Effects of physical interventions on house dust mite allergen levels in carpet, bed, and upholstery dust in low-income, urban homes. (Articles).House dust mite house dust mite Dermatophagoides farinae, D pteronyssoides A mite that feeds on household detritus, which is often highly allergenic; exposure to HDMs can be measured by RAST allergen allergen /al·ler·gen/ (al´er-jen) an antigenic substance capable of producing immediate hypersensitivity (allergy).allergen´ic pollen allergen exposure is a postulated pos·tu·late tr.v. pos·tu·lat·ed, pos·tu·lat·ing, pos·tu·lates 1. To make claim for; demand. 2. To assume or assert the truth, reality, or necessity of, especially as a basis of an argument. 3. risk factor for 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. , asthma development, and asthma morbidity; however, practical and effective methods to mitigate these allergens from low-income, urban home environments remain elusive. The purpose of this study was to assess the feasibility and effectiveness of physical interventions to mitigate house dust mite allergens in this setting. Homes with high levels of house dust mite allergen (Der f 1 + Der p 1 [greater than or equal to] 10 [micro]g/g dust by enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. ) in the bed, bedroom carpet, and/or upholstered furniture were enrolled in the study. Carpets and upholstered furniture were subjected to a single treatment of either dry steam cleaning plus vacuuming (carpet only) or intensive vacuuming alone. Bed interventions consisted of complete encasement en·case tr.v. en·cased, en·cas·ing, en·cas·es To enclose in or as if in a case. en·case  ment n. of the mattress, box spring, and pillows plus either weekly professional or in-home laundering of nonencased bedding. Dust samples were collected at baseline and again at 3 days (carpet and upholstery only) and 2, 4, and 8 weeks posttreatment. We compared pretreatment pretreatment,n the protocols required before beginning therapy, usually of a diagnostic nature; before treatment. pretreatment estimate, n See predetermination. mean allergen concentrations and loads to posttreatment values and performed between-group analyses after adjusting for differences in the pretreatment means. Both dry steam cleaning plus vacuuming and vacuuming alone resulted in a significant reduction in carpet house dust mite allergen concentration and load (p < 0.05). Levels approached pretreatment values by 4 weeks posttreatment in the intensive vacuuming group, whereas steam cleaning plus vacuuming effected a decrease that persisted for up to 8 weeks. Significant decreases in bed house dust mite allergen concentration and load were obtained in response to encasement and either professional or in-home laundering (p < 0.001). Between-group analysis revealed significantly less postintervention house dust mite allergen load in professionally laundered compared to home-laundered beds (p < 0.05). Intensive vacuuming and dry steam cleaning both caused a significant reduction in allergen concentration and load in upholstered furniture samples (p < 0.005). Based on these data, we conclude that physical interventions offer practical, effective means of reducing house dust mite allergen levels in low-income, urban home environments. Key words. allergen avoidance, asthma, environmental intervention, house dust mite, indoor allergens. ********** A large body of evidence suggests that exposure to common indoor environmental allergens, including the house dust mite (HDM HDM - SPECIAL ) allergens Dermatophagoides pteronyssinus Der·ma·toph·a·goi·des pter·o·nys·si·nus n. A cosmopolitan species of mites that are found in house dust and are a common cause of atopic asthma. allergen 1 (Der p 1) and Dermatophagoides farinae allergen 1 (Der f 1), is an important risk factor for allergic sensitization, asthma development, and asthma symptom exacerbation (1-5). Interventions to reduce HDM and food allergen exposure during the first 9 months of life have been reported to result in a decrease in the frequency of asthma, allergic rhinitis Allergic Rhinitis Definition Allergic rhinitis, more commonly referred to as hay fever, is an inflammation of the nasal passages caused by allergic reaction to airborne substances. , and eczema eczema (ĕk`səmə), acute or chronic skin disease characterized by redness, itching, serum-filled blisters, crusting, and scaling. at 12 months of age, suggesting that early allergen avoidance may indeed prevent the development of allergic diseases and asthma (6). However, the results from a recent prospective study of German children with/without a family history of atopy atopy /at·o·py/ (at´ah-pe) a genetic predisposition toward the development of immediate hypersensitivity reactions against common environmental antigens (atopic allergy), most commonly manifested as allergic rhinitis but also as (7) have led some investigators to question the association between exposure to HDM allergen and the subsequent development of asthma. A number of secondary asthma prevention studies indicate that HDM allergen avoidance measures are effective at reducing HDM allergen exposure, asthma symptoms, and 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. hyperreactivity in asthmatic children (8-12). Despite the reputed respiratory health benefits of indoor allergen avoidance, particularly for asthma patients (13), inexpensive, practical, and effective methods for home allergen control remain elusive (14,15). This may be especially true for residents of low-income, urban areas, who often have limited resources available to apply toward home allergen mitigation interventions. The objective of this study was to test the feasibility and effectiveness of inexpensive, practical interventions to reduce indoor HDM allergen levels in the bed, bedroom carpeting, and upholstered furniture in low-income, urban homes. The primary end points were changes in HDM allergen concentrations (micrograms Der p 1 + Der f 1 per gram dust) and loads (micrograms Der p 1 + Der f 1 per sample) in posttreatment vacuumed dust compared to pretreatment values. Materials and Methods Recruitment, screening, and randomization randomization (ranˈ·d  ·m . Low-income homes in the Seattle, Washington  This page is protected from moves until disputes have been resolved on the .The reason for its protection is listed on the protection policy page. , metropolitan area were recruited through contacts with local neighborhood agencies and/or local city health centers. Eligible home types included single family detached houses, apartments in a free-standing building with three or fewer units, and apartments in complexes with three or more units. Informed consent was obtained from an adult member of each household, and the study protocol and all supporting documentation was approved by the Seattle Children's Hospital A children's hospital is a hospital which offers its services exclusively to children. The number of children's hospitals proliferated in the 20th century, as pediatric medical and surgical specialties separated from internal medicine and adult surgical specialties. and Regional Medical Center Institutional Review Board. House dust samples collected from three sampling sites (a bed; a carpeted bedroom floor; and a frequently used upholstered sofa or chair) during a screening visit were subjected to allergen analysis. Homes that yielded "high" (defined as >10 [micro]g total HDM allergen per gram of dust) allergen concentrations at any of the three sampling sites were 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. to one of the two intervention groups for that site. Interventions. Intervention activities were implemented and overseen by field personnel who were extensively trained in environmental intervention methods for indoor allergen control in urban residences. Just before initiation of treatment, a baseline dust sample was collected and submitted for analysis to confirm screening sample results. Bed treatments consisted of encasement of pillows, box springs, and mattresses with HDM allergen-impermeable covers (Allergy Control Products, Ridgefield, CT) in conjunction with either professional or in-home laundering of all nonencased bedding materials Noun 1. bedding material - material used to provide a bed for animals bedding, litter material, stuff - the tangible substance that goes into the makeup of a physical object; "coal is a hard black material"; "wheat is the stuff they use to make bread" . Participants assigned to the in-home laundry group received instructions to wash all bedding materials weekly in hot water using a detergent of their choice followed by hot drying. Participants in the professional laundry group were provided with bedding materials that had been washed weekly by a local cleaning company in hot water (> 140 [degrees] F) containing approximately 0.5% S99 Detergent (Mt. Hood Chemical Corporation, Portland, OR) and 0.5% Orthotex (Diamond Chemical Company, East Rutherford, NJ). Homes enrolled in the carpet arm of the study received a single treatment of either intensive vacuuming only or steam cleaning combined with intensive vacuuming. The intensive vacuuming-only intervention was performed with a Miele Red-Star vacuum cleaner vacuum cleaner, mechanical device using a draft of air to remove dust, loose dirt, or other particulate matter from dry surfaces. It is especially useful on highly textured surfaces, such as carpets and upholstery, that are difficult to clean by wiping or brushing. (Miele Company, Stuttgart, Germany) for 1 min/[m.sup.2] carpet in one direction and again at a rate of 1 min/[m.sup.2] carpet in the perpendicular direction. The vacuum was used in the powerhead-assisted mode with the rotating brush turned on. Dry steam cleaning was performed on carpeting with a Vaporjet 2400 steam cleaning machine (Advanced Vapor Technologies, Edmonds, WA) at a rate of 2.5 min/[m.sup.2] carpet according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the manufacturer's instructions for carpeting and was followed immediately with powerhead-assisted vacuuming at a rate of 30 sec/[m.sup.2] carpet. The Vaporjet 2400 applies hot steam (180 [degrees] F) to the carpet and differs from standard hot water extraction The Hot Water Extraction (HWE) method, is a method used in chemistry for extraction and for "steam cleaning" (e.g. carpets. as listed by the IICRC to be the primary method for cleaning carpets. Residential, and Commercial). cleaning methods in that the surface of the carpet is completely