The University of Washington Department of Environmental and Occupational Health Sciences, with the collaboration of faculty from the Departments of Biostatistics and Epidemiology, proposes to train biostatisticians and life scientists to develop and apply quantitative methods to the environmental health sciences in this continuation of BEBTEH: the Biostatistics, Epidemiologic and Bioinformatic Training in Environmental Health training grant. Our long-term goal is to develop pre- and postdoctoral trainees into successful independent scientists who will advance environmental health science and improve health for future generations. BEBTEH has two pathways: one population-based and one laboratory-based. The population-based pathway emphasizes statistical methods in environmental epidemiology to elucidate the etiologies of environmentally-related diseases. The laboratory-based pathway focuses on the interpretation of modern genomic, microbiome, and other biologic data and how they may be exploited to unravel the biological bases of diseases. Both pathways foster a multidisciplinary, collaborative, and interdisciplinary training environment that (1) includes quantitative and applied training objectives, (2) assigns a quantitative and a scientific mentor to each trainee, (3) involves each trainee in a project that leads to expertise in multiple disciplines necessary to advance environmental health science research, (4) recruits trainees with differing backgrounds to enhance cross-training, and (5) targets training activities to enhance training goals. We propose to continue and improve upon BEBTEH?s training of 8 pre-doctoral and 4 post-doctoral trainees, funded since 2009, by fine-tuning its alignment with the 2018 NIEHS Strategic Plan. BEBTEH is directed by Dr. Elizabeth A. (Lianne) Sheppard and is overseen by an Advisory Committee of four additional program mentors representing all aspects of the program. BEBTEH has close ties with multiple NIEHS- and sister agency-funded research centers and projects, thus providing trainees with access to a first class research environment. As is apparent in its first nine years of funding, BEBTEH?s training track record is strong with many trainees in faculty positions and continuing to conduct environmental health sciences research. The program contributes to NIEHS?s vision through its focus on quantitative training for the next generation of environmental health science leaders.
The adverse impact of environmental exposures on health is a deep public health concern that can be mitigated through training of the next generation of leaders in quantitative and environmental health sciences. BEBTEH offers a unique blend of interdisciplinary quantitative and environmental health science training opportunities in first class research environment. The proposed training program will help realize NIEHS? vision ?to provide global leadership for innovative research that improves public health by preventing diseases and disability.?
Trasande, Leonardo; Shaffer, Rachel M; Sathyanarayana, Sheela et al. (2018) Food Additives and Child Health. Pediatrics 142: |
Hooper, Laura G; Young, Michael T; Keller, Joshua P et al. (2018) Ambient Air Pollution and Chronic Bronchitis in a Cohort of U.S. Women. Environ Health Perspect 126:027005 |
Tarr, G A M; Shringi, S; Oltean, H N et al. (2018) Importance of case age in the purported association between phylogenetics and hemolytic uremic syndrome in Escherichia coli O157:H7 infections. Epidemiol Infect 146:1550-1555 |
Weldon, Brittany A; Griffith, William C; Workman, Tomomi et al. (2018) In vitro to in vivo benchmark dose comparisons to inform risk assessment of quantum dot nanomaterials. Wiley Interdiscip Rev Nanomed Nanobiotechnol 10:e1507 |
Trasande, Leonardo; Shaffer, Rachel M; Sathyanarayana, Sheela et al. (2018) Food Additives and Child Health. Pediatrics 142: |
Trinh, Pauline; Zaneveld, Jesse R; Safranek, Sarah et al. (2018) One Health Relationships Between Human, Animal, and Environmental Microbiomes: A Mini-Review. Front Public Health 6:235 |
Tarr, Gillian A M; Oltean, Hanna N; Phipps, Amanda I et al. (2018) Case definitions of hemolytic uremic syndrome following Escherichia coli O157:H7 infection vary in validity. Int J Med Microbiol 308:1121-1127 |
Suter, Megan K; Karr, Catherine J; John-Stewart, Grace C et al. (2018) Implications of Combined Exposure to Household Air Pollution and HIV on Neurocognition in Children. Int J Environ Res Public Health 15: |
Tarr, Gillian A M; Oltean, Hanna N; Phipps, Amanda I et al. (2018) Strength of the association between antibiotic use and hemolytic uremic syndrome following Escherichia coli O157:H7 infection varies with case definition. Int J Med Microbiol 308:921-926 |
Riley, Erin A; Carpenter, Emily E; Ramsay, Joemy et al. (2018) Evaluation of 1-Nitropyrene as a Surrogate Measure for Diesel Exhaust. Ann Work Expo Health 62:339-350 |
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