Your search keyword '"Bleaching Agents"' showing total 5 results

1. Topische Externa in der Hautalterung.

Author

Bayerl, C.

Abstract

Copyright of Der Hautarzt is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2005

2. [Dangerous cosmetic products in Germany : Analysis of the RAPEX database of the European Commission]

Author

P, Elsner and S, Schliemann

Subjects

Bleaching Agents, Databases, Factual, Adhesives, Germany, Skin Cream, Humans, Cosmetics, Mercury, Methylmethacrylate, Phenylenediamines, Glucocorticoids, Hydroquinones, Naphthoquinones

Abstract

Cosmetic products are subject to the European Cosmetics Regulation: They shall not harm human health when used under "normal or reasonably foreseeable conditions". Hazardous cosmetic products are reported by the EU Member States to the EU Commission and are listed in the database of the European Rapid Alert System RAPEX.The reports from Germany on dangerous cosmetic products from the years 2005-3/2017 in the European RAPEX database were systematically analyzed.During the study period, 157 dangerous cosmetic products were reported from Germany. The most common product categories were bleaching creams (24.2%) because of the content of hydroquinone, mercury or corticosteroids, creams/lotions/gels (10.8%) mainly due to microbiological contamination, henna products (10.2%) because of sensitizing concentrations of paraphenylene diamine, and nail adhesives (8.9%) because of high levels of methyl methacrylate.Hazardous cosmetic products appear to be rare in view of the high market volume of cosmetics, even though the total number of official investigations the RAPEX reports based on is not known. Dermatologists should inform the competent monitoring authorities in case of a suspected harm to health caused by dangerous cosmetic products so that the products can be examined and, if necessary, withdrawn from the market.

Published

2017

3. Antimikrobielle Wirksamkeit von Bleichmitteln und Bleichsystemen

Author

Betz, Monika, Cerny, G. (Prof. Dr.), and Scherer, Siegfried (Prof. Dr.)

Subjects

Technische Chemie, ddc:670, bleaching agents, bleaching activator, biocidal activity, low temperature washing, Bleichmittel, Bleichmittelsysteme, Bleichmittelaktivator, antimikrobielle Wirksamkeit, ddc:540, ddc:660, Chemie, Industrielle Fertigung

