Levels of household mold associate with respiratory symptoms in the first year of life in a cohort at risk for asthma. (Children's Health).We assessed prospectively the risk of increased incidence of respiratory symptoms after exposure to particular fungal fungal /fun·gal/ (fun´g'l) fungous; pertaining to fungi. fun·gal or fun·gous adj. 1. Of, relating to, resembling, or characteristic of a fungus. 2. genera genera, in taxonomy: see classification. in a susceptible population--namely, infants (n = 880) at high risk for developing asthma. Days of wheeze wheeze (hwez) a whistling type of continuous sound. wheeze v. To breathe with difficulty, producing a hoarse whistling sound. n. A wheezing sound. or persistent cough, information on maternal allergy and asthma, socioeconomic so·ci·o·ec·o·nom·ic adj. Of or involving both social and economic factors. socioeconomic Adjective of or involving economic and social factors Adj. 1. variables, and housing characteristics were collected over the course of the infant's first year of life. Exposure to mold was assessed by airborne samples collected at one time early in the infant's life, Fungi Fungi (fŭn`jī), kingdom of heterotrophic single-celled, multinucleated, or multicellular organisms, including yeasts, molds, and mushrooms. The organisms live as parasites, symbionts, or saprobes (see saprophyte). were identified to genus genus, in taxonomy: see classification. genus Biological classification. It ranks below family and above species, consisting of structurally or phylogenetically (see level, recorded as colony-forming units In microbiology, colony-forming unit (CFU) is a measure of viable bacterial numbers. Unlike in direct microscopic counts where all cells, dead and living, are counted, CFU measures viable cells. By convenience the results are given as per cubic meter Noun 1. cubic meter - a metric unit of volume or capacity equal to 1000 liters cubic metre, kiloliter, kilolitre metric capacity unit - a capacity unit defined in metric terms (CFU/[m.sup.3]), and then categorized cat·e·go·rize tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es To put into a category or categories; classify. cat into four levels: 0 (undetectable), 1-499 CFU/[m.sup.3] (low), 500-999 CFU/[m.sup.3] (medium), and [greater than or equal to] 1,000 CFU/[m.sup.3] (high). Effects of mold on wheeze and persistent cough, adjusting for potential 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 factors, were examined with Poisson regression In statistics, the Poisson regression model attributes to a response variable Y a Poisson distribution whose expected value depends on a predictor variable x, typically in the following way: Any blue or green mold in the genus Penicillium (kingdom Fungi; see fungus). Common on foodstuffs, leather, and fabrics, they are economically important in producing antibiotics (see (41%). Cladosporium was associated with reported mold (p < 0.02) and water leaks (p < 0.003). Rate of persistent cough was associated with reported mold [Rate ratio (RR) = 1.49; 95% CI, 1.18-1.88]. The highest level of Penicillium was associated with higher rates of wheeze (PR = 2.15; 95% CI, 1.34-3.46) and persistent cough (RR = 2.06; 95% CI, 1.31-3.24) in models controlling for maternal history of asthma and allergy, socioeconomic status socioeconomic status, n the position of an individual on a socio-economic scale that measures such factors as education, income, type of occupation, place of residence, and in some populations, ethnicity and religion. , season of mold sample, and housing characteristics. We conclude that infants in this high-risk group high-risk group Epidemiology A group of people in the community with a higher-than-expected risk for developing a particular disease, which may be defined on a measurable parameter–eg, an inherited genetic defect, physical attribute, lifestyle, habit, who are exposed to high levels of Penicillium are at significant risk for wheeze and persistent cough. Key words: asthma, fungi, indoor air, infants, mold, Penicillium, 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 . Environ Health Perspect 110:A781-A786 (2002). [Online 12 November 2002] http://ehpnet1.niehs.nih.gov/docs/2002/110pA781-A786gent/abstract.html ********** Fungi are ubiquitous on this planet, and exposure to them a fact of life for all residents of Earth. There is little doubt that exposure to fungi contributes to respiratory diseases Noun 1. respiratory disease - a disease affecting the respiratory system respiratory disorder, respiratory illness adult respiratory distress syndrome, ARDS, wet lung, white lung - acute lung injury characterized by coughing and rales; inflammation of the and their symptoms (Al-Doory and Domson 1984; Dillon et al. 1999; Husman 1996; Larone 1987; Peat et al. 1998; van der Werff 1958; Verhoeff and Burge 1997). The effect of indoor fungal exposures on the respiratory health of children is of particular concern and has been examined worldwide. Studies have been primarily of children recruited directly from schools in Canada A List of schools in Canada: By province:
