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Your search keyword '"Melissa C Friesen"' showing total 6 results
Start Over Author "Melissa C Friesen" Publisher environmental health perspectives
6 results on '"Melissa C Friesen"'

2. Relative Contributions of Agricultural Drift, Para-Occupational, and Residential Use Exposure Pathways to House Dust Pesticide Concentrations: Meta-Regression of Published Data

Author

Nicole C. Deziel, Jane A. Hoppin, Cynthia J. Hines, Melissa C. Friesen, Laura E. Beane Freeman, Rena R. Jones, Dale P. Sandler, Aaron Blair, Kent Thomas, Jay H. Lubin, Barry I. Graubard, Gabriella Andreotti, Michael C. R. Alavanja, and Honglei Chen

Subjects
Health, Toxicology and Mutagenesis, Review, macromolecular substances, 010501 environmental sciences, 030501 epidemiology, 01 natural sciences, 03 medical and health sciences, Air pollutants, Occupational Exposure, Environmental health, Environmental monitoring, Humans, Meta-regression, Pesticides, 0105 earth and related environmental sciences, 2. Zero hunger, Air Pollutants, business.industry, Public Health, Environmental and Occupational Health, Agriculture, Dust, Environmental Exposure, Environmental exposure, Pesticide, Air Pollution, Indoor, Housing, Environmental science, Occupational exposure, 0305 other medical science, business, Environmental Monitoring
Abstract

Background: Increased pesticide concentrations in house dust in agricultural areas have been attributed to several exposure pathways, including agricultural drift, para-occupational, and residential use. Objective: To guide future exposure assessment efforts, we quantified relative contributions of these pathways using meta-regression models of published data on dust pesticide concentrations. Methods: From studies in North American agricultural areas published from 1995 to 2015, we abstracted dust pesticide concentrations reported as summary statistics [e.g., geometric means (GM)]. We analyzed these data using mixed-effects meta-regression models that weighted each summary statistic by its inverse variance. Dependent variables were either the log-transformed GM (drift) or the log-transformed ratio of GMs from two groups (para-occupational, residential use). Results: For the drift pathway, predicted GMs decreased sharply and nonlinearly, with GMs 64% lower in homes 250 m versus 23 m from fields (interquartile range of published data) based on 52 statistics from seven studies. For the para-occupational pathway, GMs were 2.3 times higher [95% confidence interval (CI): 1.5, 3.3; 15 statistics, five studies] in homes of farmers who applied pesticides more recently or frequently versus less recently or frequently. For the residential use pathway, GMs were 1.3 (95% CI: 1.1, 1.4) and 1.5 (95% CI: 1.2, 1.9) times higher in treated versus untreated homes, when the probability that a pesticide was used for the pest treatment was 1–19% and ≥ 20%, respectively (88 statistics, five studies). Conclusion: Our quantification of the relative contributions of pesticide exposure pathways in agricultural populations could improve exposure assessments in epidemiologic studies. The meta-regression models can be updated when additional data become available. Citation: Deziel NC, Beane Freeman LE, Graubard BI, Jones RR, Hoppin JA, Thomas K, Hines CJ, Blair A, Sandler DP, Chen H, Lubin JH, Andreotti G, Alavanja MC, Friesen MC. 2017. Relative contributions of agricultural drift, para-occupational, and residential use exposure pathways to house dust pesticide concentrations: meta-regression of published data. Environ Health Perspect 125:296–305; http://dx.doi.org/10.1289/EHP426

Published
2017

3. A Review of Nonoccupational Pathways for Pesticide Exposure in Women Living in Agricultural Areas

Author

Jane A. Hoppin, Cynthia J. Hines, Melissa C. Friesen, Nicole C. Deziel, Kent Thomas, and Laura E. Beane Freeman

Subjects
2. Zero hunger, business.industry, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Agriculture, Review, Environmental Exposure, Environmental exposure, Pesticide, 3. Good health, Geography, Environmental protection, Environmental health, North America, Humans, Environmental Pollutants, Female, Pesticides, business
Abstract

Background Women living in agricultural areas may experience high pesticide exposures compared with women in urban or suburban areas because of their proximity to farm activities. Objective Our objective was to review the evidence in the published literature for the contribution of nonoccupational pathways of pesticide exposure in women living in North American agricultural areas. Methods We evaluated the following nonoccupational exposure pathways: paraoccupational (i.e., take-home or bystander exposure), agricultural drift, residential pesticide use, and dietary ingestion. We also evaluated the role of hygiene factors (e.g., house cleaning, shoe removal). Results Among 35 publications identified (published 1995–2013), several reported significant or suggestive (p < 0.1) associations between paraoccupational (n = 19) and agricultural drift (n = 10) pathways and pesticide dust or biomarker levels, and 3 observed that residential use was associated with pesticide concentrations in dust. The 4 studies related to ingestion reported low detection rates of most pesticides in water; additional studies are needed to draw conclusions about the importance of this pathway. Hygiene factors were not consistently linked to exposure among the 18 relevant publications identified. Conclusions Evidence supported the importance of paraoccupational, drift, and residential use pathways. Disentangling exposure pathways was difficult because agricultural populations are concurrently exposed to pesticides via multiple pathways. Most evidence was based on measurements of pesticides in residential dust, which are applicable to any household member and are not specific to women. An improved understanding of nonoccupational pesticide exposure pathways in women living in agricultural areas is critical for studying health effects in women and for designing effective exposure-reduction strategies. Citation Deziel NC, Friesen MC, Hoppin JA, Hines CJ, Thomas K, Beane Freeman LE. 2015. A review of nonoccupational pathways for pesticide exposure in women living in agricultural areas. Environ Health Perspect 123:515–524; http://dx.doi.org/10.1289/ehp.1408273

Published
2015

4. An algorithm for quantitatively estimating non-occupational pesticide exposure intensity for spouses in the Agricultural Health Study

Author

Nicole C. Deziel, Honglei Chen, Michael C. R. Alavanja, Melissa C. Friesen, Rena R. Jones, Kent Thomas, Barry I. Graubard, Jane A. Hoppin, Dale P. Sandler, Jay H. Lubin, Catherine C. Lerro, Laura E. Beane Freeman, Aaron Blair, and Gabriella Andreotti

Subjects
Agriculture, business.industry, Environmental health, Non occupational, General Earth and Planetary Sciences, Environmental science, Pesticide, business, Intensity (heat transfer), General Environmental Science
Published
2016

6. EXPOSURE TO METALWORKING FLUIDS AND RISK OF BLADDER CANCER

Author

Jay H. Lubin, Mary H. Ward, Alison Johnson, Lee E. Moore, Park Donguk, Debra T. Silverman, Patricia Stewart, Molly Schwenn, Richard Waddell, Nathaniel Rothman, Margaret Karagas, Sai Cherala, Castine Verrill, Joanne S. Colt, Dalsu Baris, Laura E. Beane Freeman, and Melissa C. Friesen

Subjects
Oncology, medicine.medical_specialty, Metalworking fluid, Bladder cancer, business.industry, Internal medicine, medicine, Large population, General Earth and Planetary Sciences, business, medicine.disease, General Environmental Science
Abstract

Background and Aims: Many studies have observed an excess bladder cancer risk among metalworkers that is thought to be due to metalworking fluid (MWF) exposure. We used data from a large population...

Published
2011

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