Sage Journals: Discover world-class research

Abstract

Formaldehyde is a common air pollutant of the indoor environment. It has a potential effect on the respiratory function of people and so studies have been performed to assess this using exposure methods with high concentrations of formaldehyde. However, epidemiology studies have shown its impact on allergic diseases at lower domestic levels. The aim of this study was to develop an exposure chamber to study effects of low controlled concentrations of formaldehyde. Concentrations in the chamber were quantified by a simple DNHP-derivatisation method followed by liquid chromatography coupled to UV detection. Experiments to assess formaldehyde generation yield and reproducibility of formaldehyde levels in the chamber were performed in an empty chamber. The temporal decay of formaldehyde concentration in the exposure chamber was also investigated for more than 2h under different experimental conditions, for example in darkness or with somebody inside the chamber. Actual measured levels of formaldehyde were found to be 78-91% of the calculated value expected. The study of the temporal decay showed that subject’s breathing accounted for the fate of approximately 50% of the formaldehyde lost. Leaks, wall deposition, photolysis and adsorption on clothes were processes identified to explain the remaining 50%. However, this study has shown that both homogeneity and stability of formaldehyde concentration in the gas phase can be maintained acceptably to carry out future human exposure experiments.

Keywords

Formaldehyde Exposure chamber HPLC 2,4-Dinitrophenylhydrazine Hydrazone derivative

Get full access to this article

View all access options for this article.

References

Zhang J , He Q , Lioy PJ : Characteristics of aldehydes: concentrations, sources, and exposure for indoor and outdoor residential microenvironments . Environ Sci Technol 1994;28: 146-152 .

Baez A , Padillah H , Garcia R , Torres M , Rosas I , Belmont R : Carbonyl levels in indoor and outdoor air in Mexico City and Xalapa, Mexico . Sci Tot Environ 2003;302: 211-226 .

Kelly TJ , Smith DL , Satola J : Emission rates of formaldehyde from materials and consumer products found in California homes . Envir Sci Technol 1999;33: 81-88 .

Clarisse B , Laurent AM , Seta N , Le Moullec Y , El Hasnaoui A , Momas I : Indoor aldehydes: measurement of contamination levels and identification of their determinants in Paris dwellings . Environ Res 2003;92: 245-253 .

Wiglusz R , Sitko E , Nikel G , Jarnuszkiewicz I , Igielska B : The effect of temperature on the emission of formaldehyde and volatile organic compounds (VOCs) from laminate flooring - case study . Building Environ 2002;37: 41-44 .

Fantuzzi G , Aggazzotti G , Righi E , Cavazzuti LGP , Franceschelli A : Indoor air quality in the university libraries of Modena (Italy) . Sci Total Environ 1996;193: 49-56 .

Nordman H , Keskinen H , Tuppurainen M : Formaldehyde asthma - Rare or overlooked? . J Allergy Clin Immunol 1985;75: 91-99 .

Kim CW , Song JS , Ahn YS , Park SH , Park JW , Noh JH , Hong CS : Occupational asthma due to formaldehyde . Yonsei Med J 2001; 42: 440-445 .

Chan-Yeung M , Malo JL : Aetiological agents in occupational asthma . Eur Respir J 1994; 7: 346-371 .

10.

Cockroft DW , Hoeppner VH , Dolovitch J : Occupational asthma caused by cedar urea formaldehyde particle board . Chest 1982; 82: 49-53 .

11.

Hebdrick D , Rando R , Lane D , Morris J : Formaldehyde asthma: challenge exposure levels and fate after five years . J Occup Med 1982;24: 893-897 .

12.

Burge P , Harries M , Lam W , O’Brien I , Patchett P : Occupational asthma due to formaldehyde . Thorax 1985;40: 255-260 .

13.

Gannon PFG , Bright P , Campbell M , O’Hickey SP , Burge SP : Occupational asthma due to glutaraldehyde and formaldehyde in endoscopy and X ray departments . Thorax 1995;50: 156-159 .

14.

Balmat JL : Generation of constant formaldehyde levels for inhalation studies . Am Ind Hyg Assoc J 1985;46: 690-692 .

15.

Lemière C , Cloutier Y , Perrault G , Drolet D , Cartier A , Malo JL : Closed-circuit apparatus for specific inhalation challenges with an occupational agent, formaldehyde, in vapor form . Chest 1996;109: 1631-1635 .

16.

Frigas E , Filley WV , Reed C : Bronchial challenge with formaldehyde gas: lack of bronchoconstriction in 13 patients suspected of having formaldehyde-induced asthma . Mayo Clin Proc 1984;59: 295-299 .

17.

Witek TJ , Schachter EN , Tosun T , Beck GJ , Leaderer BP : An evaluation of respiratory effects following exposure to 2.0ppm formaldehyde in asthmatics: lung function, symptoms, and airway reactivity . Arch Environ Hlth 1987;42: 230-237 .

18.

Harving H , Korsgaard J , Pederson OF , Mølhave L , Dahl R : Pulmonary function and bronchial reactivity in asthmatics during low-level formaldehyde exposure . Lung 1990;168: 15-21 .

19.

