Effect of formaldehyde on asthmatic response to inhaled allergen challenge.BACKGROUND: Exposure to formaldehyde may lead to exacerbation of asthma. OBJECTIVES: Our aim in this study was to investigate whether exposure to a low level (500 [micro]g/[m.sup.3]) of formaldehyde enhances inhaled allergen allergen /al·ler·gen/ (al´er-jen) an antigenic substance capable of producing immediate hypersensitivity (allergy).allergen´ic pollen allergen responses. METHODS: Twelve subjects with intermittent asthma and allergy to pollen were exposed, at rest, in a double-blind crossover study to either formaldehyde or purified air for 60 min. The order of exposure to formaldehyde and air-only was randomized ran·dom·ize tr.v. ran·dom·ized, ran·dom·iz·ing, ran·dom·iz·es To make random in arrangement, especially in order to control the variables in an experiment. , and exposures were separated by 2 weeks. We also performed an allergen inhalation challenge after each exposure. Airway responsiveness to methacholine and lower airway low·er airway n. The portion of the respiratory tract that extends from the subglottis through the terminal bronchioles. inflammation (induced sputum induced sputum Infectious disease Sputum obtained by having the Pt inhale a saline–salt water mist, causing the Pt to cough deeply ) were assessed 8 hr after allergen challenge. RESULTS: The median dose of allergen producing a 15% decrease in forced expiratory volume forced expiratory volume n. Abbr. FEV The maximum volume of air that can be expired from the lungs in a specific time interval when starting from maximum inspiration. in 1 sec (P[D.sub.15]FE[V.sub.1]) was 0.80 IR (index of reactivity) after formaldehyde exposure compared with 0.25 IR after air-only exposure (p = 0.06). Formaldehyde exposure did not affect allergen-induced increase in responsiveness to methacholine (p = 0.42). We found no formaldehyde-associated effect on the airway inflammatory response, in particular the eosinophilic eosinophilic /eo·sin·o·phil·ic/ (-fil´ik) 1. readily stainable with eosin. 2. pertaining to eosinophils. 3. pertaining to or characterized by eosinophilia. inflammatory response, induced by the allergen challenge 8 hr before. CONCLUSION: In this study, exposure to 500 [micro]g/[m.sup.3] formaldehyde had no significant deleterious effect on airway allergen responsiveness of patients with intermittent asthma; we found a trend toward a protective effect. KEY WORDS: allergen, asthma, formaldehyde, human exposure study. Environ Health Perspect 115: 210-214 (2007). doi:10.1289/ehp.9414 available via http://dx.doi.org/ [Online 7 November 2006] ********** Formaldehyde is a well-known airborne contaminant contaminant /con·tam·i·nant/ (kon-tam´in-int) something that causes contamination. contaminant something that causes contamination. causing eye, nose, and throat irritation as well as airway irritation and slight neuropsychologic changes (Hester and Harrison 1998; Samet et al. 1988). The major indoor sources of formaldehyde are off-gassing from urea-formaldehyde foam insulation, particle board particle board: see composition board. , paneling, plywood, some carpets and furniture, and, to a lesser extent, tobacco smoke and indoor combustion sources. Indoor concentrations of formaldehyde can vary between different countries (Sakai et al. 2004). In a Japanese study, formaldehyde concentrations ranged between 91.25 and 290 [micro]g/[m.sup.3] (Minami et al. 2002), whereas in the United Kingdom, the highest level measured in 876 homes was much lower (median = 24 [micro]g/[m.sup.3]) (Brown et al. 2002). Indoor formaldehyde concentrations measured in mobile homes in the United States ranged from nondetectable values to 575 [micro]g/[m.sup.3] (Liu et al. 1991). Indoor concentrations generally exceed those outdoors, and studies on formaldehyde levels in homes have demonstrated higher formaldehyde concentrations in newer compared with older dwellings, with higher levels in buildings built after 1970 (Gilbert et al. 2005). Formaldehyde is an etiologic factor in occupational asthma Occupational Asthma Definition Occupational asthma is a form of lung disease in which the breathing passages shrink, swell, or become inflamed or congested as a result of exposure to irritants in the workplace. . However, although formaldehyde may cause asthma in some individuals, this occurs relatively rarely (Nordman et al. 1985; Paustenbach et al. 1997). Whether nonoccupational exposure to formaldehyde is related to asthma is still subject to discussion (Delfino 2002; Institute of Medicine 2000). In murine murine /mu·rine/ (mur´en) pertaining to, derived from, or characteristic of mice or rats. mu·rine adj. models, formaldehyde exposure has been shown to enhance the allergic eosinophilic airway inflammation in sensitized sensitized /sen·si·tized/ (sen´si-tizd) rendered sensitive. sensitized rendered sensitive. sensitized cells see sensitization (2). mice (Sadakane et al. 2002). In a part of the European Community Respiratory Health Survey, asthma prevalence was greater for newly painted homes, consistent with greater differences in formaldehyde exposure (Wieslander et al. 1997). A relationship between physician-diagnosed asthma and indoor concentration of formaldehyde was reported even at low levels of exposure in children (Rumchev et al. 2002). Franklin et al. (2000) reported that exposure to formaldehyde in homes could produce a subclinical subclinical /sub·clin·i·cal/ (sub-klin´i-k'l) without clinical manifestations. sub·clin·i·cal adj. Not manifesting characteristic clinical symptoms. Used of a disease or condition. inflammatory response in the airways of healthy children. A possible association between exposure to formaldehyde and allergic sensitization sensitization /sen·si·ti·za·tion/ (sen?si-ti-za´shun) 1. administration of an antigen to induce a primary immune response. 