Chemical Methods for Determination of Hydroxylated Metabolites of Polycyclic Aromatic Hydrocarbons and Polychlorinated Biphenyls in Biological Material

U ovome preglednom radu prikazani su postupci analize hidroksiliranih metabolita policikličkih aromatskih ugljikovodika i poliklorbifenila u ljudima i životinjama. Ti metaboliti služe kao biomarkeri izloženosti ljudi i životinja navedenim zagađivalima, no neki od njih i sami posjeduju toksična svojstva. Analiziraju se najčešće u urinu koji je kao uzorak najdostupniji, ali se isto tako mogu analizirati i u ljudskoj, odnosno životinjskoj jetri, žuči i masnom tkivu. Analiza metabolita aromatskih zagađivala važna je zbog određivanja biodostupnosti aromatskih zagađivala, njihove potencijalne toksičnosti u ljudskom organizmu, ali i zbog toksičnosti samih metabolita. Napredak analitičkih metoda omogućio je simultanu analizu velikog broja metabolita u uzorcima. Nove tehnike ekstrakcije i selektivnije i preciznije kvalitativne i kvantitativne analize omogućuju detekciju vrlo niskih koncentracija metabolita. Pri tome dodatnu prednost imaju jednostavne tehnike koje zahtijevaju manje kemikalija i vremena za analizu.This review presents methods for the analysis of hydroxylated metabolites of polycyclic aromatic hydrocarbons and polychlorinated biphenyls in humans and animals. These metabolites serve as biomarkers of human and animal exposure to the mentioned pollutants, but some metabolites also have toxic properties. Most are analysed in urine, which is the most accessible sample, but they can also be analysed in human and animal liver, bile, and adipose tissue. Their analysis is important for assessing bioavailability of aromatic pollutants and their toxicity in human organism, but also the toxicity of metabolites themselves. Advancements in analytical methods have made it possible to analyse multiple metabolites in a sample at the same time. New extraction techniques and more precise and selective qualitative and quantitative analyses can now detect very low metabolite oncentrations. An extra advantage is that these simple techniques require less chemicals and time

Neonatal Hair Nicotine Levels and Fetal Exposure to Paternal Smoking at Home

Exposure to environmental tobacco smoke (ETS) is a major risk to human health, and the home is the greatest single source of ETS for children. The authors investigated fetal exposure to paternal smoking at home during pregnancy. Korean families were included as trios of fathers, mothers, and neonates identified in 2005–2007. Sixty-three trios were finally enrolled in this study after exclusion of those in which the mother was a smoker or was regularly exposed to ETS at places other than the home. Nicotine and cotinine concentrations in hair were measured by using liquid chromatography–tandem mass spectrometry to determine long-term exposure to ETS. The difference between neonatal nicotine concentrations in the smoker and nonsmoker groups was not statistically significant. However, in the indoor-smoker group, neonatal nicotine concentrations were significantly higher than in the outdoor and nonsmoker groups (P < 0.05). Furthermore, neonatal nicotine concentrations in the outdoor-smoker group were not different from those in the nonsmoker group. These findings indicate that paternal smoking inside the home leads to significant fetal and maternal exposure to ETS and may subsequently affect fetal health. Conversely, findings show that paternal smoking outside the home prevents the mother and her fetus from being exposed to ETS

Studying the effectiveness of activated carbon R95 respirators in reducing the inhalation of combustion by-products in Hanoi, Vietnam: a demonstration study

Background: Urban air pollution is an increasing health problem, particularly in Asia, where the combustion of fossil fuels has increased rapidly as a result of industrialization and socio-economic development. The adverse health impacts of urban air pollution are well established, but less is known about effective intervention strategies. In this demonstration study we set out to establish methods to assess whether wearing an R95 activated carbon respirator could reduce intake of polycyclic aromatic hydrocarbons (PAH) in street workers in Hanoi, Vietnam