Green DJ , Sauder LR , Kulle TJ , Bascom R : Acute response to 3ppm formaldehyde in exercising healthy nonsmokers and asthmatics . Am Rev Respir Dis 1987;135: 1261-1266 .

20.

Sheppard D , Eschenbacher WL , Epstein J : Lack of bronchomotor response to up to 3ppm formaldehyde in subjects with asthma . Environ Res 1984;35: 133-139 .

21.

Medinsky MA , Bond JA : Sites and mechanisms for uptake of gases and vapors in the respiratory tract . Toxicology 2001;160: 165-172 .

22.

WHO: IARC Press release No. 153. International Agency for Research on Cancer, Lyon, 15 June 2004. http://www.iarc.fr.

23.

Devalia J , Rusznak C , Herdman M , Trigg C , Tarraf H , Davies R : Effect of nitrogen dioxide and sulphur dioxide on airway response of mild asthmatic patients to allergen inhalation . Lancet 1994;344: 1668-1671 .

24.

Molfino NA , Wright SC , Katz I , Tarlo S , Silverman F , McClean PA , Szalai JP , Raizenne M , Slutsky AS , Zamel N : Effect of low concentrations of ozone on inhaled allergen responses in asthmatic subjects . Lancet 1991;338: 189-203 .

25.

Riedel F , Hasenauer E , Barth PJ , Koziorowski A , Rieger CH : Formaldehyde exposure enhances inhalative allergic sensitization in guinea pig . Allergy 1996;51: 94-99 .

26.

Garrett MH , Hooper MA , Hooper BM , Rayment PR , Abramson MJ : Increased risk of allergy in children due to formaldehyde exposure in homes . Allergy 1999;54: 330-337 .

27.

Franklin P , Dingle P , Stick S : Raised exhaled nitric oxide in healthy children is associated with domestic formaldehyde levels . Am J Respir Crit Care Med 2000;161: 1757-1759 .

28.

Liteplo RG , Beauchamp R , Meek ME , Chénier R : Concise International Chemical Assessment Document 40, Formaldehyde: World Health Organization, Geneva , 2002. www.who.int/pcs/cicad/full_text/cicad40.pdf.

29.

Klocke RA : Ventilation, pulmonary blood flow and gas exchange. in Fishman AP (ed.): Pulmonary Diseases and Disorders. McGraw-Hill, New York , 1988.

30.

Wenger J , Porter E , Collins E , Treacy J , Side-bottom H : Mechanisms for the chlorine atom initiated oxidation of dimethoxymethane and 1,2-dimethoxyethane in the presence of NOx . Chemosphere 1999;38: 1197-1204 .

31.

Volkamer R , Platt U , Wirtz K : Primary and secondary glyoxal formation from aromatics: experimental evidence for the bicycloalkyl-radical pathway from benzene, toluene, and pxylene . J Phys Chem A 2001;105: 7865-7874 .

32.

Klotz B , Sorensen S , Barnes I , Becker KH , Etzkorn T , Volkamer R , Platt U , Wirtz K , Martín M : Atmospheric oxidation of toluene in a large-volume outdoor photoreactor: in situ determination of ring-retaining product yields : J Phys Chem A 1998;102: 10289-10299 .

33.

Zhou X , Mopper K : Apparent partition coefficients of 15 carbonyl compounds between air and seawater and between air and freshwater: implications for air-sea exchange . Environ Sci Technol 1990;24: 1864-1869 .

34.

Possanzini M , Di Palo V , Cecinato A : Sources and photodecomposition of formaldehyde and acetaldehyde in Rome ambient air . Atmos Environ 2002;36: 3195-3201 .

35.

Grosjean D , Miguel AH , Tavares TM : Urban air pollution in Brazil: acetaldehyde and other carbonyls . Atmos Environ 1990;24B: 101-106 .

36.

Slemr J , Junkermann W , Volz-Thomas A : Temporal variations in formaldehyde, acetaldehyde and acetone and budget of formaldehyde at a rural site in southern Germany . Atmos Environ 1996;30: 3667-3676 .

37.

Levart A , Veber M : Determination of aldehydes and ketones in air samples using cryotrapping sampling . Chemosphere 2001;44: 701-708 .

38.

Kirchner S, Pasquier N, Gauvin S, Golliot F, Pietrowski D, Cochet C: Rapport exécutif de la phase préparatoire aux premiers résultats de l'étude pilote: Observatoire de la qualité de l'air intérieur, Champs sur Marne, 2002.

39.

DeMore WB , Sander SP , Golden DM , Hampson RF , Kurylo MJ , Howard CJ , Ravishankara AR , Kolb CE , Molina MJ : Chemical kinetics and photochemical data for use in stratospheric modelling. In: JPL Publication 97-4. Jet Propulsion Laboratory, National Aeronautics and Space Administration Jet Propulsion Laboratory California Institute of Technology; National Technical Information service distributor, Passadena , 1997.

40.

Heck H , Casanova M , Starr TB : Formaldehyde toxicity: new understanding . Crit Rev Toxicol 1990;20: 397-426 .

Human Exposure Chamber for Known Formaldehyde Levels: Generation and Validation

Abstract

Keywords

Get full access to this article

References