2. exposure to allergen that results in the development of hypersensitivity. to common aeroallergens has been suggested by another cross-sectional study cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. in children (Garrett et al. 1999). Human exposure studies can provide valuable data for assessing more specifically the acute effects of air pollutants, particularly the airway response to allergen (Sandstrom 1995). The hypothesis that formaldehyde enhances asthmatic response to allergen has not yet been investigated in controlled conditions in humans. To test this hypothesis, we carried out this controlled human study to investigate the effect of a short exposure to 500 [micro]g/[m.sup.3] formaldehyde on asthmatic response to inhaled allergen. Methods Subjects. Twelve subjects (seven men and five women) participated in the study (Table 1). All of the subjects were between 18 and 44 years of age (median = 25 years) and had been diagnosed with intermittent asthma and allergy to pollen. The diagnosis of intermittent asthma was based on reversible attacks of dyspnea dyspnea /dysp·nea/ (disp-ne´ah) labored or difficult breathing.dyspne´ic paroxysmal nocturnal dyspnea less than twice per week and attacks of night respiratory problems, with a peak expiratory flow peak expiratory flow n. The maximum flow of air at the outset of forced expiration, which is reduced in proportion to the severity of airway obstruction, as in asthma. (PEF PEF peak expiratory flow. ) > 80% of predicted value and/or normal pulmonary function test Pulmonary Function Test Definition Pulmonary function tests are a group of procedures that measure the function of the lungs, revealing problems in the way a patient breathes. , less than twice per month. All subjects were allergic to grass pollen, as determined by history of seasonal asthma symptoms and allergy skin testing. All subjects used inhaled [[beta].sub.2]-agonist as needed as needed prn. See prn order. , and nine used antihistamine antihistamine (ăn'tĭhĭs`təmēn), any one of a group of compounds having various chemical structures and characterized by the ability to antagonize the effects of histamine. (anti-[H.sub.1]) medications during the pollen season. None were receiving anti-inflammatory therapy or other current treatments. The study was performed outside the grass pollen season. All subjects were nonsmokers. Before the the exposure experiments began, each subject underwent a physical examination. Also, seasonal allergy to grass pollen was confirmed by positive skin prick test performed using a standardized extract including five grass pollen allergens: Dactylis glomerata Dactylis glomerata a valuable temperate region pasture grass which contains a lamb growth inhibitor. Called also cocksfoot, orchard grass. , Anthoxanthum odoratum Anthoxanthum odoratum a temperate zone grass which contains coumarin. Called also sweet vernal grass. Moldy hay made from the grass is likely to cause dicoumarol poisoning. , Lolium perenne, Poa pratensis, and Phleum pratense Phleum pratense the oldfashioned but still popular pasture grass in the family Poaceae which can be infested with Claviceps purpurea and cause ergotism. Called also timothy grass. (Phl p5) (Stallergenes Laboratory, Antony, France). Skin prick test responses for allergens were considered positive if the wheal wheal (hwel) a localized area of edema on the body surface, often attended with severe itching and usually evanescent; it is the typical lesion of urticaria. wheal n. diameter was at least 3 mm greater than that for the negative control and at least 50% of the diameter of the positive control. Blood samples were obtained for analysis of total IgE and eosinophils Eosinophils A leukocyte with coarse, round granules present. Mentioned in: Histiocytosis X eosinophils in serum. Pulmonary function tests were performed and sputum sputum /spu·tum/ (spu´tum) [L.] expectoration; matter ejected from the trachea, bronchi, and lungs through the mouth. sputum cruen´tum bloody sputum. was collected. All subjects were free from upper respiratory infections for at least 4 weeks before the study. Before enrollment in the study, all participants gave written informed consent. The study was approved by the ethical committee of Saint-Germain-en-Laye-Hospital (project 00019, registered on 9 May 2000). Study protocol. In a crossover design study, each subject was exposed at rest to filtered air or to a concentration of 500 [micro]g/[m.sup.3] (0.4 ppm) formaldehyde for 60 min on two separate days. The exposures were performed at the same hour (0700 hours) and occurred on the same day of the week, with an interval of 2 weeks between exposure. The order of exposure to formaldehyde and air-only was double-blinded and randomized. The only member of the research team aware of the type of exposure was the engineer in charge of the injection of formaldehyde into the chamber. The nature of exposure was made known to the other members of the team only after completion of the statistical analysis. Lung function was measured with a spirometer spirometer /spi·rom·e·ter/ (spi-rom´e-ter) an instrument for measuring the air taken into and exhaled by the lungs. spi·rom·e·ter n. according to the European Community Respiratory Health Survey specifications; measurements were taken immediately before, during, and 8 hr after the end of the allergen challenge. Forced expiratory volume in 1 sec (FE[V.sub.1]) and PEF were measured with a portable combined spirometer every 15 min during the exposure to formaldehyde or air-only in the chamber and every hour until the methacholine provocation test provocation test Medtalk 1 Any of a number of tests used to deliberately induce a suspected pathologic derangement–eg, provocation of ↑ intraocular pressure by ingestion of excess water 2 Neutralization, see there Orthopedics Any of a number of tests , which was performed 8 hr