Your search keyword '"Meza-Figueroa D"' showing total 5 results

1. Association of airborne particulate matter with pollen, fungal spores, and allergic symptoms in an arid urbanized area

Author

Ortega-Rosas, C. I., primary, Meza-Figueroa, D., additional, Vidal-Solano, J. R., additional, González-Grijalva, B., additional, and Schiavo, B., additional

Published

2020

2. Metal(loid) bioaccessibility and risk assessment of ashfall deposit from Popocatépetl volcano, Mexico.

Author

Schiavo B, Meza-Figueroa D, Morton-Bermea O, Angulo-Molina A, González-Grijalva B, Armienta-Hernández MA, Inguaggiato C, Berrellez-Reyes F, and Valera-Fernández D

Subjects

Risk Assessment, Humans, Mexico, Biological Availability, Particle Size, Lung metabolism, Lung chemistry, Environmental Monitoring methods, Microscopy, Electron, Scanning, Metals analysis, X-Ray Diffraction, Environmental Exposure, Air Pollutants analysis, Volcanic Eruptions

Abstract

Ash emission from volcanic eruptions affects the environment, society, and human health. This study shows the total concentration and lung bioaccessible fraction of eight potential toxic metal(loid)s in five Popocatépetl ashfall samples. Mineralogical phases and particle size distribution of the ashfall were analyzed by X-ray diffraction (XRD) and Scanning Electron Microscope (SEM) techniques, respectively. The bioaccessibility test of Gamble solution (GS) and Artificial Lysosomal Fluid (ALF) were conducted to simulate extracellular (pH 7) and intracellular (pH 4.5) conditions, respectively. The studied metal(loid)s showed the following total concentration (mg kg -1 ): 1.98 (As), 0.17 (Cd), 134.09 (Cr), 8.66 (Cu), 697.33 (Mn), 55.35 (Ni), 8.77 (Pb), and 104.10 (Zn). Geochemical indices suggested that some metal(loid)s are slightly enriched compared to the local soil background concentrations. Several mineralogical phases were identified in the collected ashfall deposits, such as plagioclase, pyroxene, and Fe-Ti oxide, among others. According to the risk assessment results, the non-carcinogenic risk related to ashfall exposure returns an HQ > 1 for children. In contrast, the estimation of carcinogenic risk was found to be within the tolerable limit. Metal(loid)s showed low bioaccessibility (< 30%) in GS and ALF, with the highest values found in ALF solution for As (12.18%) and Cu (7.57%). Despite their metal-bioaccessibility, our findings also showed that dominant ash particle size ranged between fine (< 2.5 μm) and extremely fine (< 1 μm), considered highly inhalable fractions. The results obtained in this work indicate that volcanic ashes are bioinsoluble and biodurable, and exhibit low bioaccessibility when in contact with lung human fluids., (© 2024. The Author(s).)

Published

2024

3. Oxidative potential of metal-polluted urban dust as a potential environmental stressor for chronic diseases.

Author

Schiavo B, Meza-Figueroa D, Vizuete-Jaramillo E, Robles-Morua A, Angulo-Molina A, Reyes-Castro PA, Inguaggiato C, Gonzalez-Grijalva B, and Pedroza-Montero M

Subjects

Young Adult, Humans, Metals analysis, Dust analysis, Oxidative Stress, Chronic Disease, Risk Assessment, Environmental Monitoring methods, Metals, Heavy toxicity, Metals, Heavy analysis

Abstract

Oxidative stress (OS) associated with metals in urban dust has become a public health concern. Chronic diseases linked to general inflammation are particularly affected by OS. This research analyzes the spatial distribution of metals associated with OS, the urban dust´s oxidative potential (OP), and the occurrence of diseases whose treatments are affected by OS. We collected 70 urban dust samples during pre- and post-monsoon seasons to achieve this. We analyzed particle size distribution and morphology by scanning electron microscopy, as well as metal(loid)s by portable X-ray fluorescence, and OP of dust in artificial lysosomal fluid by using an ascorbic acid depletion assay. Our results show that the mean concentration of Fe, Pb, As, Cr, Cu, and V in pre-monsoon was 83,984.6, 98.4, 23.5, 165.8, 301.3, and 141.9 mg kg -1 , while during post-monsoon was 50,638.8, 73.9, 16.7, 124.3, 178.9, and 133.5 mg kg -1 , respectively. Impoverished areas with the highest presence of cardiovascular, cancer, diabetes, and respiratory diseases coincide with contaminated areas where young adults live. We identified significant differences in the OP between seasons. OP increases during the pre-monsoon (from 7.8 to 237.5 nmol AA min -1 ) compared to the post-monsoon season (from 1.6 to 163.2 nmol AA min -1 ). OP values are much higher than measured standards corresponding to contaminated soil and urban particulate matter, which means that additional sources beside metals cause the elevated OP. The results show no risk from chronic exposure to metals; however, our results highlight the importance of studying dust as an environmental factor that may potentially increase oxidative stress., (© 2022. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

4. Association of airborne particulate matter with pollen, fungal spores, and allergic symptoms in an arid urbanized area.

