Elemental Composition Studies Research Articles

Human placenta as a ‘dual’ biomarker for monitoring fetal and maternal environment with special reference to potentially toxic trace elements: Part 1: Physiology, function and sampling of placenta for elemental characterisation

Choice of specimen from human subjects for monitoring pollutants proven to be detrimental to human health depends on the criteria chosen, namely real-time monitoring (RTM) or long-term monitoring (LTM). Specimens such as whole blood, urine, saliva and breast milk are commonly used from living subjects for RTM of toxic metals. However, sampling blood requires an invasive procedure. On the other hand, hair (with some limitations), bone (especially for the assessment of bone seeking elements), adipose tissue (mainly for organic pollutants) and liver (for both organic and inorganic toxicants) are used as specimens for LTM. With the exception of hair, generally these specimens are obtained at post-mortem. In context of health-related biomonitoring, placenta as a specimen has not received as much attention as it deserves. It is a unique sample requiring no invasive procedure, and offers possibilities for RTM, in particular as a dual purpose specimen for evaluating the pollutant burden exerted on the mother as well as on the fetus. Obtaining representative samples of placenta for elemental composition studies is a difficult task, because of heterogeneous mix of placental cells and decidual matter tainted with maternal and fetal blood. Therefore, the present sampling practices for placental tissue, and guidelines to safeguard the validity of the sampled material have been reviewed in part 1 with the following conclusions: medico-legal and ethical matters should be properly addressed before collecting the placenta; it is advisable to collect the entire placenta even if it includes the umbilical cord; further preparatory work is to be carried out in a clean laboratory and depends upon the purpose of the investigation; homogenising the entire sample may prove to be technically challenging but this step is crucial to obtain representative samples, handling the entire sample may be unavoidable; and an alternative method of procuring representative samples would require random samples from multiple sites, pooled, homogenised and assayed to confirm homogeneity.

Electron stimulated decomposition of adsorbed hexafluoroacetylacetonate Cu(I) vinyltrimethylsilane, Cu(I)(hfac)(vtms)

The effect of a low energy electron beam on the decomposition of hexafluoroacetylacetonate Cu(I) vinyltrimethylsilane (Cu(I) precursor) on the Si(111)-(7×7) surface at room temperature has been studied using x-ray photoelectron spectroscopy and Auger electron spectroscopy. It was found that electron bombardment causes the decomposition of the Cu(I) precursor and an electron energy threshold for decomposition was found to be 4±0.5 eV. This result demonstrates that the decomposition of the Cu(I) precursor in the threshold region occurs through a dissociative electron attachment mechanism. Elemental composition studies of the grown films show that they are contaminated with carbon, and that the copper fraction is increased in the film compared to the precursor composition.

Chemical and biological studies of a new cigarette that primarily heats tobacco.: Part 1. Chemical composition of mainstream smoke

A new-technology cigarette has been developed. While the new cigarette burns some tobacco, it does not use tobacco as the fuel to sustain combustion and provide heat to the cigarette. Rather, the new cigarette primarily heats tobacco thereby reducing products of smoke formation mechanisms such as tobacco combustion, tobacco pyrolysis and pyrosynthesis. The mainstream smoke composition from a cigarette based on the new design (TOB-HT) has been characterized in comparative chemical testing with two reference cigarettes using the FTC puffing regimen. Thermal properties, UV absorption characteristics, elemental composition and materials balance studies all suggest a simplified smoke aerosol. Twenty-five smoke constituents (“target compounds”) identified by the scientific community as compounds that may contribute to the diseases statistically associated with smoking have also been measured. Mainstream smoke concentrations of most target compounds are significantly lower with the TOB-HT cigarette when compared with reference cigarettes in the ultra-light “tar” and light “tar” categories. Taken together, chemical analysis results suggest simplified TOB-HT smoke chemistry with marked reductions in specific chemicals reported to be biologically active.

95/00847 Elemental composition studies of fugitive and ambient air dust particulates from a thermal power station by instrumental neutron activation analysis

95/00847 Elemental composition studies of fugitive and ambient air dust particulates from a thermal power station by instrumental neutron activation analysis

Elemental composition studies of fugitive and ambient air dust particulates from a thermal power station by instrumental neutron activation analysis

In order to assess the source of pollutants and the atmosphere quality in and around a thermal power plant, fugitive dust particulates from seven different locations and ambient air dust from six locations have been analyzed for 32 elements (As, Au, Ba, Br, Ce, Cl, Co, Cr, Cs, Cu, Eu, Fe, Ga, Hg, Hf, K, La, Lu, Mg, Mn, Na, P, Rb, Sb, Sc, Se, Ta, Tb, Te, Th, W and Yb) by employing instrumental neutron activation analysis (INAA). The method involves the irradiation of samples and comparator standards in a thermal neutron flux range of 1012−1013n·cm−2·s−1 in a nuclear reactor for 10 min and 1 day followed by high resolution γ-spectrometry. Wide differences have been observed in the mean elemental concentrations of Fe, Co, Br, Mn, As, P. Ba and Cu in fugitive and ambient dust particulates coliected from these different locations. Further, a comparison of the elemental contents of the dust particulates from the plant with environmental standards (Urban Particulate Matter, Coal Fly Ash, Vehicle Exhaust and Coal) show significantly lower or comparable amounts of toxic and pollutant elements in the environmental samples.

