医学-小儿科

CiteScore

2.20

自引率

9.10%

发文量

170

审稿时长

4-8 weeks

期刊介绍： The journal highlights important recent developments from the world''s leading clinical and research institutions. The journal publishes peer-reviewed papers on the diagnosis and treatment of pediatric orthopedic disorders. It is the official journal of IFPOS (International Federation of Paediatric Orthopaedic Societies). Submitted articles undergo a preliminary review by the editor. Some articles may be returned to authors without further consideration. Those being considered for publication will undergo further assessment and peer-review by the editors and those invited to do so from a reviewer pool.