after the end of the allergen bronchial challenge bronchial challenge Inhalation of antigens to detect allergic reactions; in a positive BC, the Pt's temperature and WBC count rise, and the FEV1, and FVC fall within 4–12 hrs of inhalation . Formaldehyde/clean air exposure. A 8.8-[m.sup.3] exposure chamber was installed at the Hospital Bichat in Paris. The chamber was supplied with fresh, particle-free air at a mean temperature of 25[degrees]C and a mean relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. of 32%. The air supply passed through both HEPA HEPA abbr. 1. high-efficiency particulate air 2. high-efficiency particulate arresting and activated carbon filters. The formaldehyde atmosphere was created by injecting and diluting saturated vapors from a heated solution of formaldehyde at the exit of the filtration box; these vapors flowed into the ventilation diffuser dif·fus·er n. 1. One that diffuses, as: a. A light fixture, such as a frosted globe, that spreads light evenly. b. A medium that scatters light, used in photography to soften shadows. c. located in the center of the chamber ceiling. A continuous 1-hr injection of the formaldehyde solution was sufficient to reach a steady state. The formaldehyde concentration in the chamber was monitored continuously with semiconductor gas sensor technology during the experiments to ensure that there was no fluctuation in formaldehyde levels during exposure. The air ejected from the chamber was evacuated outside the building without recirculation Noun 1. recirculation - circulation again circulation - the spread or transmission of something (as news or money) to a wider group or area . Allergen bronchial challenge. Each exposure to formaldehyde or air-only was immediately followed by an allergen inhalation challenge. This challenge involved an automatic inhalation-synchronized Mefar MB3 dosimeter do·sim·e·ter n. An instrument that measures the amount of radiation absorbed in a given period. dosimeter an instrument used to detect and measure exposure to radiation. jet nebulizer nebulizer /neb·u·liz·er/ (neb´u-li?zer) atomizer; a device for throwing a spray. neb·u·liz·er n. (Mefar SpA, Bovezzo, Italy). We used the same standardized extract of five grass pollen allergens as for the skin test (Stallergenes Laboratory) The initial allergen concentration of standardized pollen extract was 0.1 or 0.2 IR (index of reactivity), as previously described by Aubier et al. (1998). The concentration of inhaled allergen was doubled every 15 min; the FEV FEV forced expiratory volume. FEV abbr. forced expiratory volume FEV forced expiratory volume. 1 was measured immediately after each doubling and again 10 min after each inhalation. The dose of allergen producing a 15% decrease in the FE[V.sub.1] was defined as the P[D.sub.15]FE[V.sub.1]. If the FE[V.sub.1]had fallen by [greater than or equal to] 10%, we required that it be measured again every 5 min until no further decrease was observed. Once it reached that point, inhalation of a higher concentration could continue. No further allergen was given a) when FEV1 had fallen by [greater than or equal to] 15%; b) when the highest dose of 2 IR was reached (in that case P[D.sub.15]FE[V.sub.1] was considered equal to 2 IR); or c) if respiratory symptoms occurred. Graphical representations of FE[V.sub.1] and PEF according to time were performed during the 8 hr following allergen bronchial challenge for each of the 24 exposures. P[D.sub.15]FE[V.sub.1] was estimated without knowing which arm was the treatment arm. Pulmonary function and methacholine-challenge testing. We measured responsiveness to methacholine 8 hr after the allergen bronchial challenge ended. All tests were performed with the same dosimeter used for allergen inhalation. The nebulizers were changed after each test. Flow-volume curves were obtained with a Biomedin spirometer (Biomedin Srl, Padova, Italy) in order to determine FE[V.sub.1], forced vital capacity forced vital capacity n. Abbr. FVC Vital capacity measured with subject exhaling as rapidly as possible. forced vital capacity, n a measure of the maximum rate of exhalation. (FVC FVC forced vital capacity. FVC abbr. forced vital capacity FVC, n See forced vital capacity. FVC forced vital capacity. ), forced expiratory flow forced expiratory flow n. Abbr. FEF The flow of air from the lungs during measurement of forced vital capacity. between 25% and 75% of the vital capacity, and PEF. The spirometry Spirometry The measurement, by a form of gas meter, of volumes of gas that can be moved in or out of the lungs. The classical spirometer is a hollow cylinder (bell) closed at its top. technique met international standards, and references values were those of the European Respiratory Society (Quanjer et al. 1993). Results are given as percentages of predicted values. We assessed airway responsiveness by methacholine challenge testing using an automatic inhalation-synchronized Mefar MB3 dosimeter jet nebulizer (Mefar SpA., Bovezzo, Italy) as previously described by Aubier et al. (1992). After inhalation of isotonic isotonic /iso·ton·ic/ (-ton´ik) 1. denoting a solution in which body cells can be bathed without net flow of water across the semipermeable cell membrane. 2. saline as a control, subjects were administered methacholine until the FE[V.sub.1] had dropped by [greater than or equal to] 20% from the post-saline value, or until the maximum cumulative dose of 4 mg had been given. The cumulative doses administered were 0.0156, 0.0625, 0.25, 1.0, 2.0, and 4.0 mg. A 3-min interval was allowed before each dose increment. FE[V.sub.1] was measured 1 min after each dose; we used the best of three acceptable measurements to create dose-response curves. The methacholine provocative dose (PD) causing a 20% decrease in FEV1 from control FE[V.sub.1] (P[D.sub.2]0 methacholine) was determined by interpolation interpolation In mathematics, estimation of a value between two known data points. A simple example is calculating the mean (see mean, median, and mode) of two population counts made 10 years apart to estimate the population in the fifth year. from the dose-esponse curve (Chai et al. 1975). Sputum induction and measurement of inflammatory markers. Sputum induction was performed at baseline and immediately after the methacholine challenge with an aerosol of hypertonic hypertonic /hy·per·ton·ic/ (-ton´ik) 1. denoting increased tone or tension. 