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1. Lung function and indicators of exposure to indoor and outdoor particulate matter among asthma and COPD patients

Author

de Hartog, J.J., Ayres, J.G., Karakatsani, A., Analitis, A., ten Brink, H., Hameri, K., Harrison, R., Katsouyanni, K., Kotronarou, A., Kavouras, I., Meddings, C., Pekkanen, J., and Hoek, G.

Subjects
Particles -- Health aspects, Particles -- Demographic aspects, Particles -- Research, Asthma -- Research, Lung diseases, Obstructive -- Research, Pulmonary function tests -- Analysis, Health
Published
2010

4. Concentration Response Functions for Ultrafine Particles and All-Cause Mortality and Hospital Admissions: Results of a European Expert Panel Elicitation

Author

Hoek, G., Boogaard, H., Knol, A.B., de Hartog, J.J., Slottje, P., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., van der Sluijs, J.P., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Sub Science, Technology & Society begr., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, and Sub Science, Technology & Society begr.

Subjects
medicine.medical_specialty, business.industry, Public health, Environmental engineering, Expert elicitation, General Chemistry, Europe, Hospitalization, Patient Admission, Group discussion, Health effect, Environmental health, Epidemiology, Ultrafine particle, medicine, Humans, Environmental Chemistry, Mortality, Particle Size, business, Health impact assessment, All cause mortality
Abstract

Toxicological studies have provided evidence of the toxicity of ultrafine particles (UFP), but epidemiological evidence for health effects of ultrafines is limited. No quantitative summary currently exists of concentration-response functions for ultrafine particles that can be used in health impact assessment. The goal was to specify concentration-response functions for ultrafine particles in urban air including their uncertainty through an expert panel elicitation. Eleven European experts from the disciplines of epidemiology, toxicology, and clinical medicine selected using a systematic peer-nomination procedure participated. Using individual ratings supplemented with group discussion, probability distributions of effect estimates were obtained for all-cause mortality and cardiovascular and respiratory hospital admissions. Experts judged the small database of epidemiological studies supplemented with experimental studies sufficient to quantify effects of UFP on all-cause mortality and to a lesser extent hospital admissions. Substantial differences in the estimated UFP health effect and its uncertainty were found between experts. The lack of studies on long-term exposure to UFP was rated as the most important source of uncertainty. Effects on hospital admissions were considered more uncertain. This expert elicitation provides the first quantitative evaluation of estimates of concentration response functions between urban air ultrafine particles and all-cause mortality and hospital admissions.

Published
2009
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5. Association between exhaled breath condensate nitrate + nitrite levels with ambient coarse particle exposure in subjects with airways disease

Author

Manney, S. Meddings, C.M. Harrison, R.M. Mansur, A.H. Karakatsani, A. Analitis, A. Katsouyanni, K. Perifanou, D. Kavouras, I.G. Kotronarou, N. De Hartog, J.J. Pekkanen, J. Hämeri, K. Ten Brink, H. Hoek, G. Ayres, J.G.

Subjects
respiratory tract diseases
Abstract

Objectives: Studies of individual inflammatory responses to exposure to air pollution are few but are important in defining the most sensitive markers in better understanding pathophysiological pathways in the lung. The goal of this study was to assess whether exposure to airborne particles is associated with oxidative stress in an epidemiological setting. Methods: The authors assessed exposure to particulate matter air pollution in four European cities in relation to levels of nitrite plus nitrate (NOx) in exhaled breath condensate (EBC) measurements in 133 subjects with asthma or chronic obstructive pulmonary disease using an EBC capture method developed for field use. In each subject, three measurements were collected. Exposure measurements included particles smaller than 10 μm (PM 10), smaller than 2.5 μm (PM 2.5) and particle number counts at a central site, outdoors near the subject's home and indoors. Results: There were positive and significant relationships between EBC NOx and coarse particles at the central sampling sites (increase of 20.4% (95% CI 6.1% to 36.6%) per 10 μg/m 3 increase of coarse particles of the previous day) but not between EBC NOx and other particle measures. Associations tended to be stronger in subjects not taking steroid medication. Conclusions: An association was found between exposure to ambient coarse particles at central sites and EBC NOx, a marker of oxidative stress. The lack of association between PM measures more indicative of personal exposures (particularly indoor exposure) means interpretation should be cautious. However, EBC NOx may prove to be a marker of PM-induced oxidative stress in epidemiological studies.

