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Cat allergen exposure at school : evaluation of sampling methods and allergen avoidance strategies /Karlsson, Anne-Sophie, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 5 uppsatser.
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Predictors of indoor dust mite and cockroach levelsBrooks, J. Mark. January 2007 (has links) (PDF)
Thesis (Ph. D.)--University of Alabama at Birmingham, 2007. / Title from first page of PDF file (viewed June 30, 2007). Includes bibliographical references (p. 94-101).
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Indoor Allergen Exposure, DNA Methylation, and Childhood AsthmaAlamoudi, Banan 23 August 2022 (has links)
No description available.
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Indoor Environmental Quality within an Elementary School Classroom: Measurements of <em>Felis domesticus</em> I, <em>Dermatophagoides pteronyssinus</em> I, <em>Dermatophagoides farinae</em> I, and <em>Blatella germanica</em> in CarpetingFowler, Jennifer 03 April 2009 (has links)
The United States Environmental Protection Agency acknowledges that indoor environments can impact the health of students and can affect concentration, attendance, and student performance (USEPA 2008). In a school year, children are required by the Florida Department of Education to be in school for a total of 180 days, which is 795 hours spent in a classroom (FLDOE 2008). In the elementary school setting, kindergarten classes typically spend a portion of the school day with floor-based activities. The American Lung Association (ALA) states that over 6.8 million children under the age of 18 are affected by asthma (ALA 2008). Allergic reactions and/or sensitization to allergens such as dust, animal dander, and cockroaches are among triggers associated with asthma cases. Literature suggests looking at the areas where individuals spend a considerable amount of time to identify potential exposure sources. Currently, many of these studies have been done regarding the home indoor environment; however, few specifically document the concentrations in carpeting in elementary schools and the exposure time associated with floor-based activities.
The objective of this research was to quantify the concentrations of cat (Felis domesticus I), dust mite (Dermatophagoides pteronyssinus I, Dermatophagoides farinae I), and cockroach (Blatella germanica) allergens in carpeting in an elementary school kindergarten class and to document and quantify student group activities that are floor-based.
One Florida elementary school classroom was identified as the study site. A total of eight reservoir dust samples were collected during the school year to be analyzed for Felis domesticus I, Dermatophagoides pteronyssinus I, Dermatophagoides farinae I, and Blatella germanica allergens. The sampling reservoir was the carpeting used for group floor-based activities by the school children. Dust samples from the carpet were analyzed by The Johns Hopkins University Reference Laboratory for Dermatology, Allergy, and Clinical Immunology (DACI). The sample collection methodology followed the "Dust Analysis Instructions for Use" provided by the DACI laboratory, along with the "nozzle sock" sampling media. Following discussions with the kindergarten teacher regarding curriculum and scheduled classroom activities, group floor activities were identified. The kindergarten class was observed periodically throughout a school year to document and quantify classroom activities that were floor-based. The information documented includes: occupancy of classroom, occupied floor area, occupant density, and time spent on carpeting. Felis domesticus I (Fel d I) measurements ranged from 2,206 - 10,558 ng of allergen/g of settled dust, Dermatophagoides pteronyssinus I (Der p I) measurements ranged from 3,408 - 86,704 ng/g and Dermatophagoides farinae I (Der f I) measurements ranged from 704 - 6,720 ng/g, and Blatella germanica (Bla g I) measurements were below detection limits.
Based upon the DACI criteria, dust mite concentrations were moderate to high and cat concentrations were low to moderate. Kindergarten children spent approximately 38% of classroom time in floor-based activities.
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Indoor Mold Exposure and Its Relationship with Wheezing in InfantsCho, Seung-Hyun 28 September 2005 (has links)
No description available.
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Environmental factors in relation to asthma and respiratory symptoms among schoolchildren in Sweden and Korea /Kim, Jeong-Lim, January 2006 (has links)
Diss. (sammanfattning) Uppsala : Uppsala universitet, 2007. / Härtill 4 uppsatser.
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Asthma and Respiratory Symptoms in Nordic Countries, Environmental and Personal Risk FactorsGunnbjörnsdóttir, María Ingibjörg January 2006 (has links)
<p>The overall aims of our studies were to identify risk factors for respiratory symptoms and asthma in indoor environment but even to look at some personal risk factors such as body mass index and gastroesophageal reflux. The study population is based on participants of the European Community Respiratory Health Survey I and II. </p><p> In the first study, water damage and visible moulds were reported in 7.4% and 17% of the homes respectively. The combination of water damage and visible moulds was independently associated with attacks of breathlessness when resting and after activity and also to long term cough. In the second study, the prevalence of nocturnal GER increased with higher BMI and the same pattern could be seen for habitual snoring. Reported onset of asthma, wheeze and night-time symptoms increased in prevalence along with the BMI gradient. In the multivariable analysis, obesity and nocturnal GER were independent risk factors for onset of asthma, wheeze and night-time symptoms. Habitual snoring was an independent risk factor for onset of wheeze and night-time symptoms, but not for onset of asthma. In the third study, a total of 18% of the subjects reported indoor dampness in the last 12 months and 27% of the subjects reported indoor dampness since the previous survey. Respiratory symptoms and asthma were significantly more prevalent in individuals exposed to indoor dampness and indoor dampness was a risk factor for respiratory symptoms and asthma after adjusting for possible confounders. Indoor dampness was an independent risk factor for onset of respiratory symptoms but not for asthma onset. Remission of respiratory symptoms was less likely to occur if subjects reported indoor dampness. In the fourth study, the lowest prevalence of atopy and the lowest levels of all indoor allergens, bacteria and moulds were found in Iceland. A positive association was found, between cat allergen exposure and asthma symptoms and between bronchial hyperresponsiveness and the amount of viable mould in indoor air.</p>
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Asthma and Respiratory Symptoms in Nordic Countries, Environmental and Personal Risk FactorsGunnbjörnsdóttir, María Ingibjörg January 2006 (has links)
The overall aims of our studies were to identify risk factors for respiratory symptoms and asthma in indoor environment but even to look at some personal risk factors such as body mass index and gastroesophageal reflux. The study population is based on participants of the European Community Respiratory Health Survey I and II. In the first study, water damage and visible moulds were reported in 7.4% and 17% of the homes respectively. The combination of water damage and visible moulds was independently associated with attacks of breathlessness when resting and after activity and also to long term cough. In the second study, the prevalence of nocturnal GER increased with higher BMI and the same pattern could be seen for habitual snoring. Reported onset of asthma, wheeze and night-time symptoms increased in prevalence along with the BMI gradient. In the multivariable analysis, obesity and nocturnal GER were independent risk factors for onset of asthma, wheeze and night-time symptoms. Habitual snoring was an independent risk factor for onset of wheeze and night-time symptoms, but not for onset of asthma. In the third study, a total of 18% of the subjects reported indoor dampness in the last 12 months and 27% of the subjects reported indoor dampness since the previous survey. Respiratory symptoms and asthma were significantly more prevalent in individuals exposed to indoor dampness and indoor dampness was a risk factor for respiratory symptoms and asthma after adjusting for possible confounders. Indoor dampness was an independent risk factor for onset of respiratory symptoms but not for asthma onset. Remission of respiratory symptoms was less likely to occur if subjects reported indoor dampness. In the fourth study, the lowest prevalence of atopy and the lowest levels of all indoor allergens, bacteria and moulds were found in Iceland. A positive association was found, between cat allergen exposure and asthma symptoms and between bronchial hyperresponsiveness and the amount of viable mould in indoor air.
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