Indoor Air, international journal of indoor environment and helth
Airborne fungal cell fragments in homes in relation to total fungal biomass.
A. Adhikan, T. Reponen, R. Rylander, 2013
Indoor and Built Environment 2012
Nocturnal asthma and domestic exposure to fungi.
M. Terčelj, B. Salobir, Z. Narancsik, K. Kriznar, T. Romcevic, T. Matos, R. Rylander, 2012
Open Journal of Preventive Medicine
Enzyme measurements for risk evaluations in sewage treatment plants.
R. Rylander, A. Calo, 2012.
Environmental Technology Verification (ETV) program (2011)
Assessment of the Bacterial Contamination and Remediation Efficacy After Flooding Using Fluorometric Detection.
M. Reeslev, J.C. Nielsen, L. Rogers, 2011.
Pre and Post Occupancy Evaluations for New Buildings.
P. Buckmaster, 2011
Proceedings of Indoor Air Conference, Austin Texas
Aggressive sampling, improving the predictive value of air sampling for fungal aerosols.
M. Reeslev, M. Miller, JC Nielsen, L Rogers, 2011
Fungal exposure in homes of patients with sarcoidosis - an environmental exposure study.
M. Terčelj, B. Salobir, R. Rylander, 2011.
Harvard University, Journal of Microbiological Methods
Fluorometric detection and estimation of fungal biomass on cultural heritage materials.
R. Mitchell, 2010.
Journal of Environmental Monitoring
Airborne enzyme measurements to detect indoor mould exposure.
R. Rylander, 2010.
The Annals of Occupational Hygiene
Airborne Fungal and Bacterial Components in PM1 Dust from Biofuel Plants.
A. M. Madsen, 2009
Occupational Health and Safety
CASE STUDY INDUSTRIAL HYGIENE: Successful Mould Growth Remediation in HVAC Systems.
P. Buckmaster, January 2008.
Applied and Environmental Microbiology. American Society for Microbiology.
Quantifying Mold Biomass on Gypsum Board: Comparison of Ergosterol and Beta-N-Acetylhexosaminidase as Mold Biomass Parameters.
M. Reeslev, M. Miller, K.F. Nielsen, 2003.
National Institute of Occupational Health, Copenhagen. Aerobiologia.
NAGase Activity in airborne biomass dust and relationship between NAGase concentrations and fungal spores.
A. M. Madsen, 2003.
Applied Occupational and Environmental Hygiene
Application of a Fluorometric Method for the Detection of Mould in Indoor Environments.
D. Krause, 2003
Proceedings of Healthy Buildings, Copenhagen
The Mycometer®-Test: A new rapid method for detection and quantification of mould in buildings.
M. Reeslev and M. Miller, 2000
Department of General Microbiology, University of Copenhagen
The Use of Fluorogenic Substrates to Measure Fungal Presence and Activity in Soil.
M. Miller, A. Palojärvi, A. Rangger, M. Reeslev, A. Kjøller, 1998