Published
2012

6. Particulate matter air pollution and respiratory symptoms in individuals having either asthma or chronic obstructive pulmonary disease: A European multicentre panel study

Author

Karakatsani, A. Analitis, A. Perifanou, D. Ayres, J.G. Harrison, R.M. Kotronarou, A. Kavouras, I.G. Pekkanen, J. Hämeri, K. Kos, G.P. De Hartog, J.J. Hoek, G. Katsouyanni, K.

Abstract

Background: Particulate matter air pollution has been associated with adverse health effects. The fraction of ambient particles that are mainly responsible for the observed health effects is still a matter of controversy. Better characterization of the health relevant particle fraction will have major implications for air quality policy since it will determine which sources should be controlled. The RUPIOH study, an EU-funded multicentre study, was designed to examine the distribution of various ambient particle metrics in four European cities (Amsterdam, Athens, Birmingham, Helsinki) and assess their health effects in participants with asthma or COPD, based on a detailed exposure assessment. In this paper the association of central site measurements with respiratory symptoms and restriction of activities is examined. Methods. At each centre a panel of participants with either asthma or COPD recorded respiratory symptoms and restriction of activities in a diary for six months. Exposure assessment included simultaneous measurements of coarse, fine and ultrafine particles at a central site. Data on gaseous pollutants were also collected. The associations of the 24-hour average concentrations of air pollution indices with the health outcomes were assessed in a hierarchical modelling approach. A city specific analysis controlling for potential confounders was followed by a meta-analysis to provide overall effect estimates. Results: A 10 g/m3 increase in previous day coarse particles concentrations was positively associated with most symptoms (an increase of 0.6 to 0.7% in average) and limitation in walking (OR= 1.076, 95% CI: 1.026-1.128). Same day, previous day and previous two days ozone concentrations were positively associated with cough (OR= 1.061, 95% CI: 1.013-1.111; OR= 1.049, 95% CI: 1.016-1.083 and OR= 1.059, 95% CI: 1.027-1.091, respectively). No consistent associations were observed between fine particle concentrations, nitrogen dioxide and respiratory health effects. As for particle number concentrations negative association (mostly non-significant at the nominal level) was observed with most symptoms whilst the positive association with limitation of activities did not reach the nominal level of significance. Conclusions: The observed associations with coarse particles are in agreement with the findings of toxicological studies. Together they suggest it is prudent to regulate also coarse particles in addition to fine particles. © 2012 Karakatsani et al.; licensee BioMed Central Ltd.

Published
2012

7. Particulate matter air pollution and respiratory symptoms in individuals having either asthma or chronic obstructive pulmonary disease: a European multicentre panel study

Author

Karakatsani, A., Analitis, A., Perifanou, D., Ayres, J.G., Harrison, R.M., Kotronarou, A., Pekkanen, J., Hameri, K., Kos, G.P.A., de Hartog, J.J., Hoek, G., Katsouyanni, K., Risk Assessment of Toxic and Immunomodulatory Agents, and Dep IRAS