dry within 15 min of application. Moreover, the carpet backing remains dry throughout the procedure. Upholstered furniture was treated once by either intensive vacuuming only at a rate of approximately 2.5 min/[m.sup.2] surface area with a Miele Red-Star vacuum cleaner equipped with the manufacturer's upholstery attachment or by dry steam cleaning with a Vaporjet 2400 machine at a rate of 2.5 min/[m.sup.2] surface area according to the manufacturer's instructions for upholstery. Dust sample collection and allergen analysis. Preintervention dust sample collections were performed at the screening visit and again 1-10 weeks later (mean 54 [+ or -] 7 days) at the baseline visit. Postintervention samples were collected at 3 days (carpet and upholstery only) and at 2, 4, and 8 weeks after initiation of the interventions. Indoor temperature and 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. were measured at each visit. Settled dust samples were collected with a Eureka Mighty-Mite 7.0 Ampere ampere (ăm`pēr), abbr. amp or A, basic unit of electric current. It is the fundamental electrical unit used with the mks system of units of the metric system. vacuum cleaner (Eureka Company, Bloomington, IL) fitted with 19-mm x 90-mm cellulose extraction thimbles (Whatman International, Ltd., Maidstone, England) in the distal end of the extension tube and a clean crevice crevice /crev·ice/ (krev´is) fissure. gingival crevice the space between the cervical enamel of a tooth and the overlying unattached gingiva. crev·ice n. tool. Bed samples were collected by vacuuming an area of 2 [m.sup.2] (the approximate area of a single twin-size bed) for a total of 5 min as follows: 1 min on one side of the pillow (over the pillowcase pil·low·case n. A removable covering for a pillow. Also called pillowslip. pillowcase or pillowslip Noun a removable washable cover for a pillow Noun 1. , if present); 2 min divided equally among the layers of blankets, sheets, and pads; and 2 min on the mattress surface. Impermeable impermeable /im·per·me·a·ble/ (-per´me-ah-b'l) not permitting passage, as of fluid. im·per·me·a·ble adj. Impossible to permeate; not permitting passage. covers were not removed from the mattress, if present. Bedroom floor samples were obtained by sampling a 2-[m.sup.2] carpeted floor area that included approximately 0.25 [m.sup.2] of under-bed area for a total of 5 min. Upholstery samples were collected by vacuuming 2 [m.sup.2] of upholstered chair or sofa surface for 5 min. These dust collection protocols are identical to those used in the National Allergen Survey and the Inner-City Asthma Study (16,17). Dust samples were shipped to a central laboratory via overnight delivery. Within 2 working days of sample receipt, the dust was sieved through a 425-[micro]m pore size grating, and the weight of the recovered fine dust was determined. Fine dust was extracted in borate borate /bo·rate/ (bor´at) a salt of boric acid. bo·rate n. A salt or ester of boric acid. borate any salt of boric acid. buffered saline (pH 8.5), 2 mL/100 mg dust. Extracts were clarified by centrifugation Centrifugation A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal at 1,300g and the supernatants were decanted and stored at -20 [degrees] C until they were analyzed. Individual HDM allergens were measured using monoclonal antibody-based enzyme-linked immunosorbent assays (ELISAs) as described by Chapman et al. (18). The lower limit of detection was 0.025 [micro]g allergen/g fine dust for both the Der f 1 and Der p 1 assays. Results are expressed as both concentration (micrograms HDM allergen per gram sieved dust) and load (micrograms HDM allergen per sample). Statistical analyses. Combined Der f 1 plus Der p 1 values were log transformed before analysis. Within each treatment group, we performed a repeated measures analysis of covariance Covariance A measure of the degree to which returns on two risky assets move in tandem. A positive covariance means that asset returns move together. A negative covariance means returns vary inversely. using season (July-September, October-December, January-March) and the difference in HDM allergen levels between screening and base-line as covariates and treating time (screening, baseline, 3 days, 2, 4, and 8 weeks) as the qualitative predictor. Contrasts were constructed to compare the mean posttreatment with mean pretreatment allergen levels. Between-treatment analyses were performed similarly using a repeated measures analysis of covariance, treating temperature, humidity, and pretreatment values as covariates. We used an average of the screening and the baseline values as the pretreatment level because there were no statistically significant differences between screening and baseline HDM allergen concentrations or loads at any of the three sites. We examined the difference between treatment types by comparing the adjusted mean posttreatment values between different treatment types. Results Of 39 homes screened for enrollment, 19 (49%) met allergen level enrollment criteria for one or more of the home intervention sites (bed, bedroom floor, or upholstery) and residents consented to participate in the study. Of these, 8 homes were enrolled for a single intervention site, 9 homes were enrolled for two