adj. 1. Of, caused, or characterized by an allergy. 2. Having an allergy or exhibiting an allergic reaction to a substance. allergic pertaining to or caused by allergy. disease (Dill and Niggemann 1996; Li et al. 1995; Su et al. 2001a). Several methods are used to assess levels of mold exposure, including counting fungal spores in airborne samples or quantifying constituents of fungal cells contained in dust samples. Compared to dust sample analyses that can quantify cumulative exposure to mold in general (e.g., Chew et al. 2001; Dharmage et al. 2001; Douwes et al. 1999), air sampling remains the best way to identify genera and species of molds found in and around a home (Ren et al. 1999). Relationships between exposure to mold and respiratory symptoms of children have been explored for airborne samples analyzed as total mold spore counts (Platt et al. 1989; Strachan et al. 1990; Waegemaekers et al. 1989), and as concentrations of specific genera (e.g., Cladosporium, Penicillium, Alternaria Alternaria a saprophytic fungus commonly found on the skin; also has been associated with subcutaneous infections (phaeohyphomycosis) and reputed to be one of the causes of the indeterminate syndrome of forage poisoning in farm animals. Tenuazonic acid is a toxic metabolite. , Aspergillus Aspergillus Any fungus of the genus Aspergillus of the Fungi Imperfecti (form-class Deuteromycetes). Species for which the sexual phase is known are placed in the order Eurotiales. A. niger causes black mold on some foods; A. niger, A. flavus, and A. ) (Garrett et al. 1998; Li et al. 1995; Su et al. 2001a). No studies have reported on mold exposures in early life and respiratory symptoms in a susceptible population. Since 1998, we have been following a birth cohort of 1,002 infants at risk for developing asthma. We have reported previously on the relationship between airborne fungi and characteristics of our study subjects' homes (Ren et al. 2001). In the present study we examine which specific mold exposures might be related to respiratory symptoms while controlling for potentially confounding factors. Methods Cohort. We studied 1,002 infants born to mothers in Connecticut and western Massachusetts between September 1996 and December 1998, who had at least one older child with physician-diagnosed asthma. The Human Investigation Committee of Yale University Yale University, at New Haven, Conn.; coeducational. Chartered as a collegiate school for men in 1701 largely as a result of the efforts of James Pierpont, it opened at Killingworth (now Clinton) in 1702, moved (1707) to Saybrook (now Old Saybrook), and in 1716 was approved this study, and all respondents gave informed consent before participation. Because they all had at least one sibling sibling /sib·ling/ (sib´ling) any of two or more offspring of the same parents; a brother or sister. sib·ling n. with asthma, the infants in this birth cohort were considered to be at high risk for developing asthma. Within 4 months of the infant's birth, a trained research assistant interviewed each mother at home to collect demographic information, medical histories, and household characteristics. Mothers were asked whether the infant had experienced wheeze or persistent cough since birth and, if so, how many days in each month the symptoms occurred. Infant respiratory symptoms were collected at quarterly telephone interviews when the infant was 6, 9, and 12 months of age. When the infant was 12 months old, a more extensive questionnaire was administered covering additional household characteristics specific to the previous year, including the respondent's observation of persistent mold or mildew mildew, name for certain fungi and protists, for the diseases they cause in various crops, and for the discoloration (and sometimes the weakening and disintegration) they cause in such materials as leather, fabrics, and paper. in the living area of the home. Of the initial 1,002 infants enrolled, 880 were included; for these, symptom information was available for 1 to 12 months in the home from which the mold sample was taken. Excluded were 39 families who moved at some unknown date from the home where the mold sample was taken, 54 who were lost to follow-up, and an additional 29 who were missing information on measured mold. Data from these 880 infants were used in analyses of general characteristics of the infant and home collected at the time of the home interview. Data from a subset of 819 infants whose mothers participated in the year 1 questionnaire were used for analyses including housing characteristics specific to the infant's first year of life. Collection and analysis of mold samples. Sample collection and analysis have been described previously (Ren et al. 2001). Results reported here are from airborne mold samples collected from the main living area at the time of the home visit within 4 months of the infant's birth. A Burkard portable air sampler sampler, sample piece of needlework or embroidery, of silk, cotton, or worsted, for the preservation of some pattern or as an example of the ability of a child or a beginner. In museums and private collections there are samplers dating from as early as 1643. (Burkard Manufacturing Co., Rickmansworth, UK) was used in combination with dichloran-18% glycerol glycerol, glycerin, glycerine, or 1,2,3-propanetriol (prō`pāntrī'ŏl), CH2OHCHOHCH2OH, colorless, odorless, sweet-tasting, syrupy liquid. agar (DG-18). The sampling period was 1 min with an airflow rate of 20 L/min. Fungi were identified to the genus level and recorded as colony-forming units (CFU CFU see colony-forming units. ) per cubic meter. Data analysis. The health outcomes of interest were infant respiratory symptoms of wheeze and persistent cough measured as counts (i.e., number of days of symptom summed over the period of time that the infant lived in the home where the mold sample was taken). Symptom counts were converted to yearly rates by dividing number of days of symptoms by the number of days of observation and multiplying times 365 days per year. For some analyses, yearly rates were categorized into three levels previously established for an asthma severity scale (Ortega et al. 2001): 0 days, < 30 days/year, [greater than or equal