Abstract

BACKGROUND: Particulate matter air pollution has been associated with adverse health effects. The fraction of ambient particles that are mainly responsible for the observed health effects is still a matter of controversy. Better characterization of the health relevant particle fraction will have major implications for air quality policy since it will determine which sources should be controlled.The RUPIOH study, an EU-funded multicentre study, was designed to examine the distribution of various ambient particle metrics in four European cities (Amsterdam, Athens, Birmingham, Helsinki,) and assess their health effects in participants with asthma or COPD, based on a detailed exposure assessment. In this paper the association of central site measurements with respiratory symptoms and restriction of activities is examined. METHODS: At each centre a panel of participants with either asthma or COPD recorded respiratory symptoms and restriction of activities in a diary for six months. Exposure assessment included simultaneous measurements of coarse, fine and ultrafine particles at a central site. Data on gaseous pollutants were also collected. The associations of the 24-hour average concentrations of air pollution indices with the health outcomes were assessed in a hierarchical modelling approach. A city specific analysis controlling for potential confounders was followed by a meta-analysis to provide overall effect estimates. RESULTS: A 10 mug/m3 increase in previous day coarse particles concentrations was positively associated with most symptoms (an increase of 0.6 to 0.7% in average) and limitation in walking (OR= 1.076, 95% CI: 1.026-1.128). Same day, previous day and previous two days ozone concentrations were positively associated with cough (OR= 1.061, 95% CI: 1.013-1.111; OR= 1.049, 95% CI: 1.016-1.083 and OR= 1.059, 95% CI: 1.027-1.091, respectively). No consistent associations were observed between fine particle concentrations, nitrogen dioxide and respiratory health effects. As for particle number concentrations negative association (mostly non-significant at the nominal level) was observed with most symptoms whilst the positive association with limitation of activities did not reach the nominal level of significance. CONCLUSIONS: The observed associations with coarse particles are in agreement with the findings of toxicological studies. Together they suggest it is prudent to regulate also coarse particles in addition to fine particles.

Published
2012

8. Lung function and indicators of exposure to indoor and outdoor particulate matter among asthma and COPD patients

Author

De Hartog, J.J. Ayres, J.G. Karakatsani, A. Analitis, A. Ten Brink, H. Hameri, K. Harrison, R. Katsouyanni, K. Kotronarou, A. Kavouras, I. Meddings, C. Pekkanen, J. Hoek, G.

Subjects
respiratory tract diseases
Abstract

Objectives: Misclassification of exposure related to the use of central sites may be larger for ultrafine particles than for particulate matter ≤2.5 μm and ≤10 mm (PM2.5 and PM10) and may result in underestimation of health effects. This paper describes the relative strength of the association between outdoor and indoor exposure to ultrafine particles, PM2.5 and PM10 and lung function. Methods: In four European cities (Helsinki, Athens, Amsterdam and Birmingham), lung function (forced vital capacity (FVC), forced expiratory volume in 1 second (FEV 1) and peak expiratory flow (PEF)) was measured three times a day for 1 week in 135 patients with asthma or chronic obstructive pulmonary disease (COPD), covering study periods of >1 year. Daily concentrations of particle number, PM2.5 and PM10 were measured at a central site in each city and both inside and outside the subjects' homes. Results: Daily average particle number concentrations ranged between 2100 and 66 100 particles/cm3. We found no association between 24 h average particle number or particle mass concentrations and FVC, FEV1 and PEF. Substituting home outdoor or home indoor concentrations of particulate air pollution instead of the central site measurements did not change the observed associations. Analyses restricted to asthmatics also showed no associations. Conclusions: No consistent associations between lung function and 24 h average particle number or particle mass concentrations were found in panels of patients with mild to moderate COPD or asthma. More detailed exposure assessment did not change the observed associations. The lack of association could be due to the high prevalence of medication use, limited ability to assess lagged effects over several days or absence of an effect.

Published
2010

9. Lung function and indicators of exposure to indoor and outdoor particulate matter among asthma and COPD patients

Author

de Hartog, J.J., Ayres, J.G., Karakatsani, A., Analitis, A., ten Brink, H., Hameri, K., Harrison, R., Katsouyanni, K., Kotronarou, A., Kavouras, I., Meddings, C., Pekkanen, J., Hoek, G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Risk Assessment of Toxic and Immunomodulatory Agents, and Dep IRAS

Subjects
Adult, Male, Vital capacity, medicine.medical_specialty, Particle number, Vital Capacity, Peak Expiratory Flow Rate, FEV1/FVC ratio, Pulmonary Disease, Chronic Obstructive, Environmental health, Air Pollution, Forced Expiratory Volume, Ultrafine particle, medicine, Humans, Cities, Particle Size, Finland, Exposure assessment, Asthma, Aged, Netherlands, Aged, 80 and over, COPD, Air Pollutants, Inhalation Exposure, Greece, business.industry, Public Health, Environmental and Occupational Health, Particulates, Middle Aged, medicine.disease, Surgery, respiratory tract diseases, Respiratory Function Tests, England, Air Pollution, Indoor, Female, Particulate Matter, business
Abstract