sites, and 2 homes were enrolled for all three sites. All homes were freestanding free·stand·ing adj. Standing or operating independently of anything else: a freestanding bell tower; a freestanding maternity clinic. , single-family dwellings and were enrolled between July 1998 and March 1999. All homes had wall-to-wall carpeting in the study bedroom and none of the homes used a fully encasing impermeable mattress or box spring cover on their bed before enrollment into the study. Eleven homes were enrolled in the bedroom carpet intervention arm of the study; 6 were randomized to receive intensive vacuuming only and 5 were randomly assigned to receive dry steam cleaning plus intensive vacuuming. Both interventions resulted in significant posttreatment reductions in carpet HDM allergen concentration and load (p < 0.05; Figure 1). In the intensive vacuuming group, mean allergen concentrations decreased from a pretreatment value of 70.3 [micro]g/g dust to 31.0 [micro]g/g at 3 days postintervention, but increased to 59.5 [micro]g/g by 4 weeks postintervention (Figure 1A). Similarly, mean HDM allergen load decreased from 90.2 [micro]g/sample (pretreatment) to 19.5 [micro]g/sample (3 days postintervention), but increased to 43.6 [micro]g/sample by 4 weeks postintervention (Figure 1B). Together, these data indicate that the effect of intensive vacuuming was transient. In contrast, dry steam cleaning plus intensive vacuuming caused a significant decrease in mean HDM allergen concentration from 63.0 [micro]g/g (pretreatment) to 22.0 [micro]g/g (3 days postintervention), and the allergen concentration continued to decline through the 4-week (17.6 [micro]g/g) and 8-week (8.2 [micro]g/g) postintervention sampling periods (Figure 1A). Similarly, mean HDM allergen loads decreased from 29.0 mg/sample (pretreatment) to 7.0 mg/sample (8 weeks postintervention; Figure 1B). Between-treatment analysis revealed that there was a trend toward greater posttreatment reduction in mean allergen concentration (p = 0.07) in the dry steam cleaning plus intensive vacuuming group compared to the intensive vacuuming-only group. Importantly, only the combination of dry steam cleaning and vacuuming achieved HDM allergen concentrations below 10 [micro]g/g dust, a level that is believed to be associated with excess asthma morbidity (1). [FIGURE 1 OMITTED] Bed interventions were implemented in 11 homes. All treated beds received allergen-impermeable box spring, mattress, and pillow covers. Weekly professional laundering of nonencased bedding materials was performed in 6 homes, whereas in-home laundering was performed on bedding materials in the remaining 5 homes. Both interventions resulted in significant posttreatment decreases in bed HDM allergen concentration and load (p < 0.001; Figure 2). In the in-home laundry group, mean allergen concentrations decreased from 53.5 [micro]g/g dust (pretreatment) to 12.9 [micro]g/g (2 weeks posttreatment), an effect that persisted through the 8-week sampling period (Figure 2A). Similarly, mean HDM allergen load decreased from 88.7 [micro]g/sample (pretreatment) to 4.6 [micro]g/sample (2 weeks postintervention) in this group (Figure 2B). In the professional laundry group, mean allergen concentrations decreased from 23.4 [micro]g/g dust (pretreatment) to 3.4 [micro]g/g (2 weeks posttreatment), an effect that also persisted through the 8-week sampling period (Figure 2A). Similar effects of professional laundering were observed for allergen load (Fig 2B). Between-treatment analysis revealed that the professional laundry group had a significantly greater posttreatment reduction in mean allergen load compared to the in-home laundry group (p < 0.05) and that there was a trend toward greater posttreatment reduction in mean allergen concentration in the professional laundry group versus the in-home laundry group (p = 0.16). Postintervention-seived dust weights were significantly lower in the professional versus in-home laundry group (p = 0.02). [FIGURE 2 OMITTED] Ten homes were enrolled in the upholstery intervention arm of the study; five were randomized to receive intensive vacuuming and five were randomly assigned to receive dry steam cleaning. Intensive vacuuming of upholstered furniture resulted in a significant posttreatment decrease in mean allergen concentration and load (p < 0.001; Figure 3). Mean concentration values decreased from 64.4 [micro]g/g dust (pretreatment) to 14.8 [micro]g/g at the 4-week posttreatment sampling point (Figure 3A). Similarly, mean load values decreased from 67.1 [micro]g/sample (pretreatment) to 12.8 [micro]g/sample at 4 weeks (Figure 3B). Dry steam cleaning also resulted in a significant posttreatment decrease in mean allergen concentration and load (p < 0.005; Figure 3). Between-group analysis indicated no significant difference in the effectiveness of intensive vacuuming versus dry steam cleaning for the mitigation of HDM allergen in upholstered furniture on the basis of either recovered allergen concentration or allergen load (p > 0.5). [FIGURE 3 OMITTED] There were no statistically significant differences in indoor relative humidity between the baseline exam and the four follow-up exams (F-test p-value = 0.37). Thus, none of the interventions affected relative