Evaluating the potential genotoxicity of phthalates esters (PAEs) in perfumes using in vitro assays

We previously reported high levels of phthalate esters (PAEs) added as solvents or fixatives in 47 brands of perfumes. Diethyl phthalate was the most abundant compound (0.232–23,649 ppm), and 83.3% of the perfumes had levels >1 ppm, the threshold limit cited by a Greenpeace investigation. All samples had dimethyl phthalate levels higher than its threshold limit of 0.1 ppm, and 88, 38, and 7% of the perfumes had benzyl butyl phthalate, di(2-ethylhexyl) phthalate, and dibutyl phthalate levels, respectively, above their threshold limits. The role of PAEs as endocrine disruptors has been well documented, but their effect on genotoxic behavior has received little attention. We used in vitro single-cell gel electrophoresis (comet) and micronucleus (MN) assays with human lymphoblastoid TK6 cells to evaluate the genotoxic potency of 42 of the same perfumes and to determine its association with PAEs. All perfumes induced more DNA damage than a negative control (NEG), ≥ 90% of the samples caused more damage than cells treated with the vehicles possibly used in perfume’s preparations such as methanol (ME) and ethanol (ET), and 11.6% of the perfumes caused more DNA damage than a positive control (hydrogen peroxide). Chromosome breakage expressed as MN frequency was higher in cells treated with 71.4, 64.3, 57.1, and 4.8% of the perfumes than in NEG, cells treated with ME or ET, and another positive control (x-rays), respectively. The genotoxic responses in the comet and MN assays were not correlated. The comet assay indicated that the damage in TK6 cells treated with five PAEs at concentrations of 0.05 and 0.2 ppm either individually or as a mixture did not differ significantly from the damage in cells treated with the perfumes. Unlike the comet assay, the sensitivity of the MN assay to PAEs was weak at both low and high concentrations, and MN frequencies were generally low. This study demonstrates for the first time the possible contribution of PAEs in perfumes to DNA damage and suggests that their use as solvents or fixatives should be regulated. Other ingredients with mutagenic/genotoxic properties, however, may also have contributed to the DNA damage. Future studies should focus on applying a series of assays that use different cellular models with various endpoints to identify the spectrum of genotoxic mechanisms involved.

     

Measurements of radiation level in petroleum products and wastes in Riyadh City Refinery

Recent concern has been devoted to the hazard arising from naturally occurring radioactive materials (NORM) in oil and gas facilities. Twenty-seven petroleum samples were collected from Riyadh Refinery. Fourteen samples were products and 13 were waste samples; three of them were scale samples and 10 were sludge samples. The specific radioactivities of (238)U, (232)Th, (226)Ra, (224)Ra, (40)K, and (235)U for all samples were determined using high-resolution gamma-ray spectrometry. The radium equivalent activity, radiation hazard indices and absorbed dose rate in air for all waste samples were estimated. The radon emanation coefficient of the waste samples was estimated. It ranged between 0.574 and 0.154. The age of two scale samples was determined and found to be 2.39 and 3.66 years. The chemical structure of the waste samples was investigated using X-ray florescence analysis (XRF) and Mg, Al, Si, S, Cl, Ca and Fe were found in all samples. From this study, it was noticed that the concentrations of the natural radionuclides in the petroleum wastes were higher than that of the petroleum products.     

The dangers of skin-lightening creams

Skin-lightening creams are extensively promoted online and in the media. They may contain a wide variety of active ingredients such as mercury, hydroquinone, and steroids that are highly toxic, especially after prolonged application. For more than a decade, we found high mercury content in many products sold on Saudi markets. Some of these products were later banned by the government. However, the presence of other ingredients has not been documented. We undertake this study on some of the most popular skin-lightening creams on the market to test for toxic ingredients such as mercury, titanium dioxide, hydroquinone, and corticosteroids. A total of 33 different brands were selected for the analysis of titanium (50 samples), hydroquinone (55 samples), and corticosteroids (56 samples) with the exception of mercury in which only 23 brands (34 samples) were tested. This study showed that 2 of 34 skin-lightening creams had mercury above the US FDA limit of 1?µg?g^?1. All products had titanium dioxide at less than 25% (w/w) of the EU and US FDA safety limits for personal products but 8 products from 7 different brands contained titanium dioxide above 1%, the permissible limit in cosmetics as color additives. In this study, we found 8 creams from 7 different brands had hydroquinone above 1.5% (w/w), the newly proposed FDA limit of hydroquinone in OTC skin-lightening drug products. Among the four tested corticosteroid compounds, the most frequently detected was cortisone and 18 products from 13 different brands were above 6?µg?g^?1 (MDL) with a maximum of up to 0.32% (w/w). Dexamethasone was found in 7 creams from 5 different brands with only 3 above the MDL of 9?µg?g^?1. Although one might argue that these corticosteroids are of mild or low potency, and they may be unlikely to have any adverse effects, these products are marketed as personal-care products on the assumption that they are safe and free of steroids. The overall results indicate that many of the skin-lightening creams sold in the Saudi market contained one or more toxic ingredients that in most cases were not listed on the packaging. Many of these ingredients are harmful and pose health risks if we take into account the frequency of application, the duration of practice, and area of the body applied, and their use during pregnancy and/or periods of lactation.