to] 30 days/year. The total culturable number of colony-forming units per cubic meterwas categorized into four levels 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 Commission of European Communities European Community: see European Union. European Community (EC) Organization formed in 1967 with the merger of the European Economic Community, European Coal and Steel Community, and European Atomic Energy Community. report (CEC (Central Electronic Complex) The set of hardware that defines a mainframe, which includes the CPU(s), memory, channels, controllers and power supplies included in the box. Some CECs, such as IBM's Multiprise 2000 and 3000, include data storage devices as well. 1994): 0(undetectable), 1-499 CFU/[m.sup.3] (low), 500-999 CFU/[m.sup.3] (medium), and [greater than or equal to] 1,000 CFU/[m.sup.3] (high). Exposure variables of interest for further analyses included all specifically identified genera of fungi. Total amount of yeast yeast, name applied specifically to a certain group of microscopic fungi and to commercial products consisting of masses of dried yeast cells or of yeast mixed with a starchy material and pressed into yeast cakes. , which is not speciated, was noted but not included in further analyses. Other variables of interest were collected at the home interview (n = 880), including personal and socioeconomic information (infant sex, ethnicity, maternal history of asthma and allergies, mother's education level, multifamily home), other housing characteristics (smoking in the home, heating system), and season mold sample was taken: winter (the months of December-February), spring (March-May), summer (June-August), and fall (September-November). Additional information on housing characteristics specific to the infant's first year of life in the home where airborne mold was sampled were collected at year 1 interviews (n = 819) and included reports of mold and mildew, problems with water leaks, and use of humidifiers and/or dehumidifiers. Because wheeze and persistent cough data are in the form of counts (number of days of symptoms), we used Poisson regression analysis to examine associations between symptoms and mold variables, both unadjusted and adjusted for potential confounding factors. Rate ratios (RR) and 95% confidence intervals confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. (CI) were computed using the GENMOD procedure in SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. specifying the Poisson distribution A statistical method developed by the 18th century French mathematician S. D. Poisson, which is used for predicting the probable distribution of a series of events. For example, when the average transaction volume in a communications system can be estimated, Poisson distribution is used and invoking the scaling factor correction for overdispersion (SAS 2001). Because not all infants were under observation for a full year, and to standardize stan·dard·ize v. 1. To cause to conform to a standard. 2. To evaluate by comparing with a standard. the length of the monitoring period, we added an offset variable (log of the number of days during the first year of life that the infant was under observation) to the model (Allison 1999; SAS 2001). Models were built for the simultaneous effects of Penicillium, Cladosporium, and "other" mold, using backward elimination of nonsignificant non·sig·nif·i·cant adj. 1. Not significant. 2. Having, producing, or being a value obtained from a statistical test that lies within the limits for being of random occurrence. confounders, with reinclusion if the confounder's exclusion produced > 10% change in the coefficients of the exposure variables. For each mold variable, each category of mold exposure (low, intermediate, high) was entered into the models as a dummy variable This article is not about "dummy variables" as that term is usually understood in mathematics. See free variables and bound variables. In regression analysis, a dummy variable with the "undetectable" category serving as baseline. Results Overall, 80% of the infants remained in the study home for 1 full year, 12% were followed for 9-11 months, 5% for 6-8 months, and 3% for fewer than 6 months. Over half of the infants did not experience any wheeze (58.8%) or persistent cough (54.3%). Approximately one-third of the infants who experienced symptoms had the equivalent of 30 or more days of wheeze (27.5% of 402 infants) or persistent cough (32.8% of 363). Table 1 displays the unadjusted relationships between personal, socioeconomic, and housing characteristics and the rates of wheeze and persistent cough. There is significantly more wheeze and persistent cough among boys ([chi square chi square (kī), n a nonparametric statistic used with discrete data in the form of frequency count (nominal data) or percentages or proportions that can be reduced to frequencies. ], p < 0.04) and among infants whose mothers have asthma (p < 0.002). Higher rates of wheeze are found among Hispanic infants (p < 0.007), infants of mothers with less than a high school education (p < 0.004), and infants living in multifamily housing (p < 0.001). Infants in homes heated with an electric baseboard base·board n. A molding that conceals the joint between an interior wall and the floor. Also called mopboard. Noun 1. system tend to have higher rates of wheeze than those in homes with forced air, steam, or any other system (p < 0.01). Rates of respiratory symptoms were not associated with smoking in the home, mother's history of allergies, reported water leaks in the home, or the use of a humidifier humidifier, n a device for adding moisture to dry air inside the home to help