humidity, assuming that no confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor seasonal or temporal effects were present. Discussion In the National Cooperative Inner-City Asthma Study population, 49.4% of children's bedrooms had detectable levels of HDM allergen and 9.7% contained > 2 [micro]g/g dust (19). Importantly, 34.6% of children in this study had positive skin tests to HDM (by comparison 35.8% had positive skin tests to cockroach cockroach or roach, name applied to approximately 3,500 species of flat-bodied, oval insects forming the order Blattodea. Cockroaches have long antennae, long legs adapted to running, and a flat extension of the upper body wall that conceals the allergens). Together, these data indicate that exposure to HDM is prevalent in urban areas in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. . We have shown here that physical interventions can reduce HDM allergens in beds, bedroom carpeting, and upholstered furniture. We have demonstrated that these interventions can be implemented effectively in low-income, urban homes and that they can cause a reduction in both allergen concentration and load at sites of HDM allergen exposure and harborage har·bor·age n. 1. Shelter and anchorage for ships. 2. Shelter; refuge. Noun 1. harborage - (nautical) a place of refuge (as for a ship) harbourage . However, the effects of interventions in clinical trials are often greater than the differences between groups in cross-sectional community studies that apply these interventions as an every-day routine or not (15). These differences may be especially pronounced in low-income populations, where strict guidance by trained personnel may improve the intervention performance significantly. Thus, the conclusions of our study should be interpreted with caution. Significant decreases in bedroom carpet allergens were achieved both by intensive vacuuming alone and by vacuuming in combination with steam cleaning. The decreases following a single vacuuming were transient, likely due to the minimal effect that vacuuming has on endogenous endogenous /en·dog·e·nous/ (en-doj´e-nus) produced within or caused by factors within the organism. en·dog·e·nous adj. 1. Originating or produced within an organism, tissue, or cell. live HDM populations in carpet (20). Other groups have come to similar conclusions regarding the efficacy of vacuuming alone in reduction of carpet HDM allergen levels (21,22). Additionally, failure to remove all of the deep dust in an old carpet may confound con·found tr.v. con·found·ed, con·found·ing, con·founds 1. To cause to become confused or perplexed. See Synonyms at puzzle. 2. cleaning studies that measure the reduction in load of HDM allergen on the surface of the carpet. Indeed, a recent study of intensive vacuuming in which only part of the deep dust was removed resulted in a 67% increase in HDM allergen loading on the carpet surface (23). In contrast, we found that dry steam cleaning resulted in a significant reduction in carpet HDM allergen that persisted for up to 8 weeks postintervention. These findings are consistent with the study by Colloff et al. (24), which showed that steam cleaning alone is an effective mitocidal treatment for carpets. Importantly, the steam cleaning procedures used in this study are both widely available and inexpensive to implement. Thus, dry steam cleaning followed by intensive vacuuming may offer a simple, low-cost, nonchemical alternative to the use of acaricides in the management of HDM allergens in carpeting. Although removal of carpeting and replacement with smooth surfaces such as hardwood or vinyl remains the best method to reduce HDM allergens in flooring, this replacement method is expensive and may not be practical for residents of many low-income, urban homes. Our results demonstrate that allergen-impermeable covers in combination with weekly laundering of nonencased bedding materials can result in reductions in bed HDM allergens, in accordance with results of previous tests of these methods (5,9,15, 25-30). The intervention that was implemented as part of this study resulted in bedding-dust HDM allergen concentrations < 10 [micro]g/g, an exposure level threshold linked to asthma development (1) and acute asthma attacks (31). Between-group analysis indicated that changes in HDM allergen load were statistically better for the professional laundry arm versus the in-home laundry arm (p = 0.03), whereas changes in concentration were not (p = 0.16). Interestingly, dust weights were significantly lower in the professional versus in-home laundry arm (p = 0.02), suggesting that professional laundry services reduced the recovery of dust. These data also suggest that compliance rather than laundry method (e.g., detergents or other additives, wash water, or dryer temperature) was the main determinant of the difference in results. Given the additional cost associated with weekly professional laundry of bedding, this intervention may not be warranted in light of the modest difference in allergen reduction compared to home laundering, particularly in a low-income, urban environment. Both dry steam cleaning and intensive vacuuming led to small reductions in HDM allergen in upholstered furniture, but, unlike the data obtained for bedroom