2. denoting a solution having greater osmotic pressure than the solution with which it is compared. saline, following the method of Pin et al. (1992). At the beginning of the test and before each period of inhalation, FE[V.sub.1] was measured for safety. The aerosol was generated by a Syst'am ultrasonic nebulizer (System Assistance Medical, Villeneuve sur Lot, France) with increasing concentrations of saline (3, 4, and 5%) inhaled via a mouthpiece for 5-min periods for up to 30 min. Patients were then asked to rinse their mouth, blow their nose, and cough sputum into a sterile container. The sputum was examined within 1 hr using a modified method described by Pizzichini et al. (1996). The entire sputum sample was poured into a Petri dish pe·tri dish n. A shallow circular dish with a loose-fitting cover, used to culture bacteria or other microorganisms. Petri dish a shallow, circular, glass or disposable plastic dish used to grow bacteria on solid media such as agar. and inspected for salivary sal·i·var·y adj. 1. Of, relating to, or producing saliva. 2. Of or relating to a salivary gland. salivary pertaining to the saliva. contamination under an inverted microscope; all portions that appeared free of salivary contamination were placed in a preweighed 15 mL polystyrene tube using forceps. Dithiothreitol (0.1%; Sigma, St. Quentin Fallavier, France) was freshly diluted in distilled water equal to 4 times the sputum weight and added to the sputum sample. The mixture was vortexed for 30 sec and placed on a bench rocker and rocked for 15 min. A further 4 volumes of Dulbecco's phosphate-buffered saline was added to stop the effect of dithiothreitol and rocked for 5 min. The suspension was filtered through a 70-[micro]m cell strainer. The resulting suspension was centrifuged at 800 x g for 10 min, and the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. was aspired and stored in Eppendorf tubes at -70[degrees]C in the presence of aprotinin aprotinin /apro·ti·nin/ (ap?ro-ti´nin) an inhibitor of proteolytic enzymes used to reduce perioperative blood loss in patients undergoing cardiopulmonary bypass during coronary artery bypass graft. . Total nonsquamous cell counts were performed in a hemocytometer hemocytometer /he·mo·cy·tom·e·ter/ (-si-tom´e-ter) hemacytometer. he·mo·cy·tom·e·ter n. An instrument for counting the blood cells in a measured volume of blood. and expressed as millions per milligram milligram /mil·li·gram/ (mg) (mil´i-gram) one thousandth (10-3) of a gram. mil·li·gram n. Abbr. mg A metric unit of mass equal to one thousandth (10-3) of a gram. of selected induced sputum. The proportion of salivary squamous cells Squamous cells Thin, flat cells on the surfaces of the skin and cervix and linings of various organs. Mentioned in: Cervical Cancer was noted, and cell viability was determined using the trypan blue try·pan blue n. An acid dye used for staining of the reticuloendothelial system, the kidney tubules, and cells in tissue culture. trypan blue a supravital stain and a stain for amyloid. exclusion method. From the remainder of the filtrate filtrate /fil·trate/ (fil´trat) a liquid or gas that has passed through a filter. fil·trate v. To put or go through a filter. n. , 10 cytospins were prepared, air-dried, and fixed. Differential cell counts were performed by counting 400 cells on May Grunwald Giemsa-stained slides. Results were expressed as a percentage of the total nonsquamous count. Slides were coded, and cell counts were performed by an expert observer who did not know the clinical characteristics of the patients. Only samples with cell viability > 70% and squamous cell contamination < 20% were considered adequate. We measured sputum supernatant concentrations of interleukins (IL-1, IL-4, IL-5, IL-8, IL-10), granulocyte-macrophage colony-stimulating factor granulocyte-macrophage colony-stimulating factor n. A naturally occurring protein that stimulates the production of granulocytes and macrophages by stem cells and is used as a drug by some immunosuppressed individuals. (GM-CSF GM-CSF granulocyte-macrophage colony-stimulating factor. Granulocyte/macrophage colony stimulating factor (GM-CSF) A substance produced by cells of the immune system that stimulates the attack upon foreign cells. ), monocyte monocyte /mono·cyte/ (mon´o-sit) a mononuclear, phagocytic leukocyte, 13µ to 25µ in diameter, with an ovoid or kidney-shaped nucleus, and azurophilic cytoplasmic granules. chemotactic che·mo·tac·tic adj. Of or relating to chemotaxis. protein-1 (MCP-1), tumor necrosis factor-[alpha] (TNF-[alpha]), interferon-[gamma] (IFN-[gamma]), and eotaxin-1 using commercially available ELISAs (R & D Systems, Abingdon, UK) according to the manufacturer's instructions. The lower detection limits of the assays were as follows: IL-1, 0.1 pg/mL; IL-4, 0.13 pg/mL; IL-5, 3 pg/mL; IL-8, 10 pg/mL; IL-10, 0.5 pg/mL; GM-CSF, 0.25 pg/mL; MCP-1, 5 pg/mL; TNF-[alpha], 0.12 pg /mL; IFN-[gamma], 8 pg/mL; and eotaxin-1, 5 pg/mL. Eosinophil eosinophil /eo·sin·o·phil/ (e?o-sin´o-fil) a granular leukocyte having a nucleus with two lobes connected by a thread of chromatin, and cytoplasm containing coarse, round granules of uniform size. cationic cationic having qualities dependent on having free cations available. cationic detergents are wetting agents that disrupt or damage cell membranes, denature proteins and inactivate enzymes. protein levels (ECP (Enhanced Capabilities Port) See IEEE 1284. 