OBJECTIVES: Misclassification of exposure related to the use of central sites may be larger for ultrafine particles than for particulate matter 1 year. Daily concentrations of particle number, PM(2.5) and PM(10) were measured at a central site in each city and both inside and outside the subjects' homes. RESULTS: Daily average particle number concentrations ranged between 2100 and 66 100 particles/cm(3). We found no association between 24 h average particle number or particle mass concentrations and FVC, FEV(1) and PEF. Substituting home outdoor or home indoor concentrations of particulate air pollution instead of the central site measurements did not change the observed associations. Analyses restricted to asthmatics also showed no associations. CONCLUSIONS: No consistent associations between lung function and 24 h average particle number or particle mass concentrations were found in panels of patients with mild to moderate COPD or asthma. More detailed exposure assessment did not change the observed associations. The lack of association could be due to the high prevalence of medication use, limited ability to assess lagged effects over several days or absence of an effect.

Published
2009

10. Expert elicitation on health effects related to exposure to ultrafine particles: likelihood of causality

Author

de Hartog, J.J., Knol, A.B., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, and Dep Scheikunde

Subjects
Taverne
Abstract

Background: Exposure to fine ambient particulate matter (PM) has consistently been associated with increased morbidity and mortality. The relationship between exposure to ultrafine particles (UFP) and health effects is less firmly established. If UFP cause health effects independently from coarser fractions, this could affect health impact assessment of air pollution, which would possibly lead to alternative policy options to be considered to reduce the disease burden of PM. Therefore, we organized an expert elicitation workshop to assess the evidence for a causal relationship between exposure to UFP and health endpoints. Methods: An expert elicitation on the health effects of ambient ultrafine particle exposure was carried out, focusing on: 1) the likelihood of causal relationships with key health endpoints, and 2) the likelihood of potential causal pathways for cardiac events. Based on a systematic peernomination procedure, fourteen European experts (epidemiologists, toxicologists and clinicians) were selected, of whom twelve attended. They were provided with a briefing book containing key literature. After a group discussion, individual expert judgments in the form of ratings of the likelihood of causal relationships and pathways were obtained using a confidence scheme adapted from the one used by the Intergovernmental Panel on Climate Change.

Published
2009

11. Associations between PM2.5 and heart rate variability are modified by particle composition and beta-blocker use in patients with coronary heart disease

Author

de Hartog, J.J., Lanki, T., Timonen, K.L., Hoek, G., Janssen, N.A.H., Ibald-Mulli, A., Peters, A., Heinrich, J., Tarkiainen, T., Van Grieken, R., van Wijnen, J.H., Brunekreef, B., Pekkanen, J., Risk Assessment of Toxic and Immunomodulatory Agents, and Dep IRAS

Subjects
complex mixtures, circulatory and respiratory physiology
Abstract

BACKGROUND: It has been hypothesized that ambient particulate air pollution is able to modify the autonomic nervous control of the heart, measured as heart rate variability (HRV). Previously we reported heterogeneous associations between particulate matter with aerodynamic diameter

Published
2009

12. Dependence of home outdoor particulate mass and number concentrations on residential and traffic features in urban areas

Author

Lianou, M. Chalbot, M.-C. Kotronarou, A. Kavouras, I.G. Karakatsani, A. Katsouyanni, K. Puustinnen, A. Hameri, K. Vallius, M. Pekkanen, J. Meddings, C. Harrison, R.M. Thomas, S. Ayres, J.G. Ten Brink, H. Kos, G. Meliefste, K. De Hartog, J.J. Hoek, G.