carpets, the decrease effected by steam cleaning did not appear to persist any longer than that of intensive vacuuming alone. This apparent discrepancy may be due the physical properties of upholstery versus carpet materials. In particular, upholstery materials may not allow for complete steam penetration resulting in lower HDM mitigation efficacy. Alternatively, upholstery cushions may promote high residual humidity due to water retention after steam treatment, which may therefore lead to increased HDM growth over time. One limitation of this study is that the effects were not controlled by observations in homes without interventions, so changes in allergen levels could be attributed, at least in part, to seasonal and/or temporal variations. Indeed, it is well established that HDM allergen levels can vary over time and during different seasons (32,33). We observed a 4- to 8-fold reduction in pretreatment allergen concentrations after interventions in homes enrolled between July-March and followed for 8 weeks. Platts-Mills et al. (33) observed that HDM levels were lowest between April and June but varied much less (generally 2- to 3-fold) during the period between July and March. Thus, the magnitude of the reductions in our study exceed those expected due to variations in season and other temporal factors. We also compared data from the screening and baseline visits, which were separated in time by a mean of 54 days. We found no statistically significant differences between the screening and the baseline HDM allergen concentrations or loads at any of the three sites. Thus, minimal variations in allergen levels occurred during this prestudy "control" period. Finally, we directly controlled for seasonal variations and differences in HDM allergen levels between screening and baseline by treating these factors as covariates in our repeated measures analysis. Several environmental factors have been shown to be associated with concentrations of HDM allergens, including indoor temperature and humidity (15,33,34). We found no statistically significant differences in these variables between homes assigned to the different interventions for each of the three sites. Moreover, we directly controlled for differences in mean temperature and mean humidity across the baseline and follow-up exams by treating these factors as covariates in our between-treatment repeated measures analysis. In summary, the results of this study in low-income, urban homes indicate that a) both intensive vacuuming alone and dry steam cleaning plus vacuuming can result in significant reductions in HDM allergens in bedroom carpet, with the combined modality modality /mo·dal·i·ty/ (mo-dal´i-te) 1. a method of application of, or the employment of, any therapeutic agent, especially a physical agent. 2. producing a longer duration effect; b) impermeable covers combined with frequent washing of nonencased bedding materials can significantly reduce HDM allergen levels in the bed; and c) both intensive vacuuming and steam cleaning have a modest effect on HDM levels in upholstered furniture. The professional laundry bedding regimen and the carpet steam cleaning plus vacuuming method are effective at decreasing HDM allergens to levels below those associated with increased asthma morbidity, but not below the 2 [micro]g/g threshold proposed as an allergen sensitization risk factor (31,35). These physical interventions will likely have to be repeated often to maintain modest, long-term HDM allergen control. It remains to be shown that controlling HDM allergen in the absence of cockroach control in the inner city will have an effect on asthma prevalence and/or morbidity. REFERENCES AND NOTES (1.) Sporik R, Holgate ST, Platts-Mills TAE TAE Trans-Asia-Europe TAE Tasa Anual Equivalente (Spanish: Equivalent Annual Interest Rate) TAE Thomas Alva Edison TAE Telekommunikations Anschluss Einheit (German: telecommunication connection unit) , Cogswell JJ. Exposure to house-dust mite mite, small, often microscopic chelicerate that, along with the tick, makes up the order Acarina; it is also related to spiders. The unsegmented mite body is typically oval and compact, although a few, mostly parasites, are elongated and wormlike. allergen (Der p 1) and the development of asthma in childhood: a prospective study. N Engl J Med 323:502-507 (1990). (2.) Hide DW, Matthews S Matthews may refer to: In places:
(3.) Chan-Yeung M, Manfreda J, Dimich-Ward H, Lam J, Ferguson A, Warren P, Simons E, Broder I, Chapman M, Platts-Mills T, Becker A. Mite and cat allergen levels in homes and severity of asthma. Am J Respir Crit Care Med 152:1805-1811 (1995). (4.) Henderson FW, Henry MM, Ivins SS, Morris R, Neebe EC, Leu Leu leucine. Leu abbr. leucine Leu leucine. S-Y, Stewart PW. Correlates of recurrent wheezing Wheezing Definition Wheezing is a high-pitched whistling sound associated with labored breathing. Description Wheezing occurs when a child or adult tries to breathe deeply through air passages that are narrowed or filled with mucus as a in school-age children. Am J Respir Crit Care Med 151:1786-1793 (1995). (5.) Custovic A, Taggart SCO (The SCO Group, Lindon, UT, www.sco.com) A leading vendor of Unix operating systems for the x86 platform. SCO had also offered Linux, but abandoned