burnpit computational data

공공데이터포털

meta data. This dataset is associated with the following publication: Kim, Y.H., J. Rager, I. jaspers, and M. Gilmour. Computational Approach to Link Chemicals in Anthropogenic Smoke Particulate Matter with Toxicity. CHEMICAL RESEARCH IN TOXICOLOGY. American Chemical Society, Washington, DC, USA, 35(12): 2210-2213, (2022).

Burn pit smoke condensate-mediated toxicity in human nasal epithelial cells

공공데이터포털

This dataset provides information about how short-term inhalation of burn pit smoke particles, specifically plastic smoke particles, causes significant toxicity in human nasal epithelial cells and how toxicity caused by inhaled emissions from plastic incinerations could contribute to the development of sinonasal disease associated with burn pits and other environmental particulate matter exposures. This dataset is associated with the following publication: Rogers, K., E. WaMaina, A. Barber, S. Masood, C. Love, Y.H. Kim, M. Gilmour, and i. Jaspers. Emissions from plastic incineration induce inflammation, oxidative stress, and impaired bioenergetics in primary human respiratory epithelial cells. TOXICOLOGICAL SCIENCES. Society of Toxicology, RESTON, VA, 199(2): 301-315, (2024).

Development and Evaluation of a High Throughput Inhalation Model for Organic Chemicals

공공데이터포털

This investigation was broken down into three interrelated steps: data collection, model building, and model evaluation. R software (v. 3.5.1) with the httk package (v. 1.9) was used for data organization, analysis, and visualization. All models and data associated with this manuscript are available in httk vX. This dataset is associated with the following publication: Linakis, M., R. Sayre, R. Pearce, M.A. Sfeir, N. Sipes, H. Pangburn, J. Gearhart, and J. Wambaugh. Development and Evaluation of a High Throughput Inhalation Model for Organic Chemicals. Journal of Exposure Science and Environmental Epidemiology. Nature Publishing Group, London, UK, 30(5): 866-877, (2020).

Development and Evaluation of a High Throughput Inhalation Model for Organic Chemicals

공공데이터포털

This investigation was broken down into three interrelated steps: data collection, model building, and model evaluation. R software (v. 3.5.1) with the httk package (v. 1.9) was used for data organization, analysis, and visualization. All models and data associated with this manuscript are available in httk vX. This dataset is associated with the following publication: Linakis, M., R. Sayre, R. Pearce, M.A. Sfeir, N. Sipes, H. Pangburn, J. Gearhart, and J. Wambaugh. Development and Evaluation of a High Throughput Inhalation Model for Organic Chemicals. Journal of Exposure Science and Environmental Epidemiology. Nature Publishing Group, London, UK, 30(5): 866-877, (2020).

burnpit dataset gilmour

공공데이터포털

excell spreadsheet. This dataset is associated with the following publication: Kim, Y.H., S. Warren, I. Kooter, W. Williams, I. George, S. Vance, M. Hays, M. Higuchi, S. Gavett, D. Demarini, I. Jaspers, and M. Gilmour. Chemistry, lung toxicity and mutagenicity of burn pit smoke-related particulate matter. Particle and Fibre Toxicology. BioMed Central Ltd, London, UK, 18(1): 45, (2021).

The Role of Fuel Type and Combustion Phase on the Toxicity of Biomass Smoke Following Inhalation Exposure in Mice

공공데이터포털

This dataset includes physico-chemical characteristics of biomass smoke of three different fuels (oak, peat, and eucalyptus) generated from a tube furnace system at two different combustion phases (smoldering and flaming) and also provides comparisons of lung toxicity outcomes after inhalation and aspiration exposures to the biomass smoke. This dataset is associated with the following publication: Kim, Y.H., C. King, Q. Krantz, M.M. Hargrove, I. George, J. McGee, L. Copeland, M. Hays, M. Landis, M. Higuchi, S. Gavett, and M. Gilmour. The role of fuel type and combustion phase on the toxicity of biomass smoke following inhalation exposure in mice. Archives of Toxicology. Springer, New York, NY, USA, 93(6): 1501-1513, (2019).

The Role of Fuel Type and Combustion Phase on the Toxicity of Biomass Smoke Following Inhalation Exposure in Mice

공공데이터포털

This dataset includes physico-chemical characteristics of biomass smoke of three different fuels (oak, peat, and eucalyptus) generated from a tube furnace system at two different combustion phases (smoldering and flaming) and also provides comparisons of lung toxicity outcomes after inhalation and aspiration exposures to the biomass smoke. This dataset is associated with the following publication: Kim, Y.H., C. King, Q. Krantz, M.M. Hargrove, I. George, J. McGee, L. Copeland, M. Hays, M. Landis, M. Higuchi, S. Gavett, and M. Gilmour. The role of fuel type and combustion phase on the toxicity of biomass smoke following inhalation exposure in mice. Archives of Toxicology. Springer, New York, NY, USA, 93(6): 1501-1513, (2019).

Burn pit smoke condensate-mediated toxicity in human airway epithelial cells

공공데이터포털

Data include assessment of transepithelial electrical resistance, lactate dehydrogenase, toxicity scores, pro-inflammatory cytokines, and modulation of gene expression in human airway epithelial cells exposed to burn pit smoke condensates. This dataset is associated with the following publication: Ghosh, A., A. Payton, S. Gallant, K. Rogers, T. Mascenik, E. Hickman, C. Love, K. Schichlein, T. Smyth, Y.H. Kim, J. Rager, M. Gilmour, S. Randell, and i. Jspers. Burn pit smoke condensate-mediated toxicity in human airway epithelial cells. CHEMICAL RESEARCH IN TOXICOLOGY. American Chemical Society, Washington, DC, USA, 37(5): 791-803, (2024).

Combustion of C1 and C2 PFAS: Figures 1 and 2

공공데이터포털

This dataset includes values used to generate Figure 1, 2, and 3 in the manuscript. Figure 1 is a diagram of the incinerator with residence times and associated temperatures. Figure 2 is a temperature versus residence time plot for each of the firing rates. Figure 3 is FTIR data used to generate time series plots of concentrations. This dataset is associated with the following publication: Krug, J., P. Lemieux, C. Lee, J. Ryan, P. Kariher, E. Shields, L. Wickersham, M. Denison, K. Davis, D. Swensen, R. Burnette, J. Wendt, and W. Linak. Combustion of C1 and C2 PFAS: Kinetic Modeling and Experiments, February 2022. JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION. Air & Waste Management Association, Pittsburgh, PA, USA, 72(3): 256-270, (2022).

Data used in manuscript "Modeling crop residue burning experiments and assessing the fire impacts on air quality"

공공데이터포털

The data sets includes the data used to generate the figures presented in the manuscript. Each worksheet in the attached file provides data for a specific figure (as labeled). This dataset is associated with the following publication: Zhou, L., K. Baker, S. Napelenok, G. Pouliot, R. Elleman, S. O'Neill, S. Urbanski, and D. Wong. Modeling crop residue burning experiments to evaluate smoke emissions and plume transport. SCIENCE OF THE TOTAL ENVIRONMENT. Elsevier BV, AMSTERDAM, NETHERLANDS, 627: 523-533, (2018).