The Effect of First Metatarsal Shortening and Sagittal Displacement on Forefoot Pressure in Minimally Invasive Hallux Valgus Correction.

Andres Lopez, Yianni Bakaes, Giselle Porter, Glenn Shi, Paisley Myers, J Benjamin Jackson, Tyler Gonzalez, Edward T Haupt
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Abstract

Background: Minimally invasive (MIS) treatment of hallux valgus (HV) deformity is increasing in popularity. A 2-mm diameter burr is used to create a distal first metatarsal osteotomy prior to capital fragment translation and fixation. The metatarsal will shorten by the burr's diameter (2 mm). Plantar or dorsal capital fragment displacement may also cause load transference and possibly transfer metatarsalgia. The purpose of this study is to examine the effect of MIS HV on forefoot loading mechanics with respect to metatarsal shortening and sagittal plane displacement.

Methods: Four lower-limb cadaveric specimens were studied. A pedobarography pressure-sensing mat was used to record forefoot plantar pressure in a controlled weight-bearing stance position. Control and postosteotomy measurements were obtained with the capital fragment fixated in 3 possible positions: 0 mm, 5 mm dorsal, and 5 mm plantar displacement. Pedobarography data yielded pressure data within measurable graphical depictions. Raw mean contact pressure measurements were taken under the first and fourth metatarsal heads to establish medial and lateral forefoot loading pressure ratios. An a priori power analysis was performed based on previous peer-reviewed pedobarographic data, and our study was adequately powered.

Results: Around 40 measurements were recorded, and ratios of medial-to-lateral forefoot loading were constructed. Medial forefoot pressure control versus 0 mm displacement, and control versus dorsal displacement were not found to be statistically significant (p = 0.525, p = 0.55, respectively). Medial pressure significantly increased when comparing control versus plantar displacement (P = .006). Lateral pressure significantly increased with dorsal displacement of the osteotomy (P = .013).

Conclusion: Our study found that MIS HV correction did not cause an increase in lateral forefoot pressure loading when sagittal plane displacements were controlled. Plantar displacement increased medial loading, and dorsal displacement increased lateral loading. It may be valuable for surgeons to consider metatarsal head position postosteotomy, as a decrease in medial loading and subsequent increase in lateral loading may lead to lateral forefoot pain and transfer metatarsalgia.

Levels of evidence: IV.

第一跖骨缩短和矢状位移对微创外翻矫正术中前足压力的影响
背景:微创(MIS)治疗拇指外翻(HV)畸形越来越受欢迎。使用直径为 2 毫米的毛刺进行第一跖骨远端截骨,然后进行跖骨片平移和固定。跖骨将按毛刺直径(2 毫米)缩短。跖侧或背侧的跖骨碎片移位也可能导致负荷转移,并可能引起跖骨痛。本研究的目的是研究 MIS HV 在跖骨缩短和矢状面位移方面对前足加载力学的影响:方法:研究了四个下肢尸体标本。方法:研究了四具下肢尸体标本,使用足底压力感应垫记录受控负重站立姿势下的前足足底压力。在 3 个可能的位置固定脚骨片时,进行对照组和脚骨切除术后测量:背侧位移 0 毫米、5 毫米,跖侧位移 5 毫米。足底照相数据可在可测量的图形描述中获得压力数据。在第一和第四跖骨头下测量原始平均接触压力,以确定前足内侧和外侧加载压力比。根据之前同行评议的足底数据进行了先验功率分析,我们的研究具有足够的功率:结果:我们记录了约 40 次测量结果,并构建了前足内侧和外侧负荷压力比。前脚掌内侧压力对照组与 0 毫米位移对照组、对照组与背侧位移对照组均无统计学意义(分别为 p = 0.525、p = 0.55)。对照组与足底位移相比,内侧压力明显增加(P = 0.006)。侧压力随着截骨背向移位而明显增加(P = .013):我们的研究发现,当控制矢状面位移时,MIS HV 矫正不会导致前足外侧压力负荷增加。跖面位移增加了内侧负荷,而背面位移增加了外侧负荷。对外科医生来说,考虑跖骨头位置在骨切除术后可能很有价值,因为内侧负荷的减少和随之而来的外侧负荷的增加可能会导致前足外侧疼痛和转移性跖痛:证据级别:IV.
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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