about
Epoxy composite dusts with and without carbon nanotubes cause similar pulmonary responses, but differences in liver histology in mice following pulmonary depositionEffects of airflow and changing humidity on the aerosolization of respirable fungal fragments and conidia of Botrytis cinereaOccupational exposure levels of bioaerosol components are associated with serum levels of the acute phase protein Serum Amyloid A in greenhouse workersGeneration and Characterization of Indoor Fungal Aerosols for Inhalation StudiesParticle-induced pulmonary acute phase response correlates with neutrophil influx linking inhaled particles and cardiovascular riskSeasonal variations of indoor microbial exposures and their relation to temperature, relative humidity, and air exchange rateAirborne fungal and bacterial components in PM1 dust from biofuel plantsExposure to bioaerosols during the growth season of tomatoes in an organic greenhouse using Supresivit (Trichoderma harzianum) and Mycostop (Streptomyces griseoviridis).Effects of lung exposure to carbon nanotubes on female fertility and pregnancy. A study in mice.Factors affecting vegetable growers' exposure to fungal bioaerosols and airborne dust.Type 1 sensitisation against a Steinernema feltiae productOrganic dust toxic syndrome at a grass seed plant caused by exposure to high concentrations of bioaerosols.Assessment of airborne bacteria and noroviruses in air emission from a new highly-advanced hospital wastewater treatment plant.Waste Workers' Exposure to Airborne Fungal and Bacterial Species in the Truck Cab and During Waste Collection.Exposure to dust and endotoxin of employees in cucumber and tomato nurseries.No cytotoxicity or genotoxicity of graphene and graphene oxide in murine lung epithelial FE1 cells in vitro.Assessment of the total inflammatory potential of bioaerosols by using a granulocyte assay.Pulmonary illness as a consequence of occupational exposure to shrimp shell powder.Cardiovascular and lung function in relation to outdoor and indoor exposure to fine and ultrafine particulate matter in middle-aged subjects.Inflammatory potency of dust from the indoor environment and correlation to content of NAGase and fungi.Sensitisation to common allergens and respiratory symptoms in endotoxin exposed workers: a pooled analysis.Exposure to airborne microbial components in autumn and spring during work at Danish biofuel plants.Airborne endotoxin associated with particles of different sizes and affected by water content in handled straw.Concentrations of Staphylococcus species in indoor air as associated with other bacteria, season, relative humidity, air change rate, and S. aureus-positive occupants.Attempts to reduce exposure to fungi, β-glucan, bacteria, endotoxin and dust in vegetable greenhouses and a packaging unit.Sampling of high amounts of bioaerosols using a high-volume electrostatic field sampler.Transmission of Methicillin-Resistant Staphylococcus aureus to Human Volunteers Visiting a Swine Farm.No apparent transmission of livestock-associated methicillin-resistant Staphylococcus aureus CC398 in a survey of staff at a regional Danish hospital.Allergy and respiratory health effects of dampness and dampness-related agents in schools and homes: a cross-sectional study in Danish pupils.Chronic lipopolysaccharide infusion fails