In vivo evaluation of the skin tensile strength by the suction method: pilot study coping with hysteresis and creep extension.

ISRN Dermatology Pub Date : 2013-08-05 eCollection Date: 2013-01-01 DOI:10.1155/2013/841217
Gérald E Piérard, Sébastien Piérard, Philippe Delvenne, Claudine Piérard-Franchimont
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引用次数: 36

Abstract

From an engineering standpoint, both the skin and subcutaneous tissue act as interconnected load-transmitting structures. They are subject to a variety of intrinsic and environmental influences. Changes in the cutaneous viscoelasticity represent an important aspect in a series of skin conditions. The aim of this work was to explore the methodology of biomechanical measurements in order to better appreciate the evolution and severity of some connective tissue diseases. The Cutometer MPA 580 (C+K electronic) was used in the steep and progressive suction procedures. Adapting measurement modalities was explored in order to mitigate any variability in data collection. The repeat steep suction procedure conveniently reveals the creep phenomenon. By contrast, the progressive suction procedure highlights the hysteresis phenomenon. These viscoelastic characteristics are presently described using the 2 and 4 mm probes on normal skin and in scleroderma, acromegaly, corticosteroid-induced dermatoporosis, and Ehlers-Danlos syndrome. The apposition of an additional outer contention on the skin altered differently the manifestations of the creep extension and hysteresis among the tested skin conditions. Any change in the mechanical test procedure affects the data. In clinical and experimental settings, it is mandatory to adhere to a strict and controlled protocol.

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吸吸法对皮肤抗拉强度的体内评价:应对迟滞和蠕变拉伸的初步研究。
从工程学的角度来看,皮肤和皮下组织都是相互连接的负载传递结构。它们受到各种内在和环境的影响。皮肤粘弹性的变化代表了一系列皮肤状况的一个重要方面。这项工作的目的是探索生物力学测量的方法,以便更好地了解一些结缔组织疾病的演变和严重程度。采用mpa580 (C+K电子)测量陡吸和渐进吸。适应测量方式进行了探索,以减轻数据收集中的任何可变性。重复陡吸过程方便地揭示了蠕变现象。相比之下,渐进式吸入过程突出了迟滞现象。目前,在正常皮肤和硬皮病、肢端肥大症、皮质类固醇诱发的皮肤疏松症和ehers - danlos综合征中,使用2毫米和4毫米探针描述了这些粘弹性特征。在被试皮肤条件下,额外的外部竞争对蠕变、拉伸和迟滞的表现有不同的改变。机械试验程序的任何变化都会影响数据。在临床和实验环境中,必须遵守严格的控制方案。
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