Abstract

Im Rahmen dieser Arbeit wurde das bakterizide, fungizide und viruzide Potential verschiedener Bleichmittel und Bleichmittelsysteme im Niedrigtemperaturbereich anhand ausgewählter Testkeime untersucht und die Einflußfaktoren auf die mikrobizide Wirkung bestimmt. Mit Hilfe des quantitativen Suspensionsversuches wurde das Wirkungsspektrum verschiedener nicht-aktivierter Bleichmittel (Perborat, Percarbonat, Phthalimido-peroxo-capronsäure) und aktivierter Bleichmittelsysteme (NOBS, TAED) gegenüber ausgewählten Mikroorganismen (Enterococcus faecium, Escherichia coli, Staphylococcus aureus, Mycobacterium terrae, Candida albicans, Aspergillus niger) und Bakteriophagen (Phage PhiX174 und Phage MS2) bestimmt und die Einflußfaktoren auf die mikrobizide Wirkung ermittelt. Die Ergebnisse zeigten, daß die mikrobizide Wirkung gängiger Bleichmittel und Bleichmittelsysteme vom Bleichmittelaktivator, von der Konzentration, dem pH-Wert, von der Temperatur und der Anwesenheit von Schmutzbestandteilen maßgeblich beeinflußt wird. Generell wurden gram- Bakterien besser abgetötet als gram+ Bakterien. Erheblich resistenter gegenüber den untersuchten Bleichsystemen zeigten sich die Hefe C. albicans und der Schimmelpilz A. niger und die Bakteriophagen (PhiX174 und MS2). Die mikrobizide Wirkung der anorganischen Peroxoverbindungen Perborat und Percarbonat wurde mit steigendem pH-Wert verstärkt, während die Wirkung der organischen Persäure Phthalimido-peroxo-capronsäure und der aktivierten Bleichsysteme unter neutralen Bedingungen besser war. Die Untersuchungen zur mikrobiziden Wirkung aktivierter Bleichsysteme konnten zeigen, daß der Zusatz eines Aktivators im Niedrigtemperaturbereich die mikrobizide Wirkung im Vergleich zu den nicht-aktivierten Bleichmitteln signifikant verstärkte. Ein wichtiges Ergebnis dieser Arbeit war, daß mit NOBS-aktivierten Bleichsystemen signifikant bessere Effekte erzielt wurden als mit den in Europa gängigen TAED-aktivierten Systemen und daß diese Wirkung mit deutlich geringeren NOBS-Konzentrationen möglich war. In Praxistests erwies sich die alleinige Dosierung von 0,2% Perborat und 0,04% TAED als ausreichend, um ausgewählte gram+ und gram- Keime während eines Waschprozesses bei 30°C zu eliminieren; für die Abtötung von Hefen waren die gewählten Versuchsbedingungen nicht ausreichend. Die vorliegenden Untersuchungen konnten zeigen, daß in Waschmitteln eingesetzte gängige Bleichmittelsysteme unter Laborbedingungen und Praxisbedingungen eine bakterizide, fungizide und viruzide Wirkung aufweisen und damit unter bestimmten Voraussetzungen zur Hygienisierung der Wäsche im Niedrigtemperaturbereich beitragen können. Low temperature domestic washing (i.e. < 40 °C) may be regarded as low-hygienic because thermal inactivation of microorganisms does not occur. Thus other means (i.e. bleaching agents) must be considered to compensate for low temperature and to achieve hygienic effects. In this study the biocidal activity of common bleaching systems as used in heavy duty detergents was examined using standard suspension test. The bleaching agents used for the tests were perborate, percarbonate, and phthalimodoperoxocaproic acid, as bleaching activators for low temperature bleaching tetraactetylethylenediamine (TAED) and nonanoyloxybenzenesulfonate (NOBS) were used. The bactericidal, fungicidal and virucidal properties of bleaching systems in question were determined on selected microorganisms (Enterococcus faecium, Escherichia coli, Staphylococcus aureus, Mycobacterium terrae, Candida albicans, Aspergillus niger and coliphages [phix174 and MS2]). The effects of temperature, pH and presence of soil on the biocidal efficiency of bleaching systems used in this study were also tested. The results showed that the biocidal effect of bleaching systems as used in detergents are affected by the following parameters: microorganism, presence of activator, pH-value, concentration of bleaching agents and perborate to activator ratio, temperature and presence of soil. It was found that gram- bacteria were most susceptible to bleaching systems even at lower temperatures while yeast, mould and phages were considerably more resistant to bleaching systems. Bleaching agents releasing hydrogen peroxide as active species (i.e. perborate, percarbonate) showed better activity with higher pH. Activated bleaching systems forming peracids as oxidising agents were in general more effective with lower pH values. This fact was in agreement with data in the literature reporting that biocidal action of aliphatic peracids increases with lower pH-value due to the higher concentration of undissociated peracid which only can pass cell wall of microorganisms in the undissociated form. The most interesting fact of this study was that NOBS-activated bleaching systems were more effective than TAED-activated bleaching systems even at lower concentrations of peracids formed. The biocidal efficiency of a TAED-activated bleaching system was also tested under European low temperature washing conditions using inoculated test swatches in a standard European washing machine at 30°C and 40°C with addition of 0.2% perborate and 0.04% TAED. It was shown that under these conditions the TAED activated formula resulted in a significant inactivation of gram+ and gram- bacteria. Only yeast survived these conditions. It could be demonstrated that bleaching agents are able to improve hygienic status of low temperature domestic washing.

Published

2005

4. [Clinicalexperimental studies on the problem of compatibility of optical bleaching agents with skin]

Author

K H, SCHULZ and K, WULF

Subjects

Bleaching Agents, Humans, Sulfonic Acids, Skin

Published

1957

5. [Clinical & experimental studies on the problem of compatibility of optical bleaching agents with skin].

Author

SCHULZ KH and WULF K

Subjects

Humans, Bleaching Agents, Skin drug effects, Sulfonic Acids pharmacology

Published

1957