to induce depressive-like behaviour in adult male rats.Evaluation of air samplers and filter materials for collection and recovery of airborne norovirus.Does the use of biofuels affect respiratory health among male Danish energy plant workers?Determinants of house dust, endotoxin, and β-(1→3)-D-glucan in homes of Danish children.Change in airway inflammatory markers in Danish energy plant workers during a working week.Occupational Exposure to Bioaerosols in Norwegian Crab Processing Plants.Exposure and preventive measure to reduce high and daily exposure to Bacillus thuringiensis in potted plant production.Dust, endotoxin, fungi, and bacteria exposure as determined by work task, season, and type of plant in a flower greenhouseAirborne MRSA and Total Staphylococcus aureus as Associated With Particles of Different Sizes on Pig FarmsPhysical-chemical and microbiological characterization, and mutagenic activity of airborne PM sampled in a biomass-fueled electrical production facilityExposure to Airborne Noroviruses and Other Bioaerosol Components at a Wastewater Treatment Plant in Denmark
P50
Q28383066-BCB7D084-2132-4386-8474-6318CDD529C2Q28384093-DAC7D232-85F6-4B67-89EA-DB205E817110Q28384561-85EC079A-F931-418A-AEEF-71D0843B41B5Q28384905-4FDB3E62-7CB9-491B-9F89-C7342B059EB8Q28386194-A8A1B1DA-6845-4484-A303-043C59E2F8BAQ28390961-D287FA9D-0714-4190-8BFF-98E51214F471Q28391427-6BC52E06-D179-4FF8-83D2-6DC66083CF5EQ33630212-C0997D92-CC98-41E5-9B91-615FA5FA3BC6Q34743173-3F199FAF-ACBD-4B53-98BA-9FA936D3E45FQ35751517-DC28BC9C-B7CD-4321-8458-B7EA7B89D92BQ35976206-47DFD5BE-CEB9-447E-A71E-B5893B8DE235Q36151436-B2DE5567-031F-4E86-9C50-17AABCE079D7Q36268371-88050E02-9DF9-4CE5-AC80-2746463099B3Q37025468-8C25D894-667D-4711-9758-AFA59C755FF9Q37116771-922236B6-49C5-422C-8AA9-6718BD68EDC4Q37375557-144577D8-4D93-4F1D-8EB4-02883242008AQ37477338-4009475B-93DF-4163-B437-3E2CBEB31F37Q39792216-48826888-7377-4595-8FA3-DA16722CC16BQ40223039-3039FDD7-6C64-49E0-8478-E8B920A254B4Q40239880-0A23C708-70BC-429C-B41A-1F8EC878A882Q40307578-02C60D8C-DE31-47CB-81B0-33342E1EE95CQ43020769-4AB4FE7E-3569-428B-BE3A-E98B95FE7437Q43110793-B4C231E7-F0FD-4ABA-9E93-CC61DC1DD4FFQ46284497-E32F1E38-367F-483B-BEFB-C07C2A24AF21Q46395040-B0B4BDA3-7775-4772-A36F-40DEF0346128Q46713690-1C996523-C1A9-4DF2-92EF-2EA02E4A702AQ47110360-DE43A620-0C67-4F32-8AF8-C00653872BFFQ47110600-6FC3710C-FEEF-4179-830F-D713F619C99AQ47946847-D90B1CF6-7EF3-471C-A233-6B55487CBCE1Q48112108-F9CB23AD-8D0D-41D0-AC54-22269593D92CQ50044936-F133E384-7F81-4F41-B205-1C141C72681BQ50552406-E6A9416B-1196-4A5D-8BD1-99CE21260864Q50562025-28080E8F-8122-4139-BDF9-FE09BD988C6BQ50562689-70EF782F-EB6A-42BE-9F57-60968775BAF3Q51516619-1E2A25D3-828B-4B9D-A7C2-7109288454E2Q54206845-8C626761-9BF5-4429-90E6-3DED6CE0040FQ57112056-4CF45746-C1F4-4ECF-A0AE-E05AAF47CD44Q57461361-5D3354B1-874E-464C-B79C-901F5A5A2AFCQ57555143-4F063E87-BD77-4BD2-B359-DC2F74604EBEQ59678223-184C9F85-B512-4A94-ABAF-E50B2F37ADCC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Anne Mette Madsen
@ast
Anne Mette Madsen
@en
Anne Mette Madsen
@es
Anne Mette Madsen
@nl
type
label
Anne Mette Madsen
@ast
Anne Mette Madsen
@en
Anne Mette Madsen
@es
Anne Mette Madsen
@nl
prefLabel
Anne Mette Madsen
@ast
Anne Mette Madsen
@en
Anne Mette Madsen
@es
Anne Mette Madsen
@nl
P106
P1153
55080902600
P31
P496
0000-0002-5895-7521