Abstract

The associations between residential outdoor and ambient particle mass, fine particle absorbance, particle number (PN) concentrations, and residential and traffic determinants were investigated in four European urban areas (Helsinki, Athens, Amsterdam, and Birmingham). A total of 152 nonsmoking participants with respiratory diseases, not exposed to occupational pollution, were included in the study, which comprised a 7-day intensive exposure monitoring period of both indoor and home outdoor particle mass and number concentrations. The same pollutants were also continuously measured at ambient fixed sites centrally located to the studied areas (fixed ambient sites). Relationships between concentrations measured directly outside the homes (residential outdoor) and at the fixed ambient sites were pollutant-specific, with substantial variations among the urban areas. Differences were more pronounced for coarse particles due to resuspension of road dust and PN, which is strongly related to traffic emissions. Less significant outdoor-to-fixed variation for particle mass was observed for Amsterdam and Birmingham, predominantly due to regional secondary aerosol. On the contrary, a strong spatial variation was observed for Athens and to a lesser extent for Helsinki. This was attributed to the overwhelming and time-varied inputs from traffic and other local sources. The location of the residence and traffic volume and distance to street and traffic light were important determinants of residential outdoor particle concentrations. On average, particle mass levels in suburban areas were less than 30% of those measured for residences located in the city center. Residences located less than 10 m from a street experienced 133% higher PN concentrations than residences located further away. Overall, the findings of this multi-city study, indicated that (1) spatial variation was larger for PN than for fine particulate matter (PM) mass and varied between the cities, (2) vehicular emissions in the residential street and location in the center of the city were significant predictors of spatial variation, and (3) the impact of traffic and location in the city was much larger for PN than for fine particle mass. Copyright 2007 Air & Waste Management Association.

Published
2007

13. Do the Health Benefits of Cycling Outweigh the Risks?

Author

de Hartog, J.J., Boogaard, H., Nijland, H., Hoek, G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Risk Assessment of Toxic and Immunomodulatory Agents, and Dep IRAS

Subjects
cycling, Epidemiology, Health, Toxicology and Mutagenesis, Atividade física, air pollution, Air pollution, Poison control, physical activity, Review, Health benefits, medicine.disease_cause, Occupational safety and health, traffic accidents, Risk Factors, modal shift, media_common, Traffic accidents, Health Policy, lcsh:Public aspects of medicine, Accidents, Traffic, biking, Modal shift, Biking, Risk assessment, Cycling, Pollution, medicine.medical_specialty, media_common.quotation_subject, Increased physical activity, Health Promotion, Motor Activity, Inhaled air, Poluição do ar, Environmental health, Injury prevention, medicine, Humans, Acidentes de trânsito, Mudança, Mode of transport, Physical activity, Public health, Public Health, Environmental and Occupational Health, lcsh:RA1-1270, Environmental Exposure, Bicycling, life table analysis, Greenhouse gas, Life expectancy, Environmental science, Bicicleta
Abstract

Although from a societal point of view a modal shift from car to bicycle may have beneficial health effects due to decreased air pollution emissions and increased levels of physical activity, shifts in individual adverse health effects such as higher exposure to air pollution and risk of a traffic accident may prevail. We have summarized the literature for air pollution, traffic accidents, and physical activity using systematic reviews supplemented with recent key studies. We quantified the impact on all-cause mortality when 500,000 people would make a transition from car to bicycle for short trips on a daily basis in the Netherlands. We estimate that beneficial effects of increased physical activity are substantially larger (3-14 months gained) than the potential mortality effect of increased inhaled air pollution doses (0.8-40 days lost) and the increase in traffic accidents (5-9 days lost). Societal benefits are even larger because of a modest reduction in air pollution and traffic accidents. On average, the estimated health benefits of cycling were substantially larger than the risks relative to car driving for individuals shifting their mode of transport. Embora uma mudança do uso de carro para bicicleta possa trazer efeitos benéficos para a saúde devido à diminuição da poluição do ar e a um aumento da atividade física, esta mudança também pode trazer efeitos adversos à saúde como exposição à poluição e risco de acidentes de trânsito, os quais podem superar os benefícios. Nós resumimos a literatura sobre poluição do ar, acidentes de trânsito e atividade física, utilizando revisões sistemáticas suplementadas com estudos recentes. Quantificamos também o impacto na causa de mortalidade se 500 mil pessoas fizessem a transição de carro para bicicleta em viagens curtas diárias na Holanda. Estimamos que os efeitos benéficos do aumento da atividade física são substancialmente maiores do que o efeito potencial da mortalidade por inalação de ar poluído e aumento de acidentes de trânsito. Os benefícios sociais são ainda maiores devido a uma modesta redução na poluição do ar e nos acidentes de trânsito. Em média, os benefícios de saúde devido ao uso da bicicleta são substancialmente maiores do que os riscos relativos a dirigir um carro para pessoas em transição do modo de transporte.

