正常皮肤和增生性瘢痕的力学性能。

Mechanical properties of normal skin and hypertrophic scars.

作者信息

Clark J A, Cheng J C, Leung K S

机构信息

Department of Mechanical Engineering, University of Hong Kong.

出版信息

Burns. 1996 Sep;22(6):443-6. doi: 10.1016/0305-4179(96)00038-1.

DOI:10.1016/0305-4179(96)00038-1

PMID:8884002

Abstract

The non-linear viscoelastic properties of skin tissue were characterized by modulus of elasticity E, which represents stiffness, and percentage extension (strain, xi) at load intensities of 20, 40 and 100 gm. The latter property is a measure of the extensibility for both normal skin and hypertrophic scar. A quasi-static extensometer applies a standard rate of extension to the skin and its mechanical properties were obtained from 15 Chinese patients with burn injuries of superficial to full skin thickness burns. Clinical evaluation of hypertrophic scar is qualitative and depends on colour, thickness and hardness or firmness. Using mechanical properties assists in the characterization by providing a quantitative indicator. Higher scar grading is synonymous with increased stiffness and decreased extensibility. Correlation with clinical assessment was achieved with these in vivo viscoelastic properties.

摘要

皮肤组织的非线性粘弹性特性通过弹性模量E来表征，E代表刚度，以及在20、40和100克负荷强度下的延伸百分比（应变，ξ）。后一特性是正常皮肤和增生性瘢痕伸展性的一种度量。一个准静态引伸计以标准延伸速率作用于皮肤，并从15名患有浅度至全层皮肤厚度烧伤的中国烧伤患者身上获取其力学性能。增生性瘢痕的临床评估是定性的，取决于颜色、厚度和硬度或坚实度。利用力学性能通过提供定量指标来辅助特征描述。更高的瘢痕分级等同于刚度增加和伸展性降低。这些体内粘弹性特性与临床评估具有相关性。

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正常皮肤和增生性瘢痕的力学性能。

Mechanical properties of normal skin and hypertrophic scars.

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