counteract the reduction in saliva that often occurs as a result of hyposalivation, radiation therapy, or other treatments that cause xerostomia. or dehumidifier Dehumidifier Equipment designed to reduce the amount of water vapor in the atmosphere. There are three methods by which water vapor may be removed: (1) the use of sorbent materials, (2) cooling to the required dew point, and (3) compression with aftercooling. . Genera of mold identified in The main living room of 880 homes included Cladosporium (found in 61.9% of the homes) and Penicillium (in 40.6%). Although Aspergillus (in 25.6%) and Alternaria (12.1%) were also quite common, neither was found in sufficient numbers to be analyzed separately. An additional 21 genera were identified including Wallemia (7.5%), Epicoccum (5.9%), Botrytis Botrytis a common fungal cause of spoilage in stored meat. (3.1%), and others found in less than 3% of the homes. No mold could be detected in the main living room of 15.6% of the homes. The number of different genera per sample in the remaining samples ranged from 1 to 7 (median = 2 different molds). Cladosporium was the only mold identified in 11.7% of the samples while Penicillium was the only mold in 7.8%. Both were present in 27.3% of the main room samples. Unspecified Adj. 1. unspecified - not stated explicitly or in detail; "threatened unspecified reprisals" specified - clearly and explicitly stated; "meals are at specified times" yeast was found in 44.2% of the samples, and it was not possible to identify at least one of the molds present on 24.4% of the samples. Table 2 displays bivariate bi·var·i·ate adj. Mathematics Having two variables: bivariate binomial distribution. Adj. 1. associations between season of mold sampling, housing characteristics, and measured mold. There is no association between season of sampling and level of Penicillium. There is a significant association between season and level of Cladosporium and "other" mold (p < 0.0001). Only Cladosporium is associated with the mother's observation of mold (p < 0.02) or water leaks (p < 0.003) during the first year of the infant's life. Higher levels of "other" mold were associated with steam/hot water home heating systems (p < 0.05). For the infants who experienced respiratory symptoms, Figure 1 shows the frequency distributions for days of wheeze and persistent cough in the first year of life (expressed as the rate multiplied by 365 days) over each level of Penicillium and Cladosporium. An examination of the tail of the distribution for days of wheeze in the presence of Penicillium reveals that although only 19 of 363 infants were exposed to high levels of this mold, 37% of them experienced 60 or more days of wheeze in their first year of life (Figure 1B). Interestingly, only 3% of 29 infants exposed to high levels of Cladosporium had this same high rate of wheeze (Figure 1D). The distribution for days of persistent cough shows a similar pattern in the tails: More infants experience 60 or more days of persistent cough in the presence of high levels of Penicillium (5 of 18, or 28%) (Figure 1A) than do in the presence of high levels of Cladosporium (0 of 31) (Figure 1C). [FIGURE 1 OMITTED] Table 3 shows the unadjusted associations resulting from a Poisson regression analysis between the rates of respiratory symptoms and exposure to particular levels of molds. As illustrated in Figure 1, high levels of Penicillium are significantly associated with wheeze (RR = 2.46; 95% CI, 1.63-3.70) and persistent cough (RR = 1.84; 95% CI, 1.22-2.80). In addition, persistent cough is also significantly associated with the medium level of Cladosporium (RR = 1.62; 95% CI, 1.17-2.24) and with mother's report of mold in the home (RR = 1.49; 95% CI, 1.18-1.88). The simultaneous effects of Penicillium, Cladosporium, and "other" mold adjusted for potential confounding factors are displayed in the Poisson regression models in Table 4. The presence of Penicillium appears to increase the chances that an infant will experience significant respiratory symptoms during the first year of life. The model for rate of persistent cough suggests that when controlling for maternal history of asthma, mother's education level, season of mold sample, water leaks, humidifier or dehumidifier use, and smoking in the home, an infant's number of days of persistent cough during the first year of life in the presence of a high level of Penicillium would be double the number experienced in the presence of undetectable levels of this mold (RR 2.06; 95% CI, 1.31-3.24). It appears that when controlling for confounding factors and level of Penicillium, neither Cladosporium nor "other" mold affects respiratory symptoms experienced by an infant during the first year of life. Similarly, the model for rate of wheeze suggests that when controlling for the factors mentioned above plus the infant's sex, maternal history of allergies, multifamily home, and home heating system, an infant's number of days of wheeze in the first year of life in the presence of high levels of Penicillium would again be double the number experienced when unexposed to Penicillium (RR = 2.15; 95% CI, 1.34-3.46). Ethnicity and use of air conditioners Conditioners used on leather take many shapes and forms. They are used mostly to keep leather from drying out and deteriorating. A very old and widely used conditioner is dubbin. were included in initial models predicting rates of wheeze and persistent cough, but were eliminated because they had no confounding effects on the remaining variables (i.e., > 10% change in the parameter estimate of interest). Discussion We assessed the risk of increased incidence of respiratory