Associations between area-level arsenic exposure and adverse birth outcomes: An Echo-wide cohort analysis

BackgroundDrinking water is a common source of exposure to inorganic arsenic. In the US, the Safe Drinking Water Act (SDWA) was enacted to protect consumers from exposure to contaminants, including arsenic, in public water systems (PWS). The reproductive effects of preconception and prenatal arsenic exposure in regions with low to moderate arsenic concentrations are not well understood.ObjectivesThis study examined associations between preconception and prenatal exposure to arsenic violations in water, measured via residence in a county with an arsenic violation in a regulated PWS during pregnancy, and five birth outcomes: birth weight, gestational age at birth, preterm birth, small for gestational age (SGA), and large for gestational age (LGA).MethodsData for arsenic violations in PWS, defined as concentrations exceeding 10 parts per billion, were obtained from the Safe Drinking Water Information System. Participants of the Environmental influences on Child Health Outcomes Cohort Study were matched to arsenic violations by time and location based on residential history data. Multivariable, mixed effects regression models were used to assess the relationship between preconception and prenatal exposure to arsenic violations in drinking water and birth outcomes.ResultsCompared to unexposed infants, continuous exposure to arsenic from three months prior to conception through birth was associated with 88.8 g higher mean birth weight (95% CI: 8.2, 169.5), after adjusting for individual-level confounders. No statistically significant associations were observed between any preconception or prenatal violations exposure and gestational age at birth, preterm birth, SGA, or LGA.ConclusionsOur study did not identify associations between preconception and prenatal arsenic exposure, defined by drinking water exceedances, and adverse birth outcomes. Exposure to arsenic violations in drinking water was associated with higher birth weight. Future studies would benefit from more precise geodata of water system service areas, direct household drinking water measurements, and exposure biomarkers

Human BioMolecular Atlas Program (HuBMAP): 3D Human Reference Atlas construction and usage

\ua9 The Author(s) 2025. The Human BioMolecular Atlas Program (HuBMAP) aims to construct a 3D Human Reference Atlas (HRA) of the healthy adult body. Experts from 20+ consortia collaborate to develop a Common Coordinate Framework (CCF), knowledge graphs and tools that describe the multiscale structure of the human body (from organs and tissues down to cells, genes and biomarkers) and to use the HRA to characterize changes that occur with aging, disease and other perturbations. HRA v.2.0 covers 4,499 unique anatomical structures, 1,195 cell types and 2,089 biomarkers (such as genes, proteins and lipids) from 33 ASCT+B tables and 65 3D Reference Objects linked to ontologies. New experimental data can be mapped into the HRA using (1) cell type annotation tools (for example, Azimuth), (2) validated antibody panels or (3) by registering tissue data spatially. This paper describes HRA user stories, terminology, data formats, ontology validation, unified analysis workflows, user interfaces, instructional materials, application programming interfaces, flexible hybrid cloud infrastructure and previews atlas usage applications

Image Anal Stereol 2003;22:73-80 Review Article MODERN STEREOLOGICAL EVALUATION IN THE AGING HUMAN

Quantitative estimation of neuronal numbers in the human substantia nigra (SN) can be achieved by a conventional single section (SS) count or by the more modern stereological disector (DS) count. However, counting results from SS counts are potentially biased and might not accurately reflect the total neuronal number in the SN or the changes in the total number of neurons occurring during aging or with neurodegenerative disease. Potential sources of bias include the lack of linearity between cell number per area of section and cell number per volume; the variation in the counting level and orientation of tissue sections; and shrinkage of tissue. Modern stereological DS counting overcomes these problems and has played a crucial role in many recent studies in neuropathology, neuroanatomy, neuropharmacology and neurogenetics. Over the past decades, four stereology based counting methods including physical DS, physical fractionator, optical DS and optical fractionator, have been established for quantitative measurement. Recently, stereological estimates have revealed a linear reduction rate of total nigral neuronal numbers with age of about 10 % per decade. These findings suggest that the surviving nigral neurons undergo a degenerative change leading to neuronal dysfunction with aging. Furthermore, as an advanced quantitative tool, modern stereological evaluation may provide new insights into the aging of the human SN thereby enabling us to better understand the pathophysiological processes in aging brain