Carla Fanizza

Mechanochemical treatment to recycling asbestos-containing waste.

Numerous industrial and experimental facilities have been set up, particularly in the last ten years, as a result of studies and researches on treating asbestos-containing waste (ACW) to stabilise it and to enable its reuse. Some of the stabilisation processes reduce the hazards of ACW by imprisoning in a cement or resonoid matrix. Other processes modify the fibrous structure of asbestos and transform it into an inert substance. One such inactivation process is mechanochemical transformation. This new technology is extremely interesting both economically and industrially, especially in view of the European Directive 1999/3/CE of 24/4/99, which provides for the obligatory treatment of all types of waste material before its disposal.

Multi‐walled carbon nanotubes induce cytotoxicity and genotoxicity in human lung epithelial cells

The increasing use of nanomaterials in consumer products highlights the importance of understanding their potential toxic effects. We evaluated cytotoxic and genotoxic/oxidative effects induced by commercial multi‐walled carbon nanotubes (MWCNTs) on human lung epithelial (A549) cells treated with 5, 10, 40 and 100 µg ml−1 for different exposure times. Scanning electron microscopy (SEM) analysis, MTT [3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyl tetrazolium bromide] and lactate dehydrogenase (LDH) assays were performed to evaluate cytotoxicity. Fpg‐modified comet assay was used to evaluate direct‐oxidative DNA damage. LDH leakage was detected after 2, 4 and 24 h of exposure and viability reduction was revealed after 24 h. SEM analysis, performed after 4 and 24 h exposure, showed cell surface changes such as lower microvilli density, microvilli structure modifications and the presence of holes in plasma membrane. We found an induction of direct DNA damage after each exposure time and at all concentrations, statistically significant at 10 and 40 µg ml−1 after 2 h, at 5, 10, 100 µg ml−1 after 4 h and at 10 µg ml−1 after 24 h exposure. However, oxidative DNA damage was not found. The results showed an induction of early cytotoxic effects such as loss of membrane integrity, surface morphological changes and MWCNT agglomerate entrance at all concentrations. We also demonstrated the ability of MWCNTs to induce early genotoxicity. This study emphasizes the suitability of our approach to evaluating simultaneously the early response of the cell membrane and DNA to different MWCNT concentrations and exposure times in cells of target organ. The findings contribute to elucidation of the mechanism by which MWCNTs cause toxic effects in an in vitro experimental model. Copyright

Evaluation of cytotoxic concentration–time response in A549 cells exposed to respirable α‐quartz

A causal pathway between quartz, silicosis and lung cancer has been postulated. The aim of our study was to assess cytotoxic effects induced in a human lung epithelial cell line (A549) by exposure to α‐quartz. Cells were exposed to respirable α‐quartz (SRM1878a, NIST) at 25, 50 or 100 µg ml−1 for 24 h and at 50 or 100 µg ml−1 for 48 h. Cytotoxic effects were analyzed by scanning electron microscopy (SEM), apoptotic morphology analysis with Hoechst staining and lactate dehydrogenase (LDH) release assay. In cells exposed to α‐quartz for 24 h, a concentration‐dependent bleb development and in particular the localization of blebs at the cell edge at higher concentrations were observed. The blebbing phenomenon was more evident after 48 h of exposure to 50 or to 100 µg ml−1 of α‐quartz and large blebs were localized at the cell edge. At the same concentrations surface smoothing was also observed. Moreover the presence of holes and tears was detected at the highest concentration both at 24 and 48 h. Results of morphological analysis with Hoechst stain evidenced an increase concentration–time dependent of apoptotic cell percentage that was more marked after 48 h exposure to 100 µg ml−1 and a prevalence of late apoptosis stage with the increase of exposure time and concentration. Cells exposed to 50 or 100 µg ml−1 of α‐quartz for 24 and 48 h produced a significant increase in LDH release. The concentration–time‐dependent bleb induction evidenced by SEM correlates with the increase of apoptotic cells and LDH activity release, demonstrating the onset of cytotoxic effects in human lung cells exposed to α‐quartz. Copyright

Analysis of major pollutants and physico-chemical characteristics of PM2.5 at an urban site in Rome

Air quality data from a one year study at an urban roadside location in Rome are reported for major pollutants. Continuous concentration data of carbon monoxide, ozone, nitrogen dioxide, aromatic hydrocarbons and natural radioactivity were measured in the urban air of Rome from January 2016 to January 2017. Moreover, PM2.5 mass concentration and physico-chemical characteristics of single constituent particles are herein reported. Gaseous pollutants, except ozone, and PM2.5 showed maximum concentrations in December due to high atmospheric stability. O3 and NO2 trend analysis showed photochemical smog episodes in June and September. In September, during a photochemical smog episode the aromatic hydrocarbons contribution to ozone formation was experimentally proven. Pearsons coefficient among aromatic hydrocarbons and the ratio Toluene/Benzene (T/B) showed that pollutants were under the influence of vehicular traffic. Physico-chemical characterization of PM2.5 single particles, carried out by field emission scanning electron microscope combined with energy dispersive X-ray spectroscopy, displayed the presence of particle diversity from natural and anthropogenic origin. Four principal components in the PM2.5 were identified: carbonaceous particles, Ca-sulphates, soil dust and building structure particles, metal particles. The principal source of carbonaceous particles in this urban area consists of the motor vehicle exhausts and the heating systems in winter. Traces of S and sometimes S, Na, K were detected on varying percentages of carbonaceous particles. These data suggested that the carbonaceous particles act as vehicles for strong acids, prevalently H2SO4 and alkaline metal sulphates. A Saharan dust contribution to PM2.5 was found in different periods. Metal particles included iron oxide particles, metals oxide particles and Fe-rich metal compounds. The identification of chemical composition of individual particles provide useful information to determine their origin and formation processes.

Identification of particulate matter and vitreous fibres in the atmosphere of a megacity

This paper reports the preliminary results of our investigation. The levels of organic carbon, elemental carbon and PTS with their relative relationships and evidence of presence of man-made vitreous fibres are reported and discussed. These preliminary results underline the importance and the necessity of a systematic approach in such studies.

First Investigations On Gas-phase Mercury InTwo Italian Cities

Mercury is an element naturally present in the biosphere of both natural and anthropogenic origins. From the chemical point of view mercury is present in the atmosphere in gaseous form as elementary mercury and Reactive Gaseous Mercury and adsorbed onto particulate matter over that in other forms in ultratrace. From the toxicological point of view mercury is extremely toxic, reaches all the organs and it is also quickly absorbed by the lungs. In this study seasonal study campaigns were performed during 2005-2006 in two urban areas of different Italian cities, Taranto and Venice, to investigate the levels and behavior of gaseous-phase mercury. For the sampling and analysis a portable instrument was used based on the atomic absorption methodology with the background correction through the Zeeman effect. No relevant situations for human health were found (the levels range between 1 and 15 ng/m).