symptoms as a result of exposure to particular fungi in a susceptible population--namely, infants at high risk for developing asthma. Our assessment also considers factors that might have confounding effects, such as maternal allergy and asthma, socioeconomic variables, and housing characteristics. We conclude that infants in this high-risk group who are exposed to higher levels of Penicillium are at significant risk for wheeze and persistent cough. Previous studies suggest that the relationship between exposure to mold and respiratory symptoms of children is complicated and may depend on risk level of the study population, health outcomes measured, exposure assessment methodology, and other factors identified as potentially confounding. Results of previous studies examining respiratory symptoms of children and indoor exposure to measured airborne mold as represented by total mold spore count are equivocal EQUIVOCAL. What has a double sense. 2. In the construction of contracts, it is a general rule that when an expression may be taken in two senses, that shall be preferred which gives it effect. Vide Ambiguity; Construction; Interpretation; and Dig. . Platt et al. (1989) used airborne mold sampling to confirm observed mold and found that children living in homes classified as damp and moldy moldy animal feed overgrown with fungus; the feed may be harvested and stored or be still in the ground. moldy corn disease see leukoencephalomalacia, fusariummoniliforme. had significantly more respiratory symptoms than did children in dry homes. In a study of 88 7-year-olds from a population survey of 1,000 homes in the United Kingdom, Strachan et al. (1990) used measured mold as the exposure variable and concluded that inhaled in·hale v. in·haled, in·hal·ing, in·hales v.tr. 1. To draw (air or smoke, for example) into the lungs by breathing; inspire. 2. mold spores (total mold count) is not an important factor in causing wheeze. On the other hand, Waegemaekers et al. (1989) studied 190 school-aged children in the Netherlands and for a subset of 56 children reported an association between the presence of exposure to mold (modeled as the [log.sub.10] of total mold count in CFU/[m.sup.3]) and persistent cough [odds ratio (OR) = 1.98; p < 0.05] and a combination of wheeze and persistent cough (OR = 1.93; p < 0.05), adjusted for socioeconomic variables and household characteristics. Results of studies examining the relationship between exposure to specific mold genera and respiratory symptoms have also been equivocal. Garrett et al. (1998) took repeated airborne samples from 80 homes of 148 7-14-year-olds and concluded that an increase in winter exposure to Penicillium by 100 CFU/[m.sup.3] (OR = 1.43; 95% CI, 1.03-2.00), adjusted for parental asthma and allergy, was related to asthma. Two studies compared the concentration of specific genera of airborne mold in the homes of children similar in age with and without asthma. One found significant differences in the concentration distributions of Cladosporium and Penicillium between disease and control groups (Li et al. 1995), and the other found no consistent pattern between groups for the various genera of fungi (Su et al. 2001a). Interestingly, and consistent with our study findings that mold and water leaks are significantly associated with Cladosporium but not Penicillium, Garrett et al. (1998) also found that visible mold and evidence of condensation problems were associated with high concentrations of Cladosporium. A major strength of our study is that we collected extensive respiratory symptom data, maternal asthma and allergy histories, and housing characteristic information on a large population at high risk for developing asthma. Another strength is that we were able to examine associations between respiratory symptoms and exposure to two of the most common types of mold through the use of airborne mold sampling, which remains the best way to identify specific genera. Limitations of our study come primarily from our mold sampling methodology. Our combination of air sampler and agar are considered to produce the best results in terms of precision, yield, and number of species isolated (Verhoeff et al. 1990). But, as with any air sampling method, spores from molds that are rare or that are not easily airborne will result in missed fungal identifications, as will spores that grow with difficulty or not at all in the chosen medium. Despite this, we feel that our method accurately reflects the variety of molds present in the homes of our study subjects. A more serious limitation is that a single airborne sample is used to represent mold exposure during the first year of life. Airborne mold samples, used in many studies as the measure of exposure, are quite variable over time [e.g., seasonal variation (Beaumont et al. 1984; Gravesen 1972; Ren et al. 1999)] and space [i.e., indoors vs. outdoors (Beaumont et al. 1984) or between locations indoors, e.g., basements vs. living rooms (Ren et al. 1999)] and as such have drawn criticism when used to represent longer-term levels of exposure (Verhoeff and Burge 1997). Estimates of cumulative exposure to mold from a single point-in-time sample are provided by dust sample analyses of ergosterol ergosterol /er·gos·te·rol/ (er-gos´te-rol) a sterol occurring mainly in yeast and forming ergocalciferol (vitamin D2) on ultraviolet irradiation or electronic bombardment. er·gos·ter·ol n. (Dharmage et al. 2001) or extracellular extracellular /ex·tra·cel·lu·lar/ (-sel´u-lar) outside a cell or cells. ex·tra·cel·lu·lar adj. Located or occurring outside a cell or cells. polysaccharide polysaccharide: see carbohydrate. polysaccharide Any of a large class of long-chain sugars composed of monosaccharides. Because the chains may be unbranched or branched and the monosaccharides may be of one, two, or occasionally more kinds, (Chew et al. 2001; Douwes et al. 1999). However, results of dust sample analyses are relatively nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik) 1. not due to any single known cause. 