about
A Novel Method and Its Application to Measuring Pathogen Decay in Bioaerosols from Patients with Respiratory DiseaseChild and Adolescent Health From 1990 to 2015: Findings From the Global Burden of Diseases, Injuries, and Risk Factors 2015 Study.Global, regional, and national levels and causes of maternal mortality during 1990-2013: a systematic analysis for the Global Burden of Disease Study 2013.Linking In-Vehicle Ultrafine Particle Exposures to On-Road Concentrations.Indigenous health and environmental risk factors: an Australian problem with global analogues?The Dose-Response Association between Nitrogen Dioxide Exposure and Serum Interleukin-6 Concentrations.Viability of Pseudomonas aeruginosa in cough aerosols generated by persons with cystic fibrosis.Application of multi-metric approach to characterization of particle emissions from nanotechnology and non-nanotechnology processes.Long-term ambient air pollution exposure and self-reported morbidity in the Australian Longitudinal Study on Women's Health: a cross-sectional studyMicrobial contents of vacuum cleaner bag dust and emitted bioaerosols and their implications for human exposure indoorsOccupational hazards to the health of professional gardeners.Environmental contamination and hospital-acquired infection: factors that are easily overlooked.Respiratory effects of air pollution on children.Particle and bioaerosol characteristics in a paediatric intensive care unit.Sources and dynamics of fluorescent particles in hospitals.Room ventilation and the risk of airborne infection transmission in 3 health care settings within a large teaching hospital.A pilot study of traditional indoor biomass cooking and heating in rural Bhutan: gas and particle concentrations and emission rates.Higher fuel prices are associated with lower air pollution levels.A national satellite-based land-use regression model for air pollution exposure assessment in Australia.Assessing environmental inequalities in ambient air pollution across urban Australia.Independent Validation of National Satellite-Based Land-Use Regression Models for Nitrogen Dioxide Using Passive Samplers.Traffic-related air pollution exposure is associated with allergic sensitization, asthma, and poor lung function in middle age.Airborne Transmission of Viral Respiratory Pathogens. Don't Stand So Close to Me?Effect of cabin ventilation rate on ultrafine particle exposure inside automobiles.A shift from motorised travel to active transport: What are the potential health gains for an Australian city?Traffic-related air pollution exposure over a 5-year period is associated with increased risk of asthma and poor lung function in middle age.Face Masks and Cough Etiquette Reduce the Cough Aerosol Concentration of Pseudomonas aeruginosa in People with Cystic Fibrosis.Blending Multiple Nitrogen Dioxide Data Sources for Neighborhood Estimates of Long-Term Exposure for Health Research.Effects of prenatal exposure to air pollution on preeclampsia in Shenzhen, China.Long-term nitrogen dioxide exposure assessment using back-extrapolation of satellite-based land-use regression models for Australia.Traffic related air pollution and development and persistence of asthma and low lung function.Surgical Space Suits Increase Particle and Microbiological Emission Rates in a Simulated Surgical Environment.Development of a model for particulate matter pollution in Australia with implications for other satellite-based models.Cystic fibrosis pathogens survive for extended periods within cough-generated droplet nuclei.Excursion Guidance Criteria to Guide Control of Peak Emission and Exposure to Airborne Engineered ParticlesTraffic-related fine and ultrafine particle exposures of professional drivers and illness: An opportunity to better link exposure science and epidemiology to address an occupational hazard?Damp housing, gas stoves, and the burden of childhood asthma in AustraliaIs smaller worse? New insights about associations of PM1 and respiratory health in children and adolescentsThe Australian Child Health and Air Pollution Study (ACHAPS): A national population-based cross-sectional study of long-term exposure to outdoor air pollution, asthma, and lung functionLong-term exposure to low concentrations of air pollutants and hospitalisation for respiratory diseases: A prospective cohort study in Australia
P50
Q28383536-C1CD388F-124C-4C03-A874-4DA12BF62C3DQ30252707-B5F9A75C-0377-4FF8-8808-E427BBB635A1Q30409179-85CC8BE8-AFD3-428B-8933-58D33D1874B1Q30447648-0248EC2F-019B-47D6-A82F-7043966BE17EQ33554275-02B1558F-C162-40C0-B477-5A30CC37E287Q33755148-21240CB9-9BF9-4B76-AE57-10F493729AF7Q33956730-234AB0A2-5C2E-437D-AB43-B9832B9F53DBQ36120641-FAC13B3C-2334-40DF-8266-AB7D55A9C9E0Q36258753-8BAA6E1F-47A3-45BA-960C-641E20E9948CQ37263280-AA250311-19B5-4874-A3D6-47AF72389CEEQ38187162-8F8537D2-80E0-410F-B505-EE2D8146E38DQ38262847-E6C86B5F-F757-4B28-98F4-9E0539048593Q38553515-17131FFF-DDB0-45E0-9042-8EA8565049F3Q38660161-559CA412-1F80-460E-BA8A-3DD615D7C4AEQ38743769-36470D5B-15C0-49EF-A407-ABE6C2FB67ACQ39986482-028EC72A-95A1-47B0-A197-6F8E9E61BE8DQ39995878-96220951-CD56-47B3-833E-EB7A73293C86Q40172216-6B8FE213-4C56-449E-A753-F7C0604B8BBAQ40226642-448C5A19-3A16-459A-BA98-1236D044399CQ40286086-7A9389A1-AF02-4DEB-AAF5-A79E1EEC6B33Q40414696-3FC5E83A-9A48-4790-A998-FBC42DCBA504Q40627432-35FBA427-7DC5-40A5-875A-036B04D3E9F4Q42048857-126D1430-45DD-4960-AD91-B608EB148A68Q42655421-12D024FF-44F3-49EE-8FFA-49D56E66486EQ42705287-A5974DD9-E902-4F56-B378-06576AE34E98Q47629554-96A1A27D-C3DE-4160-BB7E-FD9966ACD607Q47654825-61EAE52D-073E-4F11-9591-19583005F32BQ47679106-D67A6289-8088-4296-B44D-D35531E7FE25Q50024180-383C66B9-032A-4233-9AD4-F9960E726287Q50053301-A3A47B3D-7741-45D8-A49E-63394F5AE31CQ50085700-9F483AEF-D73B-4C86-BF78-EA1818D0D9CAQ50114440-E9798884-6FF2-47F4-BCAB-1600FDA4F949Q53133755-A19096E6-170E-4254-B9DF-8E9EE0E3FDDDQ54239975-125207FB-F4DA-487F-B6C3-7C8514312EECQ57060386-AA6C4F1E-1CF7-4CFB-8448-2DE4292287AEQ57060496-95F9AD76-9F2A-4130-8116-473EFAABF3D8Q57104536-17DC7955-7CA5-4DFC-8428-AEF29C80BAB3Q58388526-C193E763-0622-421B-BA32-9E768A2C7209Q58388530-E1CCC977-E0D7-45E3-BE6A-4DFACC2F5059Q58388546-8981A0D6-AE44-4FD6-B6C2-2E052205E472
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Luke D Knibbs
@en
Luke D Knibbs
@nl
type
label
Luke D Knibbs
@en
Luke D Knibbs
@nl
prefLabel
Luke D Knibbs
@en
Luke D Knibbs
@nl
P31
P496
0000-0002-0399-2370