1. ECP - Engineering Change Proposal. 2. ECP - Enhanced Capabilities Port. 3. ECP - Extended Capabilities Port. 4. ECP - Extended Concurrent Prolog. ) were measured by a commercially available enzyme assay (CAP-FEIA, Pharmacia, St. Quentin-en-Yvelines, France), with a lower detection limit of 2 ng/mL. Questionnaire and postexposure follow-up. After 0, 15, 30, 45, and 60 min of exposure to formaldehyde or air-only in the chamber, the subjects were asked 14 questions concerning respiratory symptoms and perception of discomfort (i.e., perception of an odor, eye irritation, nose/throat irritation, chest discomfort/tightness, coughing, shortness of breath Shortness of Breath Definition Shortness of breath, or dyspnea, is a feeling of difficult or labored breathing that is out of proportion to the patient's level of physical activity. , nausea, dyspnea, headache, fatigue, dizziness, other discomfort). Subjective symptoms and medication were also recorded. Each subject measured FE[V.sub.1] and PEF twice daily with a portable combined spirometer during the 2-week interval after each exposure. Statistical analysis. We analyzed differences between two exposures (either between exposures with formaldehyde and air, or between the first exposure and the second exposure after the washout washout to disperse or empty by flooding with water or other solvent. medullary solute washout a syndrome in which the relative hyperosmolarity of the renal medulla is reduced due to an excessive loss of sodium and chloride from ) using the Wilcoxon's nonparametric sign rank test. p-Values < 0.05 were considered significant. Results All 12 subjects completed the two exposures and all of the allergen and methacholine challenges. Four subjects reported minor complaints during exposure to both air-only and formaldehyde. One reported nose irritation during air-only exposure, and another subject reported having a runny nose during formaldehyde exposure but no symptoms or discomfort during air exposure. No distinct odor was reported by any subject during exposure to air-only or formaldehyde. No major clinical adverse reaction was observed. Exposure of allergic asthmatic patients at rest to 500 [micro]g/[m.sup.3] formaldehyde for 1 hr had no direct effect on respiratory function either during or immediately after the exposure session. The FVC and FE[V.sub.1] values, measured immediately after formaldehyde exposure, were not significantly different from those obtained after air-only exposure. Allergen bronchial challenge. Airway responsiveness to allergen was measured using the P[D.sub.15]FE[V.sub.1]. Formaldehyde versus air-only exposure resulted in a P[D.sub.15]FE[V.sub.1] that was higher in five patients and unchanged in seven (Figure 1). The median P[D.sub.15]FE[V.sub.1] was 0.80 (range, 0.15-2.0) IR after formaldehyde exposure compared with 0.25 (range, 0.1-2.0) IR after air-only exposure (p = 0.06) (Table 2). We observed no "order effect" concerning P[D.sub.1]5FE[V.sub.1]: results were not significantly different between the first exposure to formaldehyde or air-only (no wash-out) and the second exposure (after a wash-out). Methacholine bronchial challenge. Methacholine responsiveness was assessed 8 hr after the end of the allergen challenge. Formaldehyde versus air-only exposure resulted in a P[D.sub.20] methacholine that was lower in three subjects, higher in four, and unchanged (within a doubling dose) in five (Figure 1). Formaldehyde exposure did not affect the allergen-induced increase in responsiveness to methacholine (median P[D.sub.20], 0.17 mg after formaldehyde vs. 0.23 mg after air-only exposure; p = 0.42) (Table 2). No "order effect" was observed. Sputum sample analysis. Eosinophils, ECP, and MCP-1 increased significantly in induced sputum 8 hr after the allergen challenge compared with levels measured at baseline. The percentage of neutrophils neutrophils (ner·ō·trōˑ·filz), n.pl white blood cells with cytoplasmic granules that consume harmful bacteria, fungi, and other foreign materials. and eosinophils in induced sputum obtained after formaldehyde exposure was not statistically different from that obtained after air-only exposure. The level of all the parameters measured in sputum supernatant obtained after formaldehyde exposure was not significantly different from that obtained after air-only exposure (Table 3). During the 2 weeks after each exposure, subjective symptoms and peak flow measurements did not differ significantly between subjects who were exposed to air-only and those who were exposed to formaldehyde. Discussion Several epidemiologic studies (Franklin et al. 2000; Garrett et al. 1999; Rumchev et al. 2002; Wieslander et al. 1997) have suggested possible associations between formaldehyde exposure and either asthma or allergic sensitization to common aero allergens. These cross-sectional studies assessed chronic exposure to low levels of formaldehyde. Concerning the effect of acute exposures to formaldehyde on allergic response, the only data available were reported in a murine model (Sadakane et al. 2002). Several studies have been performed with air pollutants to assess interaction with allergenic Allergenic A substance capable of causing an allergic reaction. Mentioned in: Echinococcosis response; some have shown that asthmatic response could be enhanced by a brief preexposure to air pollutants, in particular, nitrogen dioxide or ozone (Barck et al. 2005; Jorres et al. 1996; Molfino et al. 1991; Strand et al. 1997; Tunnicliffe et al. 1994). The hypothesis that a brief exposure to ambient levels of formaldehyde enhances asthmatic response to allergen has not yet been reported in controlled human exposure studies. The aim of this study was to examine whether a 1-hr exposure to 500 [micro]g/[m.sup.3] formaldehyde