Published
2011
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14. Association between exhaled breath condensate nitrate + nitrite levels with ambient coarse particle exposure in subjects with airways disease

Author

Manney, S., Meddings, C.M., Harrison, R.M., Mansur, A.H., Karakatsani, A., Analitis, A., Katsouyanni, K., Perifanou, D., Kavouras, I.G., Kotronarou, N., de Hartog, J.J., Pekkanen, J., Hameri, K., ten Brink, H., Hoek, G., Ayres, J.G., Manney, S., Meddings, C.M., Harrison, R.M., Mansur, A.H., Karakatsani, A., Analitis, A., Katsouyanni, K., Perifanou, D., Kavouras, I.G., Kotronarou, N., de Hartog, J.J., Pekkanen, J., Hameri, K., ten Brink, H., Hoek, G., and Ayres, J.G.

Abstract

Item does not contain fulltext, OBJECTIVES: Studies of individual inflammatory responses to exposure to air pollution are few but are important in defining the most sensitive markers in better understanding pathophysiological pathways in the lung. The goal of this study was to assess whether exposure to airborne particles is associated with oxidative stress in an epidemiological setting. METHODS: The authors assessed exposure to particulate matter air pollution in four European cities in relation to levels of nitrite plus nitrate (NOx) in exhaled breath condensate (EBC) measurements in 133 subjects with asthma or chronic obstructive pulmonary disease using an EBC capture method developed for field use. In each subject, three measurements were collected. Exposure measurements included particles smaller than 10 mum (PM(10)), smaller than 2.5 mum (PM(2.5)) and particle number counts at a central site, outdoors near the subject's home and indoors. RESULTS: There were positive and significant relationships between EBC NOx and coarse particles at the central sampling sites (increase of 20.4% (95% CI 6.1% to 36.6%) per 10 mug/m(3) increase of coarse particles of the previous day) but not between EBC NOx and other particle measures. Associations tended to be stronger in subjects not taking steroid medication. CONCLUSIONS: An association was found between exposure to ambient coarse particles at central sites and EBC NOx, a marker of oxidative stress. The lack of association between PM measures more indicative of personal exposures (particularly indoor exposure) means interpretation should be cautious. However, EBC NOx may prove to be a marker of PM-induced oxidative stress in epidemiological studies.

Published
2012

15. Impact of low emission zones and local traffic policies on ambient air pollution concentrations

Author

Boogaard, H., Janssen, N.A., Fischer, P.H., Kos, G.P., Weijers, E.P., Cassee, F.R., van der Zee, S.C., de Hartog, J.J., Meliefste, K., Wang, M., Brunekreef, B., Hoek, G., Boogaard, H., Janssen, N.A., Fischer, P.H., Kos, G.P., Weijers, E.P., Cassee, F.R., van der Zee, S.C., de Hartog, J.J., Meliefste, K., Wang, M., Brunekreef, B., and Hoek, G.