2. not directed against a particular agent, but rather having a general effect. nonspecific 1. because they involve quantification of the aggregate fungal biomass of any molds. All of the mold samples used in this report were taken from the main living room of the home, but were not all collected at the same time of year. Roughly one-fourth were taken in each season (21% winter, 25% summer, 27% fall, 28% spring), and there were no significant seasonal differences in the distribution of Penicillium levels (Ren et al. 1999; Table 3). Furthermore, a year-long study of repeated mold sampling in 11 homes in the same geographic area as our study (southern New England New England, name applied to the region comprising six states of the NE United States—Maine, New Hampshire, Vermont, Massachusetts, Rhode Island, and Connecticut. The region is thought to have been so named by Capt. ) demonstrated no significant variation in the concentration of total fungi in the living room between spring, summer, and fall, or between winter, spring, and fall, and very little seasonal variation in Penicillium as a percentage of total mold concentration (Ren et al. 1999). Thus, the concentration of Penicillium taken at one time is likely to be representative of Penicillium levels in the living room of a home in this area throughout the year. In contrast, the highest values of Cladosporium from the main living area in our study are from the summer samples (a time of year when Cladosporium reaches its peak levels outdoors) and lowest from the winter (Table 3); hence the importance of including season of sampling as a confounding factor in the models. To the extent that our levels of measured mold sampled on one occasion represent longer-term exposure concentrations, it appears that risk of higher rates of respiratory symptoms increases with levels of Penicillium (Table 4). This linear trend proved to be significant when level of Penicillium was entered into the adjusted models as a quasi-continuous variable for both wheeze (RR = 1.23; 95% CI, 1.06-1.42) and persistent cough (RR = 1.21; 95% CI, 1.06-1.38). This result implies that an infant's number of days of respiratory symptoms during the first year of life would increase by 20% for each increase in the level of Penicillium (i.e., from no mold to a low level, or from low to intermediate, or from intermediate to high). It also appears that, when controlling for potential confounding factors including season the mold sample was taken, the association between respiratory symptoms and mold exposure holds true for Penicillium but not for Cladosporium or "other" mold. That there are significant seasonal variations in some molds suggests that exposure to Cladosporium is intermittent intermittent /in·ter·mit·tent/ (-mit´ent) marked by alternating periods of activity and inactivity. in·ter·mit·tent adj. 1. Stopping and starting at intervals. 2. and may contribute only intermittently to respiratory symptoms and not as much as Penicillium, which appears to be present at more consistent levels year round.
Table 1. Unadjusted associations between personal, socioeconomic,
housing characteristics, and respiratory symptoms of 880 infants at
risk for developing asthma from Connecticut and western Massachusetts,
1998-2000.
Rate of persistent cough
(days/year) (%)
[greater
than or
equal p-Value
Characteristic No. 0 < 30 to] 30 (a)
Infant's sex
Male 437 50.1 34.1 15.8 0.04
Female 443 58.5 27.3 14.2
Ethnicity
White, Asian, other 554 54.7 31.8 13.5 0.08
Black 120 60.0 28.3 11.7
Hispanic 206 50.0 29.1 20.9
Mother has diagnosed asthma
No 601 58.6 29.1 12.3 0.001
Yes 279 45.2 34.0 20.8
Mother has allergies
No 371 57.4 28.3 14.3 0.28
Yes 509 52.1 32.4 15.5
Mother's education (years)
< 12 125 54.4 24.6 20.0 0.34
12-15 463 53.8 31.1 15.1
> 15 292 55.1 32.9 12.7
Multifamily home
No 716 54.6 31.3 14.1 0.28
Yes 164 53.0 28.0 18.9
Smoking in the home
No 761 53.2 31.1 15.6 0.20
Yes 119 61.3 27.7 10.9
Heating system
Forced air 309 58.2 25.6 16.2 0.18
Steam/hot water 419 51.3 33.9 14.8
Electric 123 55.1 30.9 13.0
Other 24 41.7 45.8 12.5
Water leaks (b)
No 636 56.0 29.7 14.3 0.10
Yes 183 47.0 36.6 16.4
Humidifier use (b)
No 377 56.8 31.0 12.2 0.12
Yes 442 51.6 31.4 17.0
Dehumidifier use (b)
No 597 52.3 31.7 16.1 0.15
Yes 222 58.6 30.2 11.3
Rate of wheeze
(days/year) (%)
[greater
than or
equal p-Value
Characteristic 0 < 30 to] 30 (a)
Infant's sex
Male 54.5 31.8 13.7 0.02
Female 63.0 28.0 9.0
Ethnicity
White, Asian, other 61.4 30.1 8.5 0.007
Black 57.5 29.2 13.3
Hispanic 52.4 29.6 18.0
Mother has diagnosed asthma
No 62.6 28.0 9.5 0.002
Yes 50.5 34.0 15.4
Mother has allergies
No 61.2 29.9 8.9 0.13
Yes 57.0 29.9 13.2
Mother's education (years)
< 12 50.4 28.8 20.8 0.004
12-15 59.4 29.4 11.2
> 15 61.3 31.2 7.5
Multifamily home
No 60.5 30.0 9.5 0.001
Yes 51.2 29.3 19.5
Smoking in the home
No 59.3 29.7 11.0 0.65
Yes 55.5 31.1 13.4
Heating system
Forced air 61.5 28.8 9.7 0.01
Steam/hot water 59.0 30.8 10.3
Electric 53.7 26.0 20.3
Other 45.8 50.0 4.2
Water leaks (b)
No 60.4 30.0 9.6 0.45
Yes 55.2 33.9 10.9
Humidifier use (b)
No 60.2 31.8 8.0 0.23
Yes 58.4 30.1 11.5
Dehumidifier use (b)
No 57.3 31.7 11.1 0.09
Yes 64.4 28.8 6.8
(a) p-Values for [chi square] tests. (b) Data from questionnaire
administered at the infant's first birthday (n = 819).
