Dampness And Mold Exposure In Buildings As A Risk Factor For Health Effects

This study aims to review existing studies on the relations between indoor dampness and mould in different public occupied buildings with the risk of adverse health effects among both children and adults. This study specifically focused on the dampness-related problems from countries with tropical climate. A systematic literature search of ScienceDirect, PubMed, Google Scholar and Wiley Online Library from 2000 through December 2015 was conducted. Furthermore, the reference lists of recent reviews and of relevant articles were identified in our search. Cross-sectional, case-control, and cohort studies in children or adults were selected according to a priori criteria. The search yielded a total of 18 studies on damp buildings, dampness and mould in buildings and indoor mould. Dampness and mould exposure in buildings is a risk factors for respiratory symptoms, wheeze, cough, bronchitis, rhinitis, eczema and upper respiratory tract infection as well as general symptoms such as headache and tiredness. Evident strongly suggested increased asthma development and exacerbation of current or ever diagnosis of asthma in children. Based on the results of the review, indoor dampness and mould problems in buildings are associated with substantial and increases in prevalence of a variety of respiratory and asthma-related health outcomes.

Dampness And Mold Exposure In Buildings As A Risk Factor For Health Effects

@#This study aims to review existing studies on the relations between indoor dampness and mould in different public occupied buildings with the risk of adverse health effects among both children and adults. This study specifically focused on the dampness-related problems from countries with tropical climate. A systematic literature search of ScienceDirect, PubMed, Google Scholar and Wiley Online Library from 2000 through December 2015 was conducted. Furthermore, the reference lists of recent reviews and of relevant articles were identified in our search. Crosssectional, case-control, and cohort studies in children or adults were selected according to a priori criteria. The search yielded a total of 18 studies on damp buildings, dampness and mould in buildings and indoor mould. Dampness and mould exposure in buildings is a risk factors for respiratory symptoms, wheeze, cough, bronchitis, rhinitis, eczema and upper respiratory tract infection as well as general symptoms such as headache and tiredness. Evident strongly suggested increased asthma development and exacerbation of current or ever diagnosis of asthma in children. Based on the results of the review, indoor dampness and mould problems in buildings are associated with substantial and increases in prevalence of a variety of respiratory and asthma-related health outcomes.

Respiratory Health among Korean Pupils in Relation to Home, School and Outdoor Environment

There are few studies about school-environment in relation to pupils' respiratory health, and Korean school-environment has not been characterized. All pupils in 4th grade in 12 selected schools in three urban cities in Korea received a questionnaire (n = 2,453), 96% participated. Gaseous pollutants and ultrafine particles (UFPs) were measured indoors (n = 34) and outdoors (n = 12) during winter, 2004. Indoor dampness at home was investigated by the questionnaire. To evaluate associations between respiratory health and environment, multiple logistic- and multi-level regression models were applied adjusting for potential confounders. The mean age of pupils was 10 yr and 49% were boys. No school had mechanical ventilation and CO2-levels exceeded 1,000 ppm in all except one of the classrooms. The indoor mean concentrations of SO2, NO2, O3 and formaldehyde were 0.6 microg/m3, 19 microg/m3, 8 microg/m3 and 28 microg/m3, respectively. The average level of UFPs was 18,230 pt/cm3 in the classrooms and 16,480 pt/cm3 outdoors. There were positive associations between wheeze and outdoor NO2, and between current asthma and outdoor UFPs. With dampness at home, pupils had more wheeze. In conclusion, outdoor UFPs and even low levels of NO2 may adversely contribute to respiratory health in children. High CO2-levels in classrooms and indoor dampness/mold at home should be reduced.