Expositions et risques sanitaires liés aux composés organiques semi-volatils dans l’habitat. Synthèse du programme de recherche ECOS-Habitat
Volume 18, numéro 5, Septembre-Octobre 2019
[1]Weschler C.J., Nazaroff W.W. SVOC partitioning between the gas phase and settled dust indoors. Atmos Environ. 2010;44:3609-3620. 30
[2]Weschler C.J., Beko G., Koch H.M. Transdermal uptake of diethyl phthalate and di(n-butyl) phthalate directly from air: experimental verification. Environ Health Perspect. 2015;123:928-934. 10
[3]Rudel R.A., Perovich L.J. Endocrine disrupting chemicals in indoor and outdoor air. Atmos Environ. 2009;43:170-181. 1
[4]Silva M.J., Barr D.B., Reidy J.A. Urinary levels of seven phthalate metabolites in the U.S. population from the National Health and Nutrition Examination Survey (NHANES) 1999-2000. Environ Health Perspect. 2004;112:331-338. 3
[5]Kirchner S., Arenes J., Cochet C. État de la qualité de l’air dans les logements français. Environ Risque Sante. 2007;6:259-269. 4
[6]Lucas J.P., Le Bot B., Glorennec P. Lead contamination in French children's homes and environment. Environ Res. 2012;116:58-65.
[7]Bonvallot N., Mandin C., Mercier F., Le Bot B., Glorennec P. Health ranking of ingested semi-volatile organic compounds in house dust: an application to France. Indoor Air. 2010;20:458-472.
[8]Mercier F., Gilles E., Saramito G., Glorennec P., Le Bot B. A multi-residue method for the simultaneous analysis in indoor dust of several classes of semi-volatile organic compounds by pressurized liquid extraction and gas chromatography/tandem mass spectrometry. J Chromatogr A. 2014;1336:101-111.
[9]Mercier F., Glorennec P., Blanchard O., Le Bot B. Analysis of semi-volatile organic compounds in indoor suspended particulate matter by thermal desorption coupled with gas chromatography/mass spectrometry. J Chromatogr A. 2012;1254:107-114.
[10]Blanchard O., Mercier F., Ramalho O., Mandin C., Le Bot B., Glorennec P. Measurements of semi-volatile organic compounds in settled dust: influence of storage temperature and duration. Indoor Air. 2014;24:125-135. 2
[11]Mandin C., Mercier F., Ramalho O. Semi-volatile organic compounds in the particulate phase in dwellings: a nationwide survey in France. Atmos Environ. 2016;136:82-94.
[12]Mandin C., Mercier F., Lucas J.P. ECOS-POUSS: a nationwide survey of semi-volatile organic compounds in home settled dust. Indoor air conference. 2014. Hong-Kong
[13]Blanchard O., Glorennec P., Mercier F. Semivolatile organic compounds in indoor air and settled dust in 30 French dwellings. Environ Sci Technol. 2014;48:3959-3969. 7
[14]Wei W., Mandin C., Blanchard O. Distributions of the particle/gas and dust/gas partition coefficients for seventy-two semi-volatile organic compounds in indoor environment. Chemosphere. 2016;153:212-219.
[15]Wei W., Mandin C., Blanchard O. Predicting the gas-phase concentration of semi-volatile organic compounds from airborne particles: application to a French nationwide survey. Sci Total Environ. 2017;576:319-325.
[16]Wei W., Mandin C., Blanchard O. Temperature dependence of the particle/gas partition coefficient: an application to predict indoor gas-phase concentrations of semi-volatile organic compounds. Sci Total Environ. 2016;563:506-512.
[17]Pelletier M., Bonvallot N., Ramalho O. Indoor residential exposure to semivolatile organic compounds in France. Environ Int. 2017;109:81-88.
[18]Fournier K., Glorennec P., Bonvallot N. An exposure-based framework for grouping pollutants for a cumulative risk assessment approach: case study of indoor semi-volatile organic compounds. Environ Res. 2014;130:20-28.
[19]Fournier K., Tebby C., Zeman F., Glorennec P., Zmirou-Navier D., Bonvallot N. Multiple exposures to indoor contaminants: derivation of benchmark doses and relative potency factors based on male reprotoxic effects. Regul Toxicol Pharmacol. 2016;74:23-30.
[20]Fournier K., Baumont E., Glorennec P., Bonvallot N. Relative toxicity for indoor semi volatile organic compounds based on neuronal death. Toxicol Lett. 2017;279:33-42.
[21]Pelletier M., Glorennec P., Mandin C. Chemical-by-chemical and cumulative risk assessment of residential indoor exposure to semivolatile organic compounds in France. Environ Int. 2018;117:22-32.
[22]Mercier F., Glorennec P., Thomas O., Le Bot B. Organic contamination of settled house dust, a review for exposure assessment purposes. Environ Sci Technol. 2011;45:6716-6727. 16
[23]Pelletier M., Bonvallot N., Glorennec P. Aggregating exposures & cumulating risk for semivolatile organic compounds: a review. Environ Res. 2017;158:649-659.
[24]Fournier K., Glorennec P., Bonvallot N. Construction de valeurs toxicologiques de référence adaptées à la prise en compte des mélanges en évaluation des risques sanitaires : méthodes existantes et applications récentes. Environ Risque Sante. 2014;13:203-221. 3
[25]Pelletier M., Bonvallot N., Ramalho O. Dermal absorption of semivolatile organic compounds from the gas phase: sensitivity of exposure assessment by steady state modeling to key parameters. Environ Int. 2017;102:106-113.
[26]Bonvallot N., Mandin C., Mercier F., Le Bot B., Glorennec P. Cumulative indoor exposures to semi-volatile organic compounds (SVOCs) in France: a health risk ranking based on dust ingestion route. Indoor air conference. 2011. Austin, TX, USA
[27]Ramalho O., Mercier F., Blanchard O. Multiple occurrence of particle-bound semi-volatile organic compounds in dwellings. Indoor air conference. 2016. Ghent, Belgium
[28]Glorennec P., Lucas J.P., Etchevers A. Exposition au plomb des enfants dans leur logement. Projet Plomb-Habitat (2008-2014) : principaux résultats, retombées et perspectives. Environ Risque Sante. 2015;14:28-37. 1
[29]Etchevers A., Bretin P., Lecoffre C. Blood lead levels and risk factors in young children in France, 2008-2009. Int J Hyg Environ Health. 2014;217:528-537. 4-5
[30]Wei W., Mandin C., Blanchard O. Semi-volatile organic compounds in French dwellings: an estimation of concentrations in the gas phase and particulate phase from settled dust. Sci Total Environ. 2019;650:2742-2750.
[31]Mitro S.D., Dodson R.E., Singla V. Consumer product chemicals in indoor dust: a quantitative meta-analysis of U.S. studies. Environ Sci Technol. 2016;50:10661-10672. 19
[32]Anses. Étude de l’alimentation totale infantile. Maisons-Alfort, France: Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail (Anses); 2016.
[33]Meek M.E., Boobis A.R., Crofton K.M., Heinemeyer G., Raaij M.V., Vickers C. Risk assessment of combined exposure to multiple chemicals: a WHO/IPCS framework. Regul Toxicol Pharmacol. 2011;60:S1-S14. 2 suppl 1