enhances the asthmatic response to inhaled pollen allergen in subjects with intermittent asthma. We chose this level of formaldehyde to remain within realistic conditions while maximizing our chances to demonstrate an adverse effect. Mean indoor formaldehyde concentrations are usually < 500 [micro]g/[m.sup.3], although such a concentration can be found in indoor environments (Institute for Environment and Health 1996). Formaldehyde exposure alone did not cause any change in lung function, which is in accordance with earlier reports that concluded that lung function of healthy nonsmokers and asthmatics was generally unaffected by exposure to formaldehyde at levels [less than or equal to] 3,700 [micro]g/[m.sup.3] (Sauder et al. 1987). We found no significant differences between the bronchial bronchial /bron·chi·al/ (brong´ke-al) pertaining to or affecting one or more bronchi. bron·chi·al adj. Relating to the bronchi, the bronchial tubes, or the bronchioles. allergen responses after formaldehyde exposure compared with exposure to air-only. However, there was a tendency toward a lower immediate bronchial allergen response after exposure to formaldehyde compared with air-only, contrary to expectations. This result is not compatible with an adverse effect of formaldehyde on asthmatic response in the conditions tested and might suggest a protective effect. Such an effect was reported in mice preexposed to low concentrations of nitrogen dioxide (Hubbard et al. 2002; Proust et al. 2002). Moreover, Fujimaki et al. (2004) showed a decreased production of IL-1[beta] in ovalbumin ovalbumin: see albumin; glycoprotein. in immunized mice after exposure to a low dose of formaldehyde. We assessed the effect of formaldehyde using conditions that minimize the possibility of bias: the order of exposures to formaldehyde or purified air was both randomized and double blinded. Subjects were tested in the same controlled conditions and with a constant level of air pollutants, temperature, and humidity. The delay between exposures was consistent with the literature concerning this type of study (Strand et al. 1997). The longer the wash-out period, the higher the risk of developing respiratory infections; we considered 2 weeks a good compromise between the risk of bias because of a late reaction after the allergen challenge and the risk of exclusion because of infection. Furthermore, if the delay between exposures had had an effect, we would have found different results between the first exposure to formaldehyde or air-only (no wash-out) and the second exposure to formaldehyde or air, which was not the case (i.e., no "order effect"). Post hoc calculations showed that the power of the study was sufficient (> 80%) to show a significant difference if there was a 2-fold variation in P[D.sub.15]F[EV.sub.1] between the two arms. We observed an increase in P[D.sub.15]F[EV.sub.1] after formaldehyde exposure compared with air-only exposure (Figure 1). The increase was near statistical significance (two-sided, p = 0.06). The true value of the variation in P[D.sub.15]F[EV.sub.1] may correspond to a decreased responsiveness with formaldehyde compared with air-only or to no change. However, in spite of the low number of patients, the power of the study is sufficient to conclude that the probability for an increased responsiveness with formaldehyde is very low (3%). Moreover, if there was an increased responsiveness, the increase would probably be so small that it would be impossible to demonstrate, even with a very large study. Corren (1992) showed that a late bronchial response occurs 2 to > 12 hr after allergen exposure. In the present study, methacholine challenge and induced sputum tests were performed 8 hr after the end of allergen bronchial challenge, approximately when the maximum airway inflammatory reaction to allergen occurs. We observed no significant modification in airway responsiveness to methacholine after formaldehyde exposure at this time (8 hr after exposure). To assess airway inflammation, bronchial biopsy remains the gold standard. However, this process is invasive compared with induced sputum, which has proven to be a reproducible, sensitive, and valid method for the assessment of airway inflammation (Wilson 2002). Induced sputum has been used to detect cytokines Cytokines Chemicals made by the cells that act on other cells to stimulate or inhibit their function. Cytokines that stimulate growth are called "growth factors. in patients with bronchial asthma, and the up-regulation of cytokines in the airways can be assessed using noninvasive techniques, including sputum induction (Taha et al. 2001). In the present study, we measured in induced sputum several inflammatory cytokines and mediators that are well-known to be involved in the physiopathology phys·i·o·pa·thol·o·gy n. See pathophysiology. of asthma. Formaldehyde exposure did not significantly affect inflammatory cytokines and mediators measured in sputum 8 hr after the end of the bronchial allergen challenge. However, the total dose of allergen required to reach the expected respiratory effect was higher after formaldehyde exposure than after air-only exposure (0.8 IR vs. 0.25 IR). A potential effect of formaldehyde on the response to methacholine challenge could have been masked because of the differences in allergen exposure between the two arms. It also applies for the airway inflammatory response. Our study included patients with intermittent asthma who were not taking any anti-inflammatory therapy; although we observed no effect in this particular group of patients, this does not necessarily mean that the results can be generalized to patients with more severe asthma. Therefore, additional research is needed to examine effects among individuals with severe asthma. To our knowledge, this is the first controlled human study examining possible interactions between formaldehyde exposure and allergen on asthmatic response. In this study, exposure to 500 [micro]g/[m.sup.3] formaldehyde did not enhance the asthmatic response to allergen. We even observed a trend to a protective effect. Future studies assessing effects of formaldehyde at higher doses, or with repeated or longer exposures, are needed to clarify interactions between formaldehyde and allergens in airways of patients with asthma. 