| |
1. |
Adgate, J.L., Church, T.R., Ryan, A.D., Ramachandran, G., Fredrickson, A.L., Stock, T.H., Morandi, M.T., Sexton, K. (2004) Outdoor, indoor, and personal exposure to VOCs in children. Environmental Health Perspectives 112(14), 1386
|
2. |
ATSDR. (2015) Agency of Toxic Substances & Disease Registry: Toxicological Profile for Toluene |
3. |
Axelrad, D.A.K., Chowdhury, F., D’Amico, L., Douglass, E., Hudson, G. (2013) America’s Children and the Environment. 3rd Edition. In: Agency UEP. (ed.), Washington, DC |
4. |
Bartzis, J.G., Michael, C., Michaelidou, S., Missia, D.A., Saraga, D.E., Tolis, E.I., Psoma, S., Petaloti, C., Kotzias, D., Barero-Moreno, J.M. (2008) Concentrations of VOCs and ozone in indoor environments: A case study in two Mediterranean cities during winter period. Fresenius Environmental Bulletin 17(9B), 1480-1484 |
5. |
Batterman, S., Jia, C., Hatzivasilis, G. (2007) Migration of volatile organic compounds from attached garages to residences: a major exposure source. Environmental Research 104(2), 224-240
|
6. |
Borgie, M., Garat, A., Cazier, F., Delbende, A., Allorge, D., Ledoux, F., Courcot, D., Shirali, P., Dagher, Z. (2014) Traffic-related air pollution. A pilot exposure assessment in Beirut, Lebanon. Chemosphere 96, 122-128
|
7. |
Brown, S. (2002) Volatile organic pollutants in new and established buildings in Melbourne, Australia. Indoor Air 12(1), 55-63
|
8. |
Bureau, U.S.C. (2011) Child Care an Important Part of American Life |
9. |
Demirel, G., Özden, Ö., Döğeroğlu, T., Gaga, E.O. (2014) Personal exposure of primary school children to BTEX, NO2 and ozone in Eskişehir, Turkey: relationship with indoor/outdoor concentrations and risk assessment. Science of the Total Environment 473, 537-548
|
10. |
Dodson, R.E., Levy, J.I., Spengler, J.D., Shine, J.P., Bennett, D.H. (2008) Influence of basements, garages, and common hallways on indoor residential volatile organic compound concentrations. Atmospheric Environment 42(7), 1569-1581
|
11. |
Duarte-Davidson, R., Courage, C., Rushton, L., Levy, L. (2001) Benzene in the environment: an assessment of the potential risks to the health of the population. Occupational and Environmental Medicine 58(1), 2-13
|
12. |
Eden, T. (2010) Aetiology of childhood leukaemia. Cancer Treatment Reviews 36(4), 286-297
|
13. |
Geiss, O., Giannopoulos, G., Tirendi, S., Barrero-Moreno, J., Larsen, B.R., Kotzias, D. (2011) The AIRMEX study-VOC measurements in public buildings and schools/kindergartens in eleven European cities: Statistical analysis of the data. Atmospheric Environment 45(22), 3676-3684
|
14. |
Godwin, C., Batterman, S. (2007) Indoor air quality in Michigan schools. Indoor Air 17(2), 109-121
|
15. |
Goodman, N.B., Steinemann, A., Wheeler, A.J., Paevere, P.J., Cheng, M., Brown, S.K. (2017) Volatile organic compounds within indoor environments in Australia. Building and Environment 122, 116-125
|
16. |
Guo, H., Lee, S., Li, W., Cao, J. (2003) Source characterization of BTEX in indoor microenvironments in Hong Kong. Atmospheric Environment 37(1), 73-82
|
17. |
Jang, S.-K., Chun, J.-Y., Kim, S.-Y., Park, S.-Y., Ryu, J.-M., Lim, J.-Y., Lee, W.-S. (2007) Seasonal variations of volatile organic compounds (VOCs) in indoor air of daycare centers. Analytical Science and Technology 20(6), 474-482 |
18. |
Jia, C., Batterman, S., Godwin, C. (2008) VOCs in industrial, urban and suburban neighborhoods, Part 1: Indoor and outdoor concentrations, variation, and risk drivers. Atmospheric Environment 42(9), 2083-2100
|
19. |
Johnson, E.S., Langård, S., Lin, Y.-S. (2007) A critique of benzene exposure in the general population. Science of the Total Environment 374(2-3), 183-198
|
20. |
Kalimeri, K.K., Saraga, D.E., Lazaridis, V.D., Legkas, N.A., Missia, D.A., Tolis, E.I., Bartzis, J.G. (2016) Indoor air quality investigation of the school environment and estimated health risks: Two-season measurements in primary schools in Kozani, Greece. Atmospheric Pollution Research 7(6), 1128-1142
|
21. |
Kanjanasiranont, N., Prueksasit, T., Morknoy, D. (2017) Inhalation exposure and health risk levels to BTEX and carbonyl compounds of traffic policeman working in the inner city of Bangkok, Thailand. Atmospheric Environment 152, 111-120
|
22. |
Kim, Y.M., Harrad, S., Harrison, R.M. (2001) Concentrations and sources of VOCs in urban domestic and public microenvironments. Environmental Science & Technology 35(6), 997-1004
|
23. |
Madureira, J., Paciência, I., Rufo, J., Ramos, E., Barros, H., Teixeira, J.P., de Oliveira Fernandes, E. (2015) Indoor air quality in schools and its relationship with children’s respiratory symptoms. Atmospheric Environment 118, 145-156
|
24. |
Madureira, J., Paciência, I., Stranger, M., Ventura, G., Oliveira de Fernandes, E. (2012) Field study on schoolchildren’s exposure to indoor air in Porto, Portugal-Preliminary results. Proceedings of Healthy Buildings 2012, 1500-1508 |
25. |
