Search results for "percutaneous absorption"

showing 6 items of 6 documents

Ultraviolet Filters in Cosmetics

2018

Abstract UV filters are used in sunscreen cosmetics to protect skin from the sunlight. Nowadays, they are also incorporated into other daily-use cosmetics. However, many concerns about their safety have been raised, because they can be absorbed through the skin, further metabolized and eventually bioaccumulated and/or excreted. These percutaneous absorption processes may result in various adverse health effects (i.e., allergic contact dermatitis) and other more serious systemic effects, such as carcinogenic and oestrogenic activity. For this reason, UV filters as well as their maximum allowed concentrations have been regulated by the legislations in force. In this sense, analytical control …

Analytical controlTraditional medicinebusiness.industrymedia_common.quotation_subject010401 analytical chemistrymedicine.diseasemedicine.disease_cause01 natural sciencesCosmetics0104 chemical sciences030207 dermatology & venereal diseases03 medical and health sciences0302 clinical medicineAdverse health effectPercutaneous absorptionmedicinebusinessAllergic contact dermatitisUltravioletmedia_common
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An overview of the analytical methods for the determination of organic ultraviolet filters in biological fluids and tissues.

2012

Organic UV filters are chemical compounds added to cosmetic sunscreen products in order to protect users from UV solar radiation. The need of broad-spectrum protection to avoid the deleterious effects of solar radiation has triggered a trend in the cosmetic market of including these compounds not only in those exclusively designed for sun protection but also in all types of cosmetic products. Different studies have shown that organic UV filters can be absorbed through the skin after topical application, further metabolized in the body and eventually excreted or bioaccumulated. These percutaneous absorption processes may result in various adverse health effects, such as genotoxicity caused b…

Chemistrymedicine.disease_causeBiochemistryAnalytical ChemistryBody FluidsMatrix (chemical analysis)Adverse health effectEnvironmental chemistryPercutaneous absorptionmedicineBiological fluidsEnvironmental ChemistryAnimalsHumansSample preparationTissue DistributionOrganic ChemicalsSpectroscopyGenotoxicityUltravioletVolume concentrationAnalytica chimica acta
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Influence of sodium lauryl sulphate on the in vitro percutaneous absorption of compounds with different lipophilicity

1997

Abstract The effects of sodium lauryl sulphate (SLS) at different concentrations on the “in vitro” percutaneous absorption of a number of compounds (5-fluorouracil, antipyrine, pentoxifylline, salicylamide, 4-ethylaniline, 4-n-butylaniline and indomethacin) with a wide range of lipophilicity values (log POCT from −0.95 to 4.42) through rat skin were analysed. After pretreatment of the skin with SLS (1% and 5%, w/w) the permeability coefficients increased only for compounds having a log POCT

Chromatographyintegumentary systemPermeability (electromagnetism)ChemistrySodium lauryl sulphateLipophilicityPercutaneous absorptionmedicinePharmaceutical ScienceSalicylamideIn vitroPentoxifyllinemedicine.drugEuropean Journal of Pharmaceutical Sciences
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Use of Nanomaterial-Based (Micro)Extraction Techniques for the Determination of Cosmetic-Related Compounds

2020

The high consumer demand for cosmetic products has caused the authorities and the industry to require rigorous analytical controls to assure their safety and efficacy. Thus, the determination of prohibited compounds that could be present at trace level due to unintended causes is increasingly important. Furthermore, some cosmetic ingredients can be percutaneously absorbed, further metabolized and eventually excreted or bioaccumulated. Either the parent compound and/or their metabolites can cause adverse health effects even at trace level. Moreover, due to the increasing use of cosmetics, some of their ingredients have reached the environment, where they are accumulated causing harmful effec…

High interestSkin Absorptionmedia_common.quotation_subjectPharmaceutical ScienceCosmeticsReview02 engineering and technologyChemical Fractionation01 natural sciencesCosmeticsAnalytical Chemistrylcsh:QD241-441lcsh:Organic chemistryAdverse health effectDrug DiscoveryPhysical and Theoretical Chemistrycosmetic-related compoundsnanomaterialsmedia_commonmicroextraction techniquessample preparationConsumer demandEnvironmental surveillance010401 analytical chemistryOrganic ChemistryExtraction (chemistry)021001 nanoscience & nanotechnologyNanostructures0104 chemical sciencesChemistry (miscellaneous)Percutaneous absorptionMolecular MedicineEnvironmental scienceBiochemical engineering0210 nano-technologyEnvironmental MonitoringMolecules
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Biopartitioning micellar chromatography to predict skin permeability

2003

Dermal absorption of chemicals is an area of increasing interest to the pharmaceutical and cosmetic industries, as well as in dermal exposure and risk assessment processes. In this paper the capability of biopartitioning micellar chromatography (BMC) as an in vitro technique to describe compound percutaneous absorption is evaluated. A multivariate study (principal component analysis, partial least squares) is performed in order to evaluate the importance of some physicochemical variables on the skin permeability constant values. From these results, a quantitative retention-activity relationship model for predicting the skin permeability constants that uses the BMC retention data and melting…

PharmacologyChromatographyintegumentary systemChemistryClinical BiochemistryGeneral MedicineSkin permeabilityBiochemistryDermal exposureMicelleAnalytical Chemistrychemistry.chemical_compoundPermeability (electromagnetism)Drug DiscoveryPercutaneous absorptionPrincipal component analysisPartial least squares regressionIonic compoundMolecular BiologyBiomedical Chromatography
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UV filters: From sunscreens to human body and the environment

2007

Recognition of the harmful effects of ultraviolet (UV) radiation on the skin has triggered development of organic chemicals (commonly referred as UV filters) that can absorb UV radiation and attenuate the negative effects of sunlight exposure. Depending on the properties and the intended degree of protection, a wide array of combinations is being marketed as delivering protection against most kinds of UV-induced skin damage. However, some UV filters have dermatological implications, so maximum applicable concentrations have been established. To monitor to what extent commercial products comply with the mandatory limits, several analytical methods have been used for their determination in co…

p-aminobenzoic acidvivo skin penetrationpercutaneous-absorptiongas chromatographymedia_common.quotation_subjectmedicine.disease_causeCosmeticsAnalytical ChemistryMatrix (chemical analysis)by-productSkin surfaceliquid-chromatographyWater environmentmedicineliquid chromatographytopical applicationSpectroscopyVolume concentrationmedia_commonsunscreensun protection factorChromatographyOrganic chemicalsChemistryoctyl-methoxycinnamatepercutaneous absorptionin-vitro permeationsolid-phase microextractionSkin penetrationBiochemical engineeringuv filterenvironmentmetabolismUltravioletchromatography-mass-spectrometryTrAC Trends in Analytical Chemistry
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