指骨和掌骨骨折的微型与超微型钢板固定：一项生物力学研究。

Mini and micro plating of phalangeal and metacarpal fractures: a biomechanical study.

作者信息

Prevel C D, Eppley B L, Jackson J R, Moore K, McCarty M, Sood R, Wood R [corrected to Sood R ]

机构信息

Department of Surgery, Indiana University School of Medicine, Indianapolis, USA.

出版信息

J Hand Surg Am. 1995 Jan;20(1):44-9. doi: 10.1016/s0363-5023(05)80057-7.

DOI:10.1016/s0363-5023(05)80057-7

PMID:7722264

Abstract

Biomechanical testing was performed in a cadaver model to evaluate the effects of plate size and position on fracture stability using Leibinger mini and microplates applied on the proximal phalanx and metacarpal. Fresh frozen cadaveric metacarpal and proximal phalanges were subjected to a midshaft transverse osteotomy followed by application of titanium mini (1.7 mm screw diameter) and micro (1.2 mm screw diameter) plates/screws. For the metacarpal, a dorsal miniplate, a dorsal microplate, and bilateral microplates were used. For the proximal phalanx, similar plate configurations and sizes were used with the addition of a unilateral microplate. A three point bending model with both dorsal and palmar apex loading was used for all configurations. This study confirms that a dorsally applied miniplate provides the greatest rigidity to a dorsal apex load.

摘要

在尸体模型上进行生物力学测试，以评估使用Leibinger微型和超微型钢板应用于近节指骨和掌骨时，钢板尺寸和位置对骨折稳定性的影响。对新鲜冷冻的尸体掌骨和近节指骨进行中轴横向截骨术，然后应用钛制微型（螺钉直径1.7毫米）和超微型（螺钉直径1.2毫米）钢板/螺钉。对于掌骨，使用一块背侧微型钢板、一块背侧超微型钢板和双侧超微型钢板。对于近节指骨，使用类似的钢板配置和尺寸，并增加一块单侧超微型钢板。对所有配置均采用背侧和掌侧顶点加载的三点弯曲模型。本研究证实，背侧应用的微型钢板对背侧顶点载荷提供最大的刚性。

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指骨和掌骨骨折的微型与超微型钢板固定：一项生物力学研究。

Mini and micro plating of phalangeal and metacarpal fractures: a biomechanical study.

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