Author

Ortega-Rosas CI, Meza-Figueroa D, Vidal-Solano JR, González-Grijalva B, and Schiavo B

Subjects

Air Pollutants analysis, Air Pollutants toxicity, Allergens analysis, Cities, Dust analysis, Environmental Monitoring methods, Humans, Hypersensitivity etiology, Incidence, Mexico epidemiology, Particle Size, Particulate Matter analysis, Seasons, Soil chemistry, Urban Health, Urbanization, Wind, Hypersensitivity epidemiology, Particulate Matter toxicity, Pollen chemistry, Pollen toxicity, Spores, Fungal chemistry

Abstract

Studies focused on the seasonal distribution of pollen and spores in semiarid cities are scarce. At these sites, climate change potentiates the emission and transport of fine (PM 10 ) to ultrafine particles (PM 2.5 ), easily attached to pollen surfaces, causing allergen's release. This study examines the potential correlation of seasonal variations of pollen, fungal spores, PM 10 , and meteorological parameters with allergic reactions of 150 people living in a Sonoran desert city. We collected PM 10 , airborne pollen, and spores during a year. We also studied topsoil and road dust samples as potential PM-emission sources. We obtained dust-mineralogy, chemistry, and particle size attached to pollen by X-ray diffraction and scanning electron microscope. Results show that seasonal high PM-loading in the urban atmosphere coincides with aeroallergens promoting micro- to nanoparticles' attachment to pollen's surface. A collapsed membrane was observed in several samples after individual grains show the following maximum wall coverage: Poaceae 28%, Asteraceae 40%, Chenopodiaceae-Amaranthacea 29%, Fabaceae 18%. Most of the particles covering pollen's surface have a geogenic origin mixed with metals linked to traffic (bromide, chlorine, and antimony). Mineralogical, granulometric analysis, and main wind-direction show that two local soil-types are the main contributors to PM. A high frequency of positive sensitization to pollen with high particle loading was detected. These results suggest that climate-driven dust emissions may alter pollen and spore surfaces' physicochemical characteristics with the further consequences in their allergenic potential.

Published

2021

5. Serum matrix metalloproteinase-9 in children exposed to arsenic from playground dust at elementary schools in Hermosillo, Sonora, Mexico.

Author

García-Rico L, Meza-Figueroa D, Beamer PI, Burgess JL, O'Rourke MK, Lantz CR, Furlong M, Martinez-Cinco M, Mondaca-Fernandez I, Balderas-Cortes JJ, and Meza-Montenegro MM

Subjects

Adolescent, Arsenic urine, Child, Child, Preschool, Cross-Sectional Studies, Environmental Exposure analysis, Environmental Pollutants urine, Female, Humans, Male, Mexico, Schools, Arsenic toxicity, Dust analysis, Environmental Biomarkers, Environmental Pollutants toxicity, Matrix Metalloproteinase 9 blood

Abstract

Arsenic exposure in adults has been associated with increased serum matrix metalloproteinase-9 (MMP-9), a biomarker which is associated with chronic respiratory disease, lung inflammation, cardiovascular disease and cancer. The objective of this study was to evaluate the association between serum MMP-9 levels in children, urinary arsenic, arsenic chronic daily intake (CDI) and arsenic exposure from playground dust. This cross-sectional study examined 127 children from five elementary schools, in Hermosillo, Sonora, Mexico. Arsenic was analyzed in the dust using a portable X-ray fluorescence (XRF) analyzer. Total urinary arsenic was determined by inductively coupled plasma/optical emission spectrometry. Serum was analyzed for MMP-9 using ELISA. Arsenic levels in playground dust averaged 16.9 ± 4.6 mg/kg. Urinary arsenic averaged 34.9 ± 17.1 µg/L. Arsenic concentration in playground dust was positively associated with serum MMP-9 levels in crude analyses and after adjustment (P < 0.01), MMP-9 and CDI were positively associated only after adjustment (P < 0.01), and no association was found between MMP-9 and urinary arsenic. In conclusion, our study showed an association in children between serum MMP-9 levels and playground dust arsenic concentrations. Therefore, exposure to arsenic in dust where children spend significant time may manifest toxic effects.

Published

2020