the line in the spring of 2003. The SCO Group is the combination of two companies: Utah-based Caldera, Inc. , Francis HC, Chapman MD, Woodcock woodcock: see snipe. woodcock Any of five species (family Scolopacidae) of plump, sharp-billed migratory birds of damp, dense woodlands in North America, Europe, and Asia. A. Exposure to house dust mite allergens and the clinical activity of asthma. J Allergy Clin Immunol 98:64-72 (1996). (6.) Arshad SH, Matthews S, Gant C, Hide DW. Effect of allergen avoidance on development of allergic disorders in infancy. Lancet 339:1493-1497 (1992). (7.) Lau S, Illi S, Sommerfeld C, Niggemann B, Bergmann R, yon Mutius E, Wahn U. Early exposure to house-dust mite and cat allergens and development of childhood asthma: a cohort study A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute . Lancet 356:1392-1397 (2000). (8.) Murray AB, Ferguson AC. Dust-free bedrooms in the treatment of asthmatic children with house dust or house dust mite allergy: a controlled trial controlled trial Clinical research A clinical study in which one group of participants receives an experimental drug while the other receives either a placebo or an approved–'gold standard' therapy. See Blinding, Double-blinded. . Pediatrics 71:418-422 (1983). (9.) Ehnert B, Lau-Schadendorf S, Weber A, Buettner P, Schou C, Wahn U. Reducing domestic exposure to dust mite dust mite House dust mite, see there allergen reduces bronchial hyperreactivity in sensitive children with asthma. J Allergy Clin Immunol 90:135-138 (1992). (10.) Platts-Mills TAE, Tovey ER, Mitchell EB, Moszoro H, Nock nock n. 1. The groove at either end of a bow for holding the bowstring. 2. The notch in the end of an arrow that fits on the bowstring. tr.v. nocked, nock·ing, nocks 1. P, Wilkins SR. Reduction of bronchial hyperreactivity during prolonged allergen avoidance. Lancet 2:675-678 (1982). (11.) Walshaw MJ, Evans CC. Allergen avoidance in house dust mite sensitive adult asthma. Q J Med 58:199-215 (1986). (12.) Dorward AJ, Colloff MJ, MacKay NS, McSharry C, Thomson NC. Effect of house dust mite avoidance measures on adult atopic atopic /atop·ic/ (a-top´ik) (ah-top´ik) 1. ectopic. 2. pertaining to atopy; allergic. atopic 1. displaced; ectopic. 2. pertaining to atopy. 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. 43:98-102 (1988). (13.) Eggleston PA, Creticos PS, Lockey R, Platts-Mills TAE, Sheffer A, Taggart VS, Shapas TJ, Clobes A, Scheuttenberg W, Shapas TJ. Environmental allergen avoidance in allergic asthma allergic asthma Clinical immunology A condition characterized by bronchoconstriction and SOB Clinical Wheezing, dyspnea—especially exhaling, chest tightness Exacerbated by Abrupt changes in temperature or humidity, allergies, URIs, exercise, stress, cigarette . J Allergy Clin Immunol 103:203-205 (1999). (14.) Woodfolk JA, Hayden ML, Couture N, Platts-Mills TA. Chemical treatment of carpets to reduce allergen: comparison of the effects of tannic acid tannic acid /tan·nic ac·id/ (-ik) a substance obtained from nutgalls, used as an ingredient of dermatologic preparations and formerly used as an astringent. tannic acid n. 1. and other treatments on proteins derived from dust mites and cats. J Allergy Clin Immunol 96:325-333 (1995). (15.) Tovey E, Marks G. Methods and effectiveness of environmental control. J Allergy Clin Immunol 103:179-191 (1999). (16.) Zeldin DC, Vojta PJ, Friedman W, Zhou J, Yin M, Schuelt E, Cohn R, Burge H, Muilenberg M, Thorne PS. Factors associated with dust mite allergen exposure in bed: results from the first National Allergen Survey. Am Rev Resp Crit Care Med 163:A722 (2001). (17.) Mitchell H, Senturia Y, Gergen P, Baker D, Joseph C, McNiff-Mortimer K, Wedner HJ, Crain E, Eggleston P, Evans R III, et al. Design and methods of the National Cooperative Inner City Asthma Study. J Pediatr Pulmonol 24:237-252 (1997). (18.) Chapman MD, Heymann PW, Wilkins SR, Brown MJ, Platts-Mills TA. Monoclonal immunoassays for major dust mite (Dermatophagoides) allergens, Der p 1 and Der f 1, and quantitative analysis Quantitative Analysis A security analysis that uses financial information derived from company annual reports and income statements to evaluate an investment decision. Notes: of the allergen content of mite and house dust extracts. J Allergy Clin Immunol 80:184-194 (1987). (19.) Rosenstreich DL, Eggleston P, Kattan M, Baker D, Slavin RG, Gergen P, Mitchell H, McNiff-Mortimer K, Lynn H, Ownby D, et al. The role of cockroach allergy and exposure to cockroach allergen in causing morbidity among inner-city children with asthma. N Engl J Med 336:1356-1363 (1997). (20.) Wassenaar DPJ DPJ Democratic Party of Japan DPJ Département de la Protection de la Jeunesse . Effectiveness of vacuum cleaning and wet cleaning  This article or section needs copy editing for grammar, style, cohesion, tone and/or spelling.You can assist by [ editing it] now. on reducing house-dust mites, fungi, and mite allergen in a cotton carpet: a case study. Exp Appl Acarol 4:53-62 (1988). (21.) Munir AK, Einarsson R, Dreborg SK. Vacuum cleaning decreases the levels of mite allergens in house dust. Pediatr Allergy Immunol 4:136-143 (1993). (22.) Adilah N, Fitzharris P, Crane J, Siebers RW. The effect of frequent vacuum cleaning on the house