Abstract

Item does not contain fulltext, BACKGROUND: Evaluations of the effectiveness of air pollution policy interventions are scarce. This study investigated air pollution at street level before and after implementation of local traffic policies including low emission zones (LEZ) directed at heavy duty vehicles (trucks) in five Dutch cities. METHODS: Measurements of PM(10), PM(2.5), 'soot', NO(2), NO(x), and elemental composition of PM(10) and PM(2.5) were conducted simultaneously at eight streets, six urban background locations and four suburban background locations before (2008) and two years after implementation of the policies (2010). The four suburban locations were selected as control locations to account for generic air pollution trends and weather differences. RESULTS: All pollutant concentrations were lower in 2010 than in 2008. For traffic-related pollutants including 'soot' and NO(x) and elemental composition (Cr, Cu, Fe) the decrease did not differ significantly between the intervention locations and the suburban control locations. Only for PM(2.5) reductions were considerably larger at urban streets (30%) and urban background locations (27%) than at the matching suburban control locations (20%). In one urban street where traffic intensity was reduced with 50%, 'soot', NO(x) and NO(2) concentrations were reduced substantially more (41, 36 and 25%) than at the corresponding suburban control location (22, 14 and 7%). CONCLUSION: With the exception of one urban street where traffic flows were drastically reduced, the local traffic policies including LEZ were too modest to produce significant decreases in traffic-related air pollution concentrations.

Published
2012

16. Association between exhaled breath condensate nitrate + nitrite levels with ambient coarse particle exposure in subjects with airways disease

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Manney, S., Meddings, C.M., Harrison, R.M., Mansur, A.H., Karakatsani, A., Analitis, A., Katsouyanni, K., Perifanou, D., Kavouras, I.G., Kotronarou, N., de Hartog, J.J., Pekkanen, J., Hämeri, K., ten Brink, H., Hoek, G., Ayres, J.G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Manney, S., Meddings, C.M., Harrison, R.M., Mansur, A.H., Karakatsani, A., Analitis, A., Katsouyanni, K., Perifanou, D., Kavouras, I.G., Kotronarou, N., de Hartog, J.J., Pekkanen, J., Hämeri, K., ten Brink, H., Hoek, G., and Ayres, J.G.

Published
2012

17. Particulate matter air pollution and respiratory symptoms in individuals having either asthma or chronic obstructive pulmonary disease: a European multicentre panel study

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Karakatsani, A., Analitis, A., Perifanou, D., Ayres, J.G., Harrison, R.M., Kotronarou, A., Pekkanen, J., Hameri, K., Kos, G.P.A., de Hartog, J.J., Hoek, G., Katsouyanni, K., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Karakatsani, A., Analitis, A., Perifanou, D., Ayres, J.G., Harrison, R.M., Kotronarou, A., Pekkanen, J., Hameri, K., Kos, G.P.A., de Hartog, J.J., Hoek, G., and Katsouyanni, K.

Published
2012

18. Do the health benefits of cycling outweigh the risks?

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Boogaard, H., Nijland, H., Hoek, G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Boogaard, H., Nijland, H., and Hoek, G.

Published
2012

19. Concentration response functions for ultrafine particles and all-cause mortality and hospital admissions: results of a European expert panel elicitation.

Author

Hoek, G., Boogaard, H., Knol, A.B., de Hartog, J.J., Slottje, P., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., van der Sluijs, J.P., Hoek, G., Boogaard, H., Knol, A.B., de Hartog, J.J., Slottje, P., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and van der Sluijs, J.P.

Abstract

Toxicological studies have provided evidence of the toxicity of ultrafine particles (UFP), but epidemiological evidence for health effects of ultrafines is limited. No quantitative summary currently exists of concentration-response functions for ultrafine particles that can be used in health impact assessment. The goal was to specify concentration-response functions for ultrafine particles in urban air including their uncertainty through an expert panel elicitation. Eleven European experts from the disciplines of epidemiology, toxicology, and clinical medicine selected using a systematic peer-nomination procedure participated. Using individual ratings supplemented with group discussion, probability distributions of effect estimates were obtained for all-cause mortality and cardiovascular and respiratory hospital admissions. Experts judged the small database of epidemiological studies supplemented with experimental studies sufficient to quantify effects of UFP on all-cause mortality and to a lesser extent hospital admissions. Substantial differences in the estimated UFP health effect and its uncertainty were found between experts. The lack of studies on long-term exposure to UFP was rated as the most important source of uncertainty. Effects on hospital admissions were considered more uncertain. This expert elicitation provides the first quantitative evaluation of estimates of concentration response functions between urban air ultrafine particles and all-cause mortality and hospital admissions.

