Blood and/or breast milk have been used to assess human exposure to various
environmental contaminants. Few studies have been available to compare
the concentrations in one matrix with those in another. The goals
of this study were to determine the current levels of polybrominated
diphenyl ethers (PBDEs) and polychlorinated biphenyls (PCBs) in Japanese
women, with analysis of the effects of lifestyle and dietary habits
on these levels, and to develop a quantitative structure–activity
relationship (QSAR) with which to predict the ratio of serum concentration
to breast milk concentration. We measured PBDEs and PCBs in 89 paired
samples of serum and breast milk collected in four regions
of Japan in 2005. The geometric means of the total concentrations of PBDE (13 congeners) in
milk and serum were 1.56 and 2.89 ng/g lipid, respectively, whereas
those of total PCBs (15 congeners) were 63.9 and 37.5 ng/g
lipid, respectively. The major determinant of total PBDE concentration
in serum and milk was the geographic area within Japan, whereas
nursing duration was the major determinant of PCB concentration. BDE-209 was
the most predominant PBDE congener in serum but not in milk. The
excretion of BDE 209 in milk was lower than that of BDE 47 and BDE 153. QSAR
analysis revealed that two parameters, calculated octanol/water
partition and number of hydrogen-bond acceptors, were significant
descriptors. During the first weeks of lactation, the predicted partitioning
of PBDE and PCB congeners from serum to milk agreed with the
observed values. However, the prediction became weaker after 10 weeks
of nursing.
BackgroundNeonicotinoids, which are novel pesticides, have entered into usage around the world because they are selectively toxic to arthropods and relatively non-toxic to vertebrates. It has been suggested that several neonicotinoids cause neurodevelopmental toxicity in mammals. The aim was to establish the relationship between oral intake and urinary excretion of neonicotinoids by humans to facilitate biological monitoring, and to estimate dietary neonicotinoid intakes by Japanese adults.Methodology/Principal FindingsDeuterium-labeled neonicotinoid (acetamiprid, clothianidin, dinotefuran, and imidacloprid) microdoses were orally ingested by nine healthy adults, and 24 h pooled urine samples were collected for 4 consecutive days after dosing. The excretion kinetics were modeled using one- and two-compartment models, then validated in a non-deuterium-labeled neonicotinoid microdose study involving 12 healthy adults. Increased urinary concentrations of labeled neonicotinoids were observed after dosing. Clothianidin was recovered unchanged within 3 days, and most dinotefuran was recovered unchanged within 1 day. Around 10% of the imidacloprid dose was excreted unchanged. Most of the acetamiprid was metabolized to desmethyl-acetamiprid. Spot urine samples from 373 Japanese adults were analyzed for neonicotinoids, and daily intakes were estimated. The estimated average daily intake of these neonicotinoids was 0.53–3.66 μg/day. The highest intake of any of the neonicotinoids in the study population was 64.5 μg/day for dinotefuran, and this was <1% of the acceptable daily intake.
The chemical risks of short-chain chlorinated paraffins (SCCPs) to human health and ecological species in Japan were assessed in this study. SCCPs are used as extreme pressure additives in metal-working fluids and flame retardant agents in plastic materials. The first market basket study with a high resolution gas chromatography and mass spectrometry with electron capture negative ionization is reported. Total daily food intakes for Japanese residents of different ages were estimated using Latin Hypercube simulations, and the highest 95th percentile intake is 6.8 x 10(2) ng/kg/day for a 1-year-old child. Based on the reported no-observed-adverse-effect-level (NOAEL) and the estimated exposure mainly from food, it was concluded thatSCCPs are not posing risks to humans in Japan. Ecological risks to aquatic and sediment organisms were estimated using species sensitivity distributions. The 95th percentiles of the distributions obtained by fitting several environmental SCCP concentration data of river water and sediment were 41.8 ng/L and 558 ng/g wet weight as the possible highest concentrations, respectively. No-observed-effect-concentrations (NOEC) were determined by calculating the fifth percentiles of a species sensitivity distribution, which were 2.2 microg/L for aquatic organisms and 1.7 to 13.5 mg/ kg wet weight for sediment organisms. While it is likely that there is no imminent environmental chemical risk for aquatic organisms at a regional level in Japan, this study concluded that a more detailed risk assessment is necessary for sediment organisms.
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