酸性(“渐进刷”)和碱性拉直对头发纤维的影响:对角质层和皮层特性的不同影响。

Q2 Medicine
International Journal of Trichology Pub Date : 2022-11-01 Epub Date: 2023-01-31 DOI:10.4103/ijt.ijt_158_20
Maria Valéria Robles Velasco, Tânia Cristina de Sá-Dias, Michelli Ferrera Dario, Valcinir Bedin, Marjory Bernardes Fileto, Andressa Costa de Oliveira, Claudinéia Aparecida Sales de Oliveira Pinto, André Rolim Baby
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引用次数: 0

摘要

背景:乙醛酸已成为一种安全的替代甲醛的直发器/放松剂。然而,应用后对头发纤维可能造成的损害是鲜为人知的和/或已发表在文献中。目的:与传统的碱性直发剂(如氢氧化钠和胍)以及巯基乙酸铵相比,这项工作旨在表征用乙醛酸处理的头发。材料与方法:用扫描电镜观察毛发角质层的形态。蛋白质损失通过Peterson修改的Lowry方法进行评估,并作为以拉伸强度表示的机械性能进行评估。结果:所有产品(氢氧化钠和胍氢氧化物以及巯基乙酸铵)造成的蛋白质损失约为2.5μg/g,除了乙醛酸造成的损伤最严重(3.5μg/g),而未经处理的(原始)头发(1.12μg/g。用基于氢氧化钠、氢胍和巯基乙酸铵的传统矫直剂处理的纤维的断裂力在统计学上是相同的。结论:乙醛酸处理的断裂拉伸强度在统计学上与碱性矫直剂相当。乙醛酸的作用机制似乎不是基于二硫键的断裂和重排,而是改变了它们,从而影响了头发的强度。然而,也必须考虑其他相关因素:技术应用技术、反应时间和产品重新应用的间隔,因为这可能会改变所获得的结果模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Impact of Acid ("Progressive Brush") and Alkaline Straightening on the Hair Fiber: Differential Effects on the Cuticle and Cortex Properties.

Impact of Acid ("Progressive Brush") and Alkaline Straightening on the Hair Fiber: Differential Effects on the Cuticle and Cortex Properties.

Impact of Acid ("Progressive Brush") and Alkaline Straightening on the Hair Fiber: Differential Effects on the Cuticle and Cortex Properties.

Impact of Acid ("Progressive Brush") and Alkaline Straightening on the Hair Fiber: Differential Effects on the Cuticle and Cortex Properties.

Background: Glyoxylic acid has emerged as a safe alternative to formol (formaldehyde) use as a hair straightener/relaxer. However, the possible damage to the hair fiber after its application is low known and/or published in the literature.

Aims: This work aims to characterize hair locks treated with glyoxylic acid compared to traditional alkaline straighteners such as sodium and guanidine hydroxide and ammonium thioglycolate.

Materials and methods: The morphology of the hair cuticles was observed by scanning electron microscopy. Protein loss was assessed by the Lowry method modified by Peterson and as mechanical properties that were expressed in terms of tensile strength.

Results: All products (sodium and guanidine hydroxides and ammonium thioglycolate) caused protein loss of about 2.5 μg/g, except glyoxylic acid that caused the worst damage (3.5 μg/g), in relation to the untreated (virgin) hair (1.12 μg/g), indicating that the chemical treatments can cause hair damage in both cuticles and cortex. The force to break the fibers treated with traditional straighteners based on sodium hydroxide, guanidine hydroxide, and ammonium thioglycolate was statistically the same.

Conclusion: The treatment with glyoxylic acid showed rupture tensile statistically equivalent to the alkaline straighteners. The mechanism of action of glyoxylic acid does not appear to be based on breaking and rearrangement of disulfide bridges, but altered them, that influenced the hair strength. However, it is also essential to consider other factors relevant: technical application technique, reaction time, and interval of reapplication of the product, as this can change the pattern of the results obtained.

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CiteScore
1.50
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