Yttrium and lanthanides in human lung fluids, probing the exposure to atmospheric fallout.

6533b85cfe1ef96bd12bd54f

RESEARCH PRODUCT

Yttrium and lanthanides in human lung fluids, probing the exposure to atmospheric fallout.

Loredana Randazzo Pierpaolo Zuddas Rosalda Punturo S. Speziale E. Tamburo Paolo Censi Pietro Arico Angela Cuttitta

subject

Lanthanide 010504 meteorology & atmospheric sciences Health Toxicology and Mutagenesis 550 - Earth sciences 010501 environmental sciences 01 natural sciences Lanthanoid Series Elements ACTIVATED COMPLEX Mass Spectrometry Human lung Lanthanide ELEMENTS Yttrium Radioisotopes Yttrium Waste Management and Disposal Lung Inhalation Exposure Inhalation Dendriform pulmonary ossification SEAWATER Pollution medicine.anatomical_structure Italy Environmental chemistry Thermodynamics Bronchoalveolar Lavage Fluid Algorithms Bronchoalveolar lavage CHEMICAL-REACTIONS Environmental Engineering Chromatography Gas [SDU.STU]Sciences of the Universe [physics]/Earth Sciences chemistry.chemical_element Mineralogy Volcanic Eruptions WATERS medicine bronchoalveaolar lavages PARTICLES Environmental Chemistry Humans In patient DISSOLUTION RATES 0105 earth and related environmental sciences RARE-EARTH PNEUMOCONIOSIS Precipitation (chemistry)Yttrium Environmental Exposure Aerosol Settore GEO/08 - Geochimica E Vulcanologia chemistry Models Chemical Medical geochemistry 13. Climate action Medical geochemistry; Lanthanide; bronchoalveaolar lavages Volcanic ash Volcanic ash

description

International audience; Inhalation of airborne particles can produce crystallization of phosphatic microcrysts in intraaveolar areas of lungs, sometimes degenerating into pulmonary fibrosis. Results of this study indicate that these pathologies are induced by interactions between lung fluids and inhaled atmospheric dust in people exposed to volcanic dust ejected from Mount Etna in 2001. Here, the lung solid-liquid interaction is evaluated by the distribution of yttrium and lanthanides (YLn) in fluid bronchoalveolar lavages on selected individuals according the classical geochemical approaches. We found that shale-normalised patterns of yttrium and lanthanides have a 'V shaped' feature corresponding to the depletion of elements from Nd to Tb when compared to the variable enrichments of heavy lanthanides, Y, La and Ce. These features and concurrent thermodynamic simulations suggest that phosphate precipitation can occur in lungs due to interactions between volcanic particles and fluids. We propose that patterns of yttrium and lanthanides can represent a viable explanation of some pathology observed in patients after prolonged exposure to atmospheric fallout and are suitable to become a diagnostic parameter of chemical environmental stresses.

year	journal	country	edition	language
2011-02-28

10.1016/j.jhazmat.2010.11.113 http://hdl.handle.net/10447/54042