Calcification of the aortic wall in hypercalcemic rabbits.

The mineralization process was investigated in the aortic wall of hypercalcemic rabbits. The elevated calcium level in serum was induced by intramuscular injection of vitamin D3. The animals were killed at different times of the experiment (max. 246 d). The freeze-dried tissue homogenates were used for elemental composition studies by means of proton induced X-ray emission (PIXE) and atomic absorption spectroscopy. The structural information was obtained from infrared (IR) and X-ray diffraction (XRD) spectra. Moreover, the ascending part of the aortic arch was separated and used for micro-PIXE (PIXE in combination with proton microprobe) and histochemical examinations. It was found that hypercalcemia (blood serum Ca content elevated by about 20%) induced calcification of the aortic wall. The mineral phase within the aortic wall consisted of Ca-P salts. The Ca/P ratio continuously increased during the experiment and approached 2 after 246 d of the vitamin D3 treatment. The IR and XRD studies made possible the identification of the complex phase composition of the samples. The hydroxyapatite crystals were detected after 196 days, however, in earlier phases of the experiment, amorphous calcium phosphate, dicalcium phosphate dihydrate and octacalcium phosphate were also observed. On the basis of the data obtained, the mechanism of the precipitation and growth of inorganic deposits in the tunica media of the aortic wall was discussed.

Trace element analysis in environmental and occupational health: Box plot representation of elemental composition results

Box plots are used in the visual representation of large data sets and in exploratory data analysis. They display batches of data with five values being used to describe the data set. These are the median, the upper and lower extremes of the range of values and the 75 and 25 percentiles. A notch about the median, e.g. at the 95 percent level of significance, can be incorporated in the display allowing the difference between the medians of different sets to be established. The method, although not recently established, has so far found little application in the analytical field. Hence, in an effort to strengthen its applicability, the features and capabilities of box plots, in terms of data reporting and insight into the data set, are here described through elemental composition studies in relation to environmental and occupational health.

Stable lead isotope ratios in arctic aerosols: evidence for the origin of arctic air pollution

The isotopic composition of aerosol lead in the polar region potentially contains information on the origin of Arctic pollution which will complement that from meteorological and trace elemental composition studies. Weekly samples of atmospheric aerosols were collected at three locations in the Canadian Arctic from mid-1983 to mid-1984. They were analyzed for elemental composition and stable lead isotope ratios (Pb 206 207 ). High crustal enrichment factors confirmed that the majority of samples contained lead of anthropogenic origin. Pb 206 207 ratios were very uniform over time and between sites, suggesting a common origin of lead pollution in the Canadian Arctic. The mean isotope ratios at the Alert and Mould Bay stations were 1.160±0.010 and 1.161±0.006, respectively (samples from a third site at Igloolik were evidently contaminated by local sources). A small number of samples from Spitsbergen, taken during flow predominantly out of the northern U.S.S.R., were found to have a similar mean Pb 206 207 ratio of 1.154 ±0.006. From published lead isotope analyses of Soviet lead-bearing ores, we would expect a mean isotope ratio in industrial and vehicular emissions in the U.S.S.R. of around 1.158. Contributions to Arctic lead pollution from the U.S. and western Canadian sources can probably be ruled out, as they have significantly higher Pb 206 207 ratios. Similarly, emissions from northern Canadian and Kola Peninsula smelters can be disregarded, as they appear to have low isotope ratios. Eastern Canadian automotive lead aerosol contained only marginally lower Pb 206 207 ratios than in the Arctic, but meteorological studies argue against this region being a major source area for Arctic pollution. Scant European data suggest that European Pb emissions generally have lower isotope ratios than the Arctic samples. However, more data in Eurasia are needed before apportionments of Arctic Pb between sources within the region can be made.

Sample validity in biological trace element and organic nutrient research studies

The complexities involved in dealing with the requirements of trace element research studies in the life sciences demand comprehensive planning of the investigations and use of a variety of techniques. It also requires a combination of biological insight and analytical awareness on the part of the investigators in order to obtain valid samples for analysis. Thus, the generation of meaningful conclusions from elemental composition studies on biological systems is a strictly multidisciplinary task, an approach that is vital for the overall success of the investigations. In addition, new initiatives are needed to produce multipurpose biological reference materials to cope with the growing demands of this multifaceted area of research. These aspects are discussed.