Mainka, A., Bragoszewska, E., Kozielska, B., Pastuszka, J.S., Zajusz-Zubek, E. (2015) Indoor air quality in urban nursery schools in Gliwice, Poland: Analysis of the case study. Atmospheric Pollution Research 6(6), 1098-1104
|
26. |
Noguchi, M., Mizukoshi, A., Yanagisawa, Y., Yamasaki, A. (2016) Measurements of Volatile Organic Compounds in a Newly Built Daycare Center. International Journal of Environmental Research and Public Health 13(7), 736
|
27. |
Norbäck, D., Hashim, J.H., Hashim, Z., Ali, F. (2017) Volatile organic compounds (VOC), formaldehyde and nitrogen dioxide (NO2) in schools in Johor Bahru, Malaysia: Associations with rhinitis, ocular, throat and dermal symptoms, headache and fatigue. Science of the Total Environment 592, 153-160
|
28. |
OSHA (1998) Occupational Safety and Health Administration: Occupational Safety and Health Standards, Toxic and Hazardous Substances. Code of Federal Regulations 29 CFR 1910.1000 |
29. |
Pegas, P., Nunes, T., Alves, C., Silva, J., Vieira, S., Caseiro, A., Pio, C. (2012) Indoor and outdoor characterisation of organic and inorganic compounds in city centre and suburban elementary schools of Aveiro, Portugal. Atmospheric Environment 55, 80-89
|
30. |
Pekey, H., Arslanbaş, D. (2008) The relationship between indoor, outdoor and personal VOC concentrations in homes, offices and schools in the metropolitan region of Kocaeli, Turkey. Water, Air, and Soil Pollution 191(1-4), 113-129
|
31. |
Quirós-Alcalá, L., Wilson, S., Witherspoon, N., Murray, R., Perodin, J., Trousdale, K., Raspanti, G., Sapkota, A. (2016) Volatile organic compounds and particulate matter in child care facilities in the District of Columbia: Results from a pilot study. Environmental Research 146, 116-124
|
32. |
Roda, C., Barral, S., Ravelomanantsoa, H., Dusséaux, M., Tribout, M., Le Moullec, Y., Momas, I. (2011) Assessment of Indoor Environment in Paris Child Day Care Centers. Environmental Research 111(8), 1010-1017
|
33. |
Rumchev, K., Spickett, J., Bulsara, M., Phillips, M., Stick, S. (2004) Association of domestic exposure to volatile organic compounds with asthma in young children. Thorax 59(9), 746-751
|
34. |
Sax, S.N., Bennett, D.H., Chillrud, S.N., Kinney, P.L., Spengler, J.D. (2004) Differences in source emission rates of volatile organic compounds in inner-city residences of New York City and Los Angeles. Journal of Exposure Science and Environmental Epidemiology 14(S1), S95
|
35. |
Sofuoglu, S.C., Aslan, G., Inal, F., Sofuoglu, A. (2011) An assessment of indoor air concentrations and health risks of volatile organic compounds in three primary schools. International Journal of Hygiene and Environmental Health 214(1), 36-46
|
36. |
Sousa, S.I., Ferraz, C., Alvim-Ferraz, M.C., Vaz, L.G., Marques, A.J., Martins, F.G. (2012) Indoor air pollution on nurseries and primary schools: impact on childhood asthma-study protocol. BMC Public Health 12(1), 435
|
37. |
St-Jean, M., St-Amand, A., Gilbert, N.L., Soto, J.C., Guay, M., Davis, K., Gyorkos, T.W. (2012) Indoor Air Quality in Montreal Area Day-Care Centres, Canada. Environmental Research 118, 1-7
|
38. |
USEPA. (2009) Intergrated Risk Information System (IRIS); U.S. Environmental Protection Agency, National Center for Environmental Assessment, Office of Research and Development, Washington, DC |
39. |
USEPA. (2011) Exposure Factors Handbook 2011 Edition (Final). U.S. Environmental Protection Agency, Washington, DC |
40. |
USEPA. (2016) An Overview of the Indoor Air Quality Problem: The Californian Approach. (Clean Air 21), 134-142 |
41. |
Villanueva, F., Tapia, A., Lara, S., Amo-Salas, M. (2018) Indoor and outdoor air concentrations of volatile organic compounds and NO2 in schools of urban, industrial and rural areas in Central-Southern Spain. Science of the Total EnviAsian ronment 622, 222-235
|
42. |
Wallace, L. (1996) Environmental exposure to benzene: an update. Environmental Health Perspectives 104(Suppl 6), 1129
|
43. |
Wallace, L.A. (1989) Major sources of benzene exposure. Environmental Health Perspectives, 82, 165
|
44. |
WHO. (2000) World Health Organization; Air Quality Guidelines for Europe |
45. |
WHO. (2010) World Health Organization; Guidelines for Indoor Air Quality: Selected Pollutants |
46. |
Yoon, C., Lee, K., Park, D. (2011) Indoor air quality differences between urban and rural preschools in Korea. Environmental Science and Pollution Research 18(3), 333-345
|
47. |
Zhang, H., Yili, Z., Hua, Q., Zheng, X., Sundell, J. (2013) Associations between Children’s Rhinitis and Indoor Air Pollutants in Kindergartens in Nanjing |
48. |
Zuraimi, M., Tham, K., Sekhar, S. (2003) The effects of ventilation operations in determining contributions of VOCs sources in air-conditioned tropical buildings. Building and Environment 38(1), 23-32
|
49. |
Zuraimi, M.S., Tham, K.W. (2008) Effects of child care center ventilation strategies on volatile organic compounds of indoor and outdoor origins. Environmental Science & Technology 42(6), 2054-2059
|