Literature DB >> 29185731

Silicone Wristband Passive Samplers Yield Highly Individualized Pesticide Residue Exposure Profiles.

Raf Aerts1,2, Laure Joly1,2, Philippe Szternfeld1,2, Khariklia Tsilikas1,2, Koen De Cremer1,2, Philippe Castelain1,2, Jean-Marie Aerts1,2, Jos Van Orshoven1,2, Ben Somers1,2, Marijke Hendrickx1,2, Mirjana Andjelkovic1,2, An Van Nieuwenhuyse1,2.   

Abstract

Monitoring human exposure to pesticides and pesticide residues (PRs) remains crucial for informing public health policies, despite strict regulation of plant protection product and biocide use. We used 72 low-cost silicone wristbands as noninvasive passive samplers to assess cumulative 5-day exposure of 30 individuals to polar PRs. Ethyl acetate extraction and LC-MS/MS analysis were used for the identification of PRs. Thirty-one PRs were detected of which 15 PRs (48%) were detected only in worn wristbands, not in environmental controls. The PRs included 16 fungicides (52%), 8 insecticides (26%), 2 herbicides (6%), 3 pesticide derivatives (10%), 1 insect repellent (3%), and 1 pesticide synergist (3%). Five detected pesticides were not approved for plant protection use in the EU. Smoking and dietary habits that favor vegetable consumption were associated with higher numbers and higher cumulative concentrations of PRs in wristbands. Wristbands featured unique PR combinations. Our results suggest both environment and diet contributed to PR exposure in our study group. Silicone wristbands could serve as sensitive passive samplers to screen population-wide cumulative dietary and environmental exposure to authorized, unauthorized and banned pesticides.

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Year:  2017        PMID: 29185731     DOI: 10.1021/acs.est.7b05039

Source DB:  PubMed          Journal:  Environ Sci Technol        ISSN: 0013-936X            Impact factor:   9.028


  16 in total

1.  Evaluating the Use of Silicone Wristbands To Measure Personal Exposure to Brominated Flame Retardants.

Authors:  Stephanie C Hammel; Allison L Phillips; Kate Hoffman; Heather M Stapleton
Journal:  Environ Sci Technol       Date:  2018-10-02       Impact factor: 9.028

2.  Silicone wristbands integrate dermal and inhalation exposures to semi-volatile organic compounds (SVOCs).

Authors:  Shaorui Wang; Kevin A Romanak; William A Stubbings; Victoria H Arrandale; Michael Hendryx; Miriam L Diamond; Amina Salamova; Marta Venier
Journal:  Environ Int       Date:  2019-08-26       Impact factor: 9.621

3.  Silicone Pet Tags Associate Tris(1,3-dichloro-2-isopropyl) Phosphate Exposures with Feline Hyperthyroidism.

Authors:  Carolyn M Poutasse; Julie B Herbstman; Mark E Peterson; Jana Gordon; Peter H Soboroff; Darrell Holmes; Dezere Gonzalez; Lane G Tidwell; Kim A Anderson
Journal:  Environ Sci Technol       Date:  2019-07-10       Impact factor: 9.028

4.  Analysis of brominated and chlorinated flame retardants, organophosphate esters, and polycyclic aromatic hydrocarbons in silicone wristbands used as personal passive samplers.

Authors:  Kevin A Romanak; Shaorui Wang; William A Stubbings; Michael Hendryx; Marta Venier; Amina Salamova
Journal:  J Chromatogr A       Date:  2018-12-21       Impact factor: 4.759

5.  Thyroid Receptor Antagonism of Chemicals Extracted from Personal Silicone Wristbands within a Papillary Thyroid Cancer Pilot Study.

Authors:  Christopher D Kassotis; Nicholas J Herkert; Stephanie C Hammel; Kate Hoffman; Qianyi Xia; Seth W Kullman; Julie Ann Sosa; Heather M Stapleton
Journal:  Environ Sci Technol       Date:  2020-11-13       Impact factor: 9.028

6.  Comparing the Use of Silicone Wristbands, Hand Wipes, And Dust to Evaluate Children's Exposure to Flame Retardants and Plasticizers.

Authors:  Stephanie C Hammel; Kate Hoffman; Allison L Phillips; Jessica L Levasseur; Amelia M Lorenzo; Thomas F Webster; Heather M Stapleton
Journal:  Environ Sci Technol       Date:  2020-03-11       Impact factor: 9.028

7.  Evaluating predictive relationships between wristbands and urine for assessment of personal PAH exposure.

Authors:  Holly M Dixon; Lisa M Bramer; Richard P Scott; Lehyla Calero; Darrell Holmes; Elizabeth A Gibson; Haleigh M Cavalier; Diana Rohlman; Rachel L Miller; Antonia M Calafat; Laurel Kincl; Katrina M Waters; Julie B Herbstman; Kim A Anderson
Journal:  Environ Int       Date:  2022-04-04       Impact factor: 13.352

8.  Discovery of common chemical exposures across three continents using silicone wristbands.

Authors:  Holly M Dixon; Georgina Armstrong; Michael Barton; Alan J Bergmann; Melissa Bondy; Mary L Halbleib; Winifred Hamilton; Erin Haynes; Julie Herbstman; Peter Hoffman; Paul Jepson; Molly L Kile; Laurel Kincl; Paul J Laurienti; Paula North; L Blair Paulik; Joe Petrosino; Gary L Points; Carolyn M Poutasse; Diana Rohlman; Richard P Scott; Brian Smith; Lane G Tidwell; Cheryl Walker; Katrina M Waters; Kim A Anderson
Journal:  R Soc Open Sci       Date:  2019-02-06       Impact factor: 2.963

9.  Longer commutes are associated with increased human exposure to tris(1,3-dichloro-2-propyl) phosphate.

Authors:  Aalekhya Reddam; George Tait; Nicholas Herkert; Stephanie C Hammel; Heather M Stapleton; David C Volz
Journal:  Environ Int       Date:  2020-01-28       Impact factor: 9.621

Review 10.  A systematic review of the use of silicone wristbands for environmental exposure assessment, with a focus on polycyclic aromatic hydrocarbons (PAHs).

Authors:  Laila Hamzai; Nicolas Lopez Galvez; Eunha Hoh; Nathan G Dodder; Georg E Matt; Penelope J Quintana
Journal:  J Expo Sci Environ Epidemiol       Date:  2021-07-23       Impact factor: 5.563
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