Julianne Nassif1, Antonia M Calafat2, Kenneth M Aldous3. 1. Association of Public Health Laboratories, Silver Spring, MD, USA. Electronic address: julianne.nassif@aphl.org. 2. Division of Laboratory Sciences, National Center for Environmental Health, US Centers for Disease Control and Prevention, Atlanta, GA, USA; National Biomonitoring Network Steering Committee, USA. 3. Department of Environmental Health Sciences, Wadsworth Center, New York State Department of Health, Albany, NY, USA; National Biomonitoring Network Steering Committee, USA.
Abstract
BACKGROUND: With the increased use of biomonitoring in public health, biomonitoring networks are forming worldwide. The National Biomonitoring Network (NBN), created in 2018, is an interconnected system of U.S. government laboratories in collaboration with public health partners, to advance human biomonitoring science and practice. The NBN aims to harmonize biomonitoring data for use in routine public health practice. METHODS: The NBN has taken a systems approach to provide high-quality biomonitoring data by establishing quality standards, mentoring nascent programs, and enhancing analytical capability and capacity through technical assistance. Guided by a multi-disciplinary Network Steering Committee (NSC), the NBN has developed an organizational framework, membership criteria, and guidance practices related to study design, quality management and analytical measurements. To facilitate the production of these resources, the NSC established interdisciplinary workgroups of subject matter experts. RESULTS: To date, 20 state public health laboratories have joined the NBN. Differences in land-use practices, state and local laws and availability of resources resulted in considerable variability in the design and approach of NBN member biomonitoring programs. By contributing technical guidance, technical training, examples and templates for analytical and epidemiological practices and opportunities for collaboration and interaction, the NBN addressed some of these challenges. Important challenges remaining are to define minimum data variables for laboratory measurements, demographic and exposure information, and to identify an appropriate national repository for biomonitoring data. CONCLUSION: The current NBN membership has greatly benefited from the resources, collaboration and engagement with other state and federal scientists. The NBN hopes to expand membership and increase interaction with biomonitoring networks internationally. While the objectives of biomonitoring networks around the world may differ, understanding their structures, advantages and limitations inform the NBN and provide opportunity for cross-network collaboration.
BACKGROUND: With the increased use of biomonitoring in public health, biomonitoring networks are forming worldwide. The National Biomonitoring Network (NBN), created in 2018, is an interconnected system of U.S. government laboratories in collaboration with public health partners, to advance human biomonitoring science and practice. The NBN aims to harmonize biomonitoring data for use in routine public health practice. METHODS: The NBN has taken a systems approach to provide high-quality biomonitoring data by establishing quality standards, mentoring nascent programs, and enhancing analytical capability and capacity through technical assistance. Guided by a multi-disciplinary Network Steering Committee (NSC), the NBN has developed an organizational framework, membership criteria, and guidance practices related to study design, quality management and analytical measurements. To facilitate the production of these resources, the NSC established interdisciplinary workgroups of subject matter experts. RESULTS: To date, 20 state public health laboratories have joined the NBN. Differences in land-use practices, state and local laws and availability of resources resulted in considerable variability in the design and approach of NBN member biomonitoring programs. By contributing technical guidance, technical training, examples and templates for analytical and epidemiological practices and opportunities for collaboration and interaction, the NBN addressed some of these challenges. Important challenges remaining are to define minimum data variables for laboratory measurements, demographic and exposure information, and to identify an appropriate national repository for biomonitoring data. CONCLUSION: The current NBN membership has greatly benefited from the resources, collaboration and engagement with other state and federal scientists. The NBN hopes to expand membership and increase interaction with biomonitoring networks internationally. While the objectives of biomonitoring networks around the world may differ, understanding their structures, advantages and limitations inform the NBN and provide opportunity for cross-network collaboration.
Keywords:
Chemical exposure; Data harmonization; Health surveillance; Human biomonitoring; Laboratory networks; Public health practice; Risk assessment
Authors: Kelsey E Barton; Anne P Starling; Christopher P Higgins; Carrie A McDonough; Antonia M Calafat; John L Adgate Journal: Int J Hyg Environ Health Date: 2019-08-20 Impact factor: 5.840
Authors: Douglas A Haines; Gurusankar Saravanabhavan; Kate Werry; Cheryl Khoury Journal: Int J Hyg Environ Health Date: 2016-08-24 Impact factor: 5.840
Authors: Elizabeth R Daly; Benjamin P Chan; Elizabeth A Talbot; Julianne Nassif; Christine Bean; Steffany J Cavallo; Erin Metcalf; Karen Simone; Alan D Woolf Journal: Int J Hyg Environ Health Date: 2018-02-20 Impact factor: 5.840
Authors: David Mills; Sherrie Staley; Steven Aisu; Twila Kunde; Paul Kimsey; Kim Lewis Journal: Public Health Rep Date: 2019 Nov/Dec Impact factor: 2.792
Authors: Elly Den Hond; Eva Govarts; Hanny Willems; Roel Smolders; Ludwine Casteleyn; Marike Kolossa-Gehring; Gerda Schwedler; Margarete Seiwert; Ulrike Fiddicke; Argelia Castaño; Marta Esteban; Jürgen Angerer; Holger M Koch; Birgit K Schindler; Ovnair Sepai; Karen Exley; Louis Bloemen; Milena Horvat; Lisbeth E Knudsen; Anke Joas; Reinhard Joas; Pierre Biot; Dominique Aerts; Gudrun Koppen; Andromachi Katsonouri; Adamos Hadjipanayis; Andrea Krskova; Marek Maly; Thit A Mørck; Peter Rudnai; Szilvia Kozepesy; Maurice Mulcahy; Rory Mannion; Arno C Gutleb; Marc E Fischer; Danuta Ligocka; Marek Jakubowski; M Fátima Reis; Sónia Namorado; Anca Elena Gurzau; Ioana-Rodica Lupsa; Katarina Halzlova; Michal Jajcaj; Darja Mazej; Janja Snoj Tratnik; Ana López; Estrella Lopez; Marika Berglund; Kristin Larsson; Andrea Lehmann; Pierre Crettaz; Greet Schoeters Journal: Environ Health Perspect Date: 2014-12-11 Impact factor: 9.031