Published
2010

20. Do the health benefits of cycling outweigh the risks?

Author

de Hartog, J.J., Boogaard, H., Nijland, H., Hoek, G., de Hartog, J.J., Boogaard, H., Nijland, H., and Hoek, G.

Abstract

BACKGROUND: Although from a societal point of view a modal shift from car to bicycle may have beneficial health effects due to decreased air pollution emissions, decreased greenhouse gas emissions, and increased levels of physical activity, shifts in individual adverse health effects such as higher exposure to air pollution and risk of a traffic accident may prevail.Objective: We describe whether the health benefits from the increased physical activity of a modal shift for urban commutes outweigh the health risks. DATA SOURCES AND EXTRACTION: We have summarized the literature for air pollution, traffic accidents, and physical activity using systematic reviews supplemented with recent key studies. DATA SYNTHESIS: We quantified the impact on all-cause mortality when 500,000 people would make a transition from car to bicycle for short trips on a daily basis in the Netherlands. We have expressed mortality impacts in life-years gained or lost, using life table calculations. For individuals who shift from car to bicycle, we estimated that beneficial effects of increased physical activity are substantially larger (3-14 months gained) than the potential mortality effect of increased inhaled air pollution doses (0.8-40 days lost) and the increase in traffic accidents (5-9 days lost). Societal benefits are even larger because of a modest reduction in air pollution and greenhouse gas emissions and traffic accidents. CONCLUSIONS: On average, the estimated health benefits of cycling were substantially larger than the risks relative to car driving for individuals shifting their mode of transport.

Published
2010

21. Do the health benefits of cycling outweigh the risks?

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Boogaard, H., Nijland, H., Hoek, G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Boogaard, H., Nijland, H., and Hoek, G.

Published
2010

22. Lung function and indicators of exposure to indoor and outdoor particulate matter among asthma and COPD patients.

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Ayres, J.G., Karakatsani, A., Analitis, A., ten Brink, H., Hameri, K., Harrison, R., Katsouyanni, K., Kotronarou, A., Kavouras, I., Meddings, C., Pekkanen, J., Hoek, G., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Ayres, J.G., Karakatsani, A., Analitis, A., ten Brink, H., Hameri, K., Harrison, R., Katsouyanni, K., Kotronarou, A., Kavouras, I., Meddings, C., Pekkanen, J., and Hoek, G.

Published
2010

23. Concentration response functions for ultrafine particles and all-cause mortality and hospital admissions: results of a European expert panel elicitation.

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Sub Science, Technology & Society begr., Hoek, G., Boogaard, H., Knol, A.B., de Hartog, J.J., Slottje, P., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., van der Sluijs, J.P., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Sub Science, Technology & Society begr., Hoek, G., Boogaard, H., Knol, A.B., de Hartog, J.J., Slottje, P., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and van der Sluijs, J.P.

Published
2010

24. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Abstract

BACKGROUND: Exposure to fine ambient particulate matter (PM) has consistently been associated with increased morbidity and mortality. The relationship between exposure to ultrafine particles (UFP) and health effects is less firmly established. If UFP cause health effects independently from coarser fractions, this could affect health impact assessment of air pollution, which would possibly lead to alternative policy options to be considered to reduce the disease burden of PM. Therefore, we organized an expert elicitation workshop to assess the evidence for a causal relationship between exposure to UFP and health endpoints. METHODS: An expert elicitation on the health effects of ambient ultrafine particle exposure was carried out, focusing on: 1) the likelihood of causal relationships with key health endpoints, and 2) the likelihood of potential causal pathways for cardiac events. Based on a systematic peer-nomination procedure, fourteen European experts (epidemiologists, toxicologists and clinicians) were selected, of whom twelve attended. They were provided with a briefing book containing key literature. After a group discussion, individual expert judgments in the form of ratings of the likelihood of causal relationships and pathways were obtained using a confidence scheme adapted from the one used by the Intergovernmental Panel on Climate Change. RESULTS: The likelihood of an independent causal relationship between increased short-term UFP exposure and increased all-cause mortality, hospital admissions for cardiovascular and respiratory diseases, aggravation of asthma symptoms and lung function decