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Prevalence and residential determinants of fungi within homes in Melbourne, Australia

Dharmage, S., Bailey, M., Raven, J., Mitakakis, T., Thien, F., Forbes, A., Guest, D., Abramson, M. and Walters, E.H
1999
Clinical And Experimental Allergy, 29 (11): 1481-1489
ergosterol, fungi, house dust mites, indoor allergens, indoor environment


Dharmage, S., Bailey, M., Raven, J., Mitakakis, T., Thien, F., Forbes, A., Guest, D., Abramson, M. and Walters, E.H, (1999), "Prevalence and residential determinants of fungi within homes in Melbourne, Australia", Clinical And Experimental Allergy, 29 (11): 1481-1489.
Abstract:

Background: Recent epidemiological studies suggest that the adverse respiratory health effects caused by the inhalation of fungal propagules are substantial. Knowledge of the prevalence and environmental determinants of indoor fungal levels is essential in designing effective avoidance measures.

Aim To investigate the prevalence of fungi and the influence of residential characteristics on levels of fungi within homes in Melbourne, Australia.

Methods Floor dust and air samples were collected from bedrooms in 485 houses over 1 year. The dust was analysed for ergosterol, a marker of cumulative fungal biomass exposure. Total and genera-specific fungal propagules were identified in air samples. Details of the relevant residential characteristics were documented using a questionnaire. Independent predictors (P < 0.05) of ergosterol and total fungal propagules were identified by multiple linear regression.

Results Fifty-five percent of the houses had viable fungal propagules exceeding 500 CFU/m(3). Cladosporium and Penicillium were identified as the most prevalent and abundant fungal genera in indoor air. The median ergosterol level in bedroom floor was 3.8 mu g/g of dust. Multivariate analysis showed that total fungal propagules in indoor air were lower in bedrooms with a ceiling fan, without visible mould, and those that were more frequently vacuumed, had a solid fuel fire, had windows closed at the time of the sampling or lacked pets. The presence of more than one cat had the greatest effect on total fungal propagules. Ergosterol levels were significantly lower in homes without old fitted carpets, visible mould or pets and those with frequent airing and regular use of an extractor fan in the kitchen. Old wall-to-wall carpets had the greatest effect on ergosterol.

Conclusions High indoor fungal exposures were associated with infrequent ventilation or vacuuming, presence of pets, visible mould and old carpets.


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Author Information and Other Publications Notes
Dharmage, S.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure
  2. Residential characteristics predict changes in Der p 1, Fel d 1 and ergosterol but not fungi over time  
Bailey, M.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure  
Raven, J.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure  
Mitakakis, T.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure
  2. Reliability of measures of spores of Alternaria and pollen concentrations in air over two towns in rural Australia  
Thien, F.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure  
Forbes, A.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure
  2. Residential characteristics predict changes in Der p 1, Fel d 1 and ergosterol but not fungi over time  
Guest, D.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure  
Abramson, M.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure
  2. Indoor airborne fungal spores, house dampness and associations with environmental factors and respiratory health in children  
Walters, E. H.
  1. Current indoor allergen levels of fungi and cats, but not house dust mites, influence allergy and asthma in adults with high dust mite exposure  



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