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A recommended occupational exposure limit for formaldehyde based on irritation. J Toxicol Environ Health 50:217-263. Pin I, Gibson PG, Kolendowicz R, Girgis-Gabardo A, Denburg JA, Hargreave FE, et al. 1992. Use of induced sputum cell counts to investigate airway inflammation in asthma. Thorax thorax, body division found in certain animals. In humans and other mammals it lies between the neck and abdomen and is also called the chest. The skeletal frame of the thorax is formed by the sternum (breastbone) and ribs in front and the dorsal vertebrae in back. 47:25-29. Pizzichini E, Pizzichini MM, Efthimiadis A, Evans S, Morris MM, Squillace D, et al. 1996. Indices of airway inflammation in induced sputum: reproducibility and validity of cell and fluid phase measurements. Am J Respir Crit Care Med 154:308-317. Proust B, Lacroix G, Robidel F, Marliere M, Lecomte A, Vargaftig BB. 2002. Interference of a short-term exposure to nitrogen dioxide with allergic airways responses to allergenic challenges in BALB/c mice. Mediators Inflamm 11:251-260. Quanjer PH, Tammeling GJ, Cotes JE, Pedersen OF, Peslin R, Yernault JC. 1993. Lung volumes and forced ventilatory flows. Report Working Party Standardization of Lung Function Tests Lung function tests Tests of how much air the lungs can move in and out, and how quickly and efficiently this can be done. Lung function tests are usually done by breathing into a device that measures air flow. Mentioned in: Pulmonary Fibrosis , European Community for Steel and Coal. Official Statement of the European Respiratory Society. Eur Respir J Suppl 16:5-40. Rumchev KB, Spickett JT, Bulsara MK, Phillips MR, Stick SM. 2002. Domestic exposure to formaldehyde significantly increases the risk of asthma in young children. Eur Respir J 20:403-408. Sadakane K, Takano H, Ichinose T, Yanagisawa R, Shibamoto T. 2002. Formaldehyde enhances mite allergen-induced eosinophilic inflammation in the murine airway. J Environ Pathol Toxicol Oncol 21:267-276. Sakai K, Norback D, Mi Y, Shibata E, Kamijima M, Yamada T, et al. 2004. A comparison of indoor air pollutants in Japan and Sweden: formaldehyde, nitrogen dioxide, and chlorinated chlorinated /chlo·ri·nat·ed/ (klor´i-nat?ed) treated or charged with chlorine. chlorinated charged with chlorine. chlorinated acids some, e.g. volatile organic compounds. Environ Res 94:75-85. Samet JM, Marbury MC, Spengler JD. 1988. Health effects and sources of indoor air pollution. Part II. Am Rev Respir Dis 137:221-242. Sandstrom T. 1995. Respiratory effects of air pollutants: experimental studies in humans. Eur Respir J 8:976-995. Sauder LR, Green DJ, Chatham MD, Kulle TJ. 1987. Acute pulmonary response of asthmatics to 3.0 ppm formaldehyde. Toxicol Ind Health 3:569-578. Strand V, Rak S, Svartengren M, Bylin G. 1997. Nitrogen dioxide exposure enhances asthmatic reaction to inhaled allergen in subjects with asthma. Am J Respir Crit Care Med 155:881-887. Taha RA, Laberge S, Hamid Q, Olivenstein R. 2001. Increased expression of the chemoattractant chemoattractant /che·mo·at·trac·tant/ (ke?mo-ah-trak´tant) a chemotactic agent that induces an organism or a cell (e.g., a leukocyte) to migrate toward it. cytokines eotaxin, monocyte chemotactic protein-4, and interleukin-16 in induced sputum in asthmatic patients. Chest 120:595-601. Tunnicliffe WS, Burge PS, Ayres JG. 1994. Effect of domestic concentrations of nitrogen dioxide on airway responses to inhaled allergen in asthmatic patients. Lancet 344:1733-1736. Wieslander G, Norback D, Bjornsson E, Janson C, Boman G. 1997. Asthma and the indoor environment: the significance of emission of formaldehyde and volatile organic compounds from newly painted indoor surfaces. Int Arch Occup Environ Health 69:115-124. Wilson N. 2002. Measurement of airway inflammation in asthma. Curr Opin Pulm Med 8:25-32. Veronique Ezratty, (1) Marcel Bonay, (2,3) Catherine Neukirch, (2,4,5) Gaelle Orset-Guillossou, (1) Monique Dehoux, (2,6) Serge Koscielny, (7) Pierre-Andre Cabanes, (1) Jacques Lambrozo, (1) and Michel Aubier (2,3,4,5) (1) Service des Etudes Medicales d'EDF et de Gaz de France Gaz de France (GDF) is a French company which produces, transports and sells natural gas around the world and especially in France which is its main market, but also Belgium, the United Kingdom, Germany and other European countries. , Paris, France; (2) Unite 700, INSERM INSERM Institut National de la Santé et de la Recherche Médicale (French Institute of Health and Medical Research) , Faculte Xavier Bichat, Paris, France; (3) Service de Physiologie-Explorations Fonctionnelles, (4) Service de Pneumologie, (5) Clinical Centre of Investigation INSERM 007, and (6) Biochimie A, Hopital Bichat-Claude Bernard, Paris, France; (7) Department of Biostatistics, Institut Gustave Roussy, Villejuif, France Address correspondence to V. Ezratty, Service des Etudes Medicales d'EDF et de Gaz de France, 22-28 rue Joubert, 75009 Paris, France. Telephone: 33 1 55 31 46 04. Fax: 33 1 55 31 46 20. E-mail:veronique.ezratty@edfgdf.fr We thank M. Grandsaigne and V. Lecon-Malas for their contribution to this work, and S. Billot Bonef and D. Ormandy for their valuable advice. This work was supported by Electricite de France as part of a research programme on Indoor Air Quality. The authors declare they have no competing financial interests. Received 13 June 2006; accepted 7 November 2006.