dust mite allergen, Der p 1 in carpets: a pilot study. NZ Med J NZ MED J New Zealand Medical Journal 110:438-439 (1997). (23.) Roberts JW, Clifford WS, Glass G, Hummer PG. Reducing dust, lead, dust mites, bacteria, and fungi in carpets by vacuuming. Arch Environ Contam Toxicol 36:477-484 (1999). (24.) Colloff MJ, Taylor C, Merrett TG. The use of domestic steam cleaning for the control of house dust mites. Clin Exp Allergy 25:1060-1061 (1995). (25.) Owen S, Morganstern M, Hepworth J, Woodcock A. Control of house dust mite antigen in bedding. Lancet 335:396-397 (1990). (26.) McDonald LG, Tovey E. The role of water temperature and laundry procedures in reducing house dust mite populations and allergen content of bedding. J Allergy Clin Immunol 90:599-608 (1992). (27.) Tovey E, Marks G, Shearer M, Woodcock A. Allergens and occlusive occlusive /oc·clu·sive/ (o-kloo´siv) pertaining to or causing occlusion. oc·clu·sive adj. 1. Occluding or tending to occlude. 2. bedding covers [Letter]. Lancet 342:126 (1993). (28.) Kemp TJ, Siebers RW, Fishwick D, O'Grady GB, Fitzharris P, Crane J. House dust mite allergen in pillows. Br Med J 313:916 (1996). (29.) Miller JD, Miller A. Ten minutes in a clothes dryer kills all mites in blankets. J Allergy Clin Immunol 97:962 (1996). (30.) Platts-Mills TAE, Vervloet D, Thomas WR, Aalberse RC, Chapman MD. Indoor allergens and asthma: report of the third international workshop. J Allergy Clin Immunol 100:S1-S24 (1997). (31.) Platts-Mills TAE, De Weck A. Dust mite allergens and asthma--a world wide problem. Bull WHO 66:769-780 (1989). (32.) Hirsch T, Kuhlisch E, Soldan sol·dan also sou·dan n. A sultan in Egypt. [Middle English, from Old French, from Arabic sul W, Leupold W. Variability of house dust mite allergen exposure in dwellings. Environ Health Perspect 106:659-664 (1998). (33.) Platts-Mills TAE, Hayden ML, Chapman MD, Wilkins SR. Seasonal variation in dust mite and grass-pollen allergens in dust from the houses of patients with asthma. J Allergy Clin Immunol 79:781-791 (1987). (34.) Custovic A, Simpson A, Chapman MD, Woodcock A. Allergen avoidance in the treatment of asthma and atopic disorders. Thorax 53:63-72 (1998). (35.) Platts-Mills TAE, Thomas WR, Aalberse RC, Vervloet D, Champman MD. Dust mite allergens and asthma: report of a second international workshop. J Allergy Clin Immunol 89:1046-1060 (1992). Patrick J. Vojta, (1) Sandra P. Randels, (2) James Stout James Stout (May 6, 1910 - August, 1986) was an American thoroughbred horse racing jockey. Known as "Jimmy," he began working at a racetrack as a stable boy then in 1930 became a professional jockey. , (2) Michael Muilenberg, (3) Harriet A. Burge, (3) Henry Lynn, (4) Herman Mitchell, (4) George T. O'Connor, (5) and Darryl C. Zeldin (1) (1) Division of Intramural Research A Division of Intramural Research (or DIR) is a branch of any one of the National Institutes of Health (NIH) which funds research done on NIH campuses, the largest of which is located in Bethesda, Maryland. , National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. , Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. , USA; (2) Department of Pediatrics, University of Washington, Seattle, Washington, USA; (3) Department of Environmental Health, Harvard School of Public Health The Harvard School of Public Health is (colloquially, HSPH) is one of the professional graduate schools of Harvard University. Located in Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill, next to Harvard Medical School and Cambridge, Massachusetts, , Boston, Massachusetts “Boston” redirects here. For other uses, see Boston (disambiguation). Boston is the capital and most populous city of Massachusetts.[3] The largest city in New England, Boston is considered the unofficial economic and cultural center of the entire New , USA; (4) Rho, Inc., Chapel Hill, North Carolina Chapel Hill is a town in North Carolina and the home of the University of North Carolina at Chapel Hill (UNC-CH), the oldest state-supported university in the United States. As of the 2000 census, it had a population of 48,715. As of 2004 its estimated population was 52,440. , USA; (5) Department of Medicine, Boston University School of Medicine Boston University School of Medicine (BUSM) is one of the graduate schools of Boston University. It is an American medical school located in the South End neighborhood of Boston, Massachusetts. , Boston, Massachusetts, USA Address correspondence to D.C. Zeldin, NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) , 111 Alexander Drive, Mail Drop D2-02, Research Triangle Park, NC 27709 USA. Telephone: (919) 541-1169. Fax: (919) 541-4133. E-mail: zeldin@ niehs.nih.gov We thank S. London and D. Morgan for helpful suggestions during preparation of this manuscript. This work was funded by the National Institute of Environmental Health Sciences, Division of Intramural Research, and the National Institutes of Health, National Center for Minority Health and Health Disparities
Health disparities (also called health inequalities in some countries) refer to gaps in the quality of health and health care across racial, ethnic, and socioeconomic groups. . Received 20 November 2000; accepted 20 February 2001. |
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