Mechanical analysis of the effects of cephalic trim on lower lateral cartilage stability.

Archives of Facial Plastic Surgery Pub Date : 2012-01-01 DOI:10.1001/archfacial.2011.1354

Sepehr Oliaei, Cyrus Manuel, Dmitriy Protsenko, Ashley Hamamoto, Davin Chark, Brian Wong

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引用次数: 25

Abstract

Objective: To determine how mechanical stability changes in the lower lateral cartilage (LLC) after varying degrees of cephalic resection in a porcine cartilage nasal tip model.

Methods: Alar cartilage was harvested from fresh porcine crania (n = 14) and sectioned to precisely emulate a human LLC in size and dimension. Flexural mechanical analysis was performed both before and after cephalic trims of 0 (control), 4, and 6 mm. Cantilever deformation tests were performed on the LLC models at 3 locations (4, 6, and 8 mm from the midline), and the integrated reaction force was measured. An equivalent elastic modulus of the crura was calculated assuming that the geometry of the LLC model approximated a modified single cantilever beam. A 3-dimensional finite element model was used to model the stress distribution of the prescribed loading conditions for each of the 3 types of LLC widths.

Results: A statistically significant decrease (P = .02) in the equivalent elastic modulus of the LLC model was noted at the most lateral point at 8 mm and only when 4 mm of the strut remained (P = .05). The finite element model revealed that the greatest internal stresses was at the tip of the nose when tissue was flexed 8 mm from the midline.

Conclusion: Our results provide the mechanical basis for suggested clinical guidelines stating that a residual strut of less than 6 mm can lead to suboptimal cosmetic results owing to poor structural support of the overlying skin soft-tissue envelope by an overly resected LLC.

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头侧修剪对下外侧软骨稳定性影响的力学分析。

目的:探讨猪软骨鼻尖模型在不同程度的头侧切除后下外侧软骨(LLC)的力学稳定性变化。方法:从新鲜猪颅骨(n = 14)中获取鼻翼软骨，并对其进行切片，以精确模拟人鼻翼软骨的大小和尺寸。在0(对照)、4和6 mm的头侧修剪前后进行弯曲力学分析。在距离中线4、6、8 mm的3个位置对LLC模型进行了悬臂变形试验，并测量了综合反作用力。假设LLC模型的几何形状近似于修正的单悬臂梁，计算了其等效弹性模量。采用三维有限元模型模拟了三种LLC宽度在规定加载条件下的应力分布。结果:LLC模型的等效弹性模量在最外侧点(8 mm)和仅当支柱剩余4mm时显著降低(P = 0.05)。有限元模型显示，当组织从中线弯曲8mm时，鼻尖处的内应力最大。结论:我们的研究结果为建议的临床指南提供了力学基础，该指南指出，由于过度切除的LLC对覆盖的皮肤软组织包膜的结构支持不佳，因此小于6毫米的残余支撑可能导致不理想的美容效果。

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

Archives of Facial Plastic Surgery 医学-外科

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审稿时长

2 months