Table 2. Unadjusted associations between season of sampling, housing
characteristics, and mold measured in 880 homes 2-4 months after an
infant's birth (Connecticut and western Massachusetts, 1998-2000).
Penicillium (a) (%)
p-Value
Variable No. 0 Low Med High (b)
Season mold sample taken
Winter 181 66.8 26.5 1.7 5.0 0.51
Spring 244 59.8 33.6 2.5 4.1
Summer 219 56.6 37.4 2.7 3.2
Fall 236 55.9 37.3 2.5 4.2
Heating system
Forced air 309 61.8 32.0 2.9 3.2 0.85
Steam/hot water 419 57.0 35.8 2.6 4.5
Electric 123 61.0 33.3 0.8 4.9
Other 24 58.3 37.5 0.0 4.2
Reported mold (c)
No 644 60.9 33.5 2.2 3.4 0.30
Yes 174 54.0 37.4 3.4 5.2
Water leaks (c)
No 636 59.3 34.1 2.7 3.9 0.83
Yes 183 59.6 35.5 1.6 3.3
Humidifier use (c)
No 377 57.8 34.5 2.4 5.3 0.21
Yes 442 60.6 34.4 2.5 2.5
Dehumidifier use (c)
No 597 59.1 35.0 2.8 3.0 0.16
Yes 222 59.9 32.9 1.4 5.9
Cladosporium (a) (%)
p-Value
Variable 0 Low Med High (b)
Season mold sample taken
Winter 71.3 27.1 1.7 0.0 0.0001
Spring 57.0 37.7 2.9 2.5
Summer 12.3 48.2 21.9 17.4
Fall 17.0 63.1 12.7 7.2
Heating system
Forced air 41.0 44.0 8.7 6.2 0.43
Steam/hot water 36.8 44.2 11.9 7.2
Electric 33.3 50.4 8.1 8.1
Other 50.0 41.7 0.0 8.3
Reported mold (c)
No 38.8 46.3 9.3 5.6 0.02
Yes 35.1 40.8 12.6 11.5
Water leaks (c)
No 37.9 46.9 8.0 7.2 0.003
Yes 38.2 39.3 16.9 5.5
Humidifier use (c)
No 38.5 45.1 10.6 5.8 0.72
Yes 37.6 45.2 9.5 7.7
Dehumidifier use (c)
No 37.4 46.4 10.6 5.7 0.12
Yes 39.6 41.9 8.6 9.9
Other mold (a) (%)
p-Value
Variable 0 Low Med High (b)
Season mold sample taken
Winter 61.3 33.7 1.1 3.9 0.0001
Spring 49.6 48.4 1.6 0.4
Summer 26.5 63.0 7.3 3.2
Fall 32.3 57.2 7.2 3.4
Heating system
Forced air 46.6 45.6 6.2 1.6 0.05
Steam/hot water 40.8 52.0 3.3 3.8
Electric 32.5 61.8 4.1 1.6
Other 37.5 58.3 4.2 0.0
Reported mold (c)
No 42.7 50.8 4.0 2.5 0.42
Yes 36.8 54.0 5.8 3.4
Water leaks (c)
No 42.3 50.9 4.4 2.4 0.64
Yes 38.8 53.0 4.4 3.8
Humidifier use (c)
No 41.9 51.5 3.4 3.2 0.55
Yes 41.2 51.4 5.2 2.3
Dehumidifier use (c)
No 41.2 52.4 4.0 2.4 0.54
Yes 42.3 48.6 5.4 3.6
(a) Undetectable: 0; low: 1-499 CFU/[m.sup.3]; medium: 500-999
CFU/[m.sup.3]; high: [greater than or equal to] 1,000 CFU/[m.sup.3].
(b) p-Values for [chi square] tests. (c) Data from questionnaire
administered at the infant's first birthday (n = 819).
Table 3. Unadjusted associations estimated as RRs and 95% CIs between
measured mold, reported mold, and respiratory symptoms of 880 infants
(Connecticut and western Massachusetts, 1998-2000).
Persistent cough Wheeze
Factor No. RR (95% CI) RR (95% CI)
Measured mold (a)
Penicillium
Undetectable (R) 52
Low 300 1.07 (0.86-1.34) 1.06 (0.82-1.36)
Medium 21 1.67 (0.96-2.93) 1.10 (0.51-2.34)
High 36 1.84 (1.22-2.80) * 2.46 (1.63-3.70) *
Cladosporium
Undetectable (R) 335
Low 396 1.17 (0.92-1.47) 1.12 (0.87-1.45)
Medium 88 1.62 (1.17-2.24) * 1.07 (0.71-1.61)
High 61 0.75 (0.45-1.24) 0.83 (0.50-1.40)
"Other" mold (b)
Undetectable (R) 339
Low 421 1.24 (1.00-1.54) 1.31 (1.00-1.63)
Medium 36 0.78 (0.42-1.45) 1.13 (0.63-2.03)
High 22 1.14 (0.60-2.16) 0.88 (0.39-1.98)
Reported mold (c)
No (R) 644
Yes 174 1.49 (1.18-1.88) * 1.23 (0.94-1.61)
R, reference category.