Table 1. Characteristics of subjects.
Asthma FE[V.sub.1] at
Age duration inclusion
Subject (years) Sex (year) Smoking (% pred)
1 34 M 18 N 100
2 33 F 19 N 101
3 45 M 10 N 109
4 18 M 12 N 105
5 24 M 8 N 103
6 28 F 10 E 111
7 26 F 20 N 95
8 37 F 15 N 109
9 25 M 20 N 101
10 26 F 18 N 93
11 21 M 6 N 108
12 26 M 14 N 89
Abbreviations: E, ex-smoker; F, female; M, male; N, never smoker; %
pred, percent predicted.
Table 2. Results [median (range)] of allergen bronchial challenge
performed immediately after exposure to formaldehyde or air-only and
methacholine bronchial challenge performed 8 hr after exposure.
Exposure
Formaldehyde Air-only p-Value
Allergen challenge 0.80 (0.15-2.0) 0.25 (0.10-2.0) 0.06
(P[D.sub.15]FE[V.sub.1])
Methacholine challenge 0.23 (0.01-3.6) 0.17 (0.03-4) 0.42
(P[D.sub.20])
p-Values were determined by signed rank test.
Table 3. Results [median (range)] for parameters measured in sputum.
Exposure
Baseline Formaldehyde Air-only
Total no. of cells 244 (213-496) 255 (215-633) 258 (229-438)
Bronchial cells (%) 14.4 (1.7-46) 4.4 (0.30-40) 3.5 (0.20-33)
Macrophages (%) 27 (3-57) 27.4 (2.8-79) 17.3 (2-82)
Lymphocytes (%) 0.3 (0-2.2) 1 (0-7) 0.4 (0-1.7)
Neutrophils (%) 58 (3.3-94) 32 (0-81) 34 (3-92)
Eosinophils (%) (b) 2.1 (0-31) 11.3 (0.8-89) 13.2 (3-81)
ECP (ng/mL) (b) 57 (3.8-130) 130 (3.9-200) 105.5 (41-200)
Eotaxin (pg/mL) 0 (0-0) 0 (0-14) 0 (0-15)
GM-CSF (pg/mL) 0 (0-1.6) 0 (0-0.69) 0 (0-7.87)
IFN-[gamma] (pg/mL) 0 (0-23) 0 (0-14) 4 (0-14)
IL-1 (pg/mL) 10.5 (1.9-30) 11.5 (6-30) 7.5 (3-30)
IL-4 (pg/mL) 0.19 (0-2.5) 0.17 (0-0.85) 0.06 (0-1.7)
IL-5 (pg/mL) 0 (0-13) 4.5 (0-18) 4 (0-16)
IL-8 (pg/mL) 494 (17-1,312) 675 (69-1,200) 714.5 (81-2,500)
IL-10 (pg/mL) 1.7 (0-5.5) 1.4 (0-8.6) 3.45 (0-8.9)
MCP-1 (pg/mL) (b) 11 (0-72) 29 (0-108) 26.5 (0-129)
TNF-[alpha] (pg/mL) 0.26 (0-3.4) 0.16 (0-1.3) 0.26 (0-3.6)
p-Value (a)
Total no. of cells 0.50
Bronchial cells (%) 0.82
Macrophages (%) 0.57
Lymphocytes (%) 0.31
Neutrophils (%) 0.73
Eosinophils (%) (b) 0.91
ECP (ng/mL) (b) 0.92
Eotaxin (pg/mL) 1.00
GM-CSF (pg/mL) 0.12
IFN-[gamma] (pg/mL) 0.58
IL-1 (pg/mL) 0.90
IL-4 (pg/mL) 0.74
IL-5 (pg/mL) 0.82
IL-8 (pg/mL) 0.47
IL-10 (pg/mL) 0.75
MCP-1 (pg/mL) (b) 0.52
TNF-[alpha] (pg/mL) 0.20
(a) p-Values were determined by signed rank test and indicate comparison
of formaldehyde to air-only. (b) Significant increase between baseline
and 8 hr after the end of the allergen challenge, whether the subject
was exposed to air-only or to formaldehyde (p < 0.05).
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