(a) Undetectable: 0 CFU/[m.sup.3]; low: 1-499 CFU/[m.sup.3]; medium:
500-999 CFU/[m.sup.3]; high: [greater than or equal to] 1,000
CFU/[m.sup.3]. (b) "Other" mold defined as total spore counts minus
counts for Penicillium, Cladosporium, and yeast. (c) Data from
questionnaire administered at the infant's first birthday (n = 819).
* p < 0.05.
Table 4. Estimates of RRs and 95% CIs from Poisson regression models
for measured mold related to wheeze and persistent cough in the first
year of life adjusted for socioeconomic factors and housing
characteristics (a) (Connecticut and western Massachusetts, 1998-2000).
Model for
persistent cough Model for wheeze
Factor RR (95% CI) RR (95% CI)
Measured mold (b)
Penicillium
Undetectable (R)
Low 1.01 (0.80-1.28) 1.11 (0.87-1.42)
Medium 1.62 (0.93-2.82) 1.29 (0.65-1.48)
High 2.06 (1.31-3.24) * 2.15 (1.34-3.46) *
Cladosporium
Undetectable (R)
Low 1.03 (0.79-1.35) 0.92 (0.69-1.22)
Medium 1.45 (0.99-2.12) 0.95 (0.61-1.49)
High 0.72 (0.42-1.24) 0.91 (0.53-1.56)
"Other" mold (c)
Undetectable (R)
Low 1.05 (0.83-1.33) 0.97 (0.75-1.26)
Medium 0.78 (0.42-1.45) 0.91 (0.49-1.68)
High 1.18 (0.63-2.21) 1.02 (0.49-2.11)
Season of mold sample
Summer (R)
Fall 0.85 (0.64-1.13) 1.00 (0.73-1.38)
Winter 0.75 (0.54-1.02) 0.87 (0.59-1.29)
Spring 0.74 (0.53-1.08) 0.81 (0.57-1.15)
Water leaks 1.17 (0.91-1.49) 1.18 (0.90-1.55)
Humidifier use 1.26 (1.01-1.56) * 1.41 (1.11-1.79) *
Dehumidifier use 0.80 (0.61-1.04) 0.83 (0.61-1.13)
Mother has asthma 1.49 (1.20-1.85) * 1.40 (1.10-1.78) *
Mother's education level
(years)
< 12 1.33 (0.92-1.91) 1.87 (1.25-2.80) *
12-15 1.06 (0.83-1.36) 1.20 (0.90-1.60)
>15 (R)
Smoking in the home 0.75 (0.53-1.08) 0.88 (0.62-1.25)
Heating system
Forced air (R)
Steam/hot water 0.89 (0.68-1.15)
Electric 1.30 (0.93-1.82)
Other 0.43 (0.15-1.19)
Male infant 1.60 (1.26-2.02) *
Mother has allergies 1.23 (0.97-1.58)
Multifamily home 1.50 (1.10-2.02) *
R, reference category.
(a) Outcome data were entered into the model as the number of days of
symptoms relative to the number of days the infant was under
observation. Two additional variables (ethnicity and use of air
conditioners) were included in initial models predicting rates of
wheeze and persistent cough, but both were eliminated and neither had
confounding effects on the remaining variables. (b) Undetectable: 0;
low: 1-499 CFU/[m.sup.3]; medium: 500-999 CFU/[m.sup.3]; high:
[greater than or equal to] 1,000 CFU/[m.sup.3]. (c) "Other" mold
defined as total spore count minus counts for Penicillium,
Cladosporium, and yeast. * p < 0.05.
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Of or relating to pediatrics. and Environmental Epidemiology epidemiology, field of medicine concerned with the study of epidemics, outbreaks of disease that affect large numbers of people. Epidemiologists, using sophisticated statistical analyses, field investigations, and complex laboratory techniques, investigate the cause , Department of Epidemiology and Public Health, Yale University School of Medicine, New Haven New Haven, city (1990 pop. 130,474), New Haven co., S Conn., a port of entry where the Quinnipiac and other small rivers enter Long Island Sound; inc. 1784. Firearms and ammunition, clocks and watches, tools, rubber and paper products, and textiles are among the many , Connecticut, USA, (2) New York State Department of Health, Albany, New York For other uses, see Albany. Albany is the capital of the State of New York and the county seat of Albany County. Albany lies 136 miles (219 km) north of New York City, and slightly to the south of the juncture of the Mohawk and Hudson Rivers. , USA Address correspondence to J.F. Gent, Yale Center for Perinatal, Pediatric and Environmental Epidemiology, One Church Street, 6th Floor, New Haven, CT 06510 USA. Telephone: (203) 764-9375. Fax: (203) 764-9378. E-mail: janneane.gent@yale.edu We thank the 1,002 families who permitted us to conduct airborne mold sampling in their homes, and the hospitals from which our study population was selected: Yale-New Haven, Danbury, Bridgeport, and Hartford (CT), and Bay State (MA). This work was supported by grants ES07456 and ES05410 from the 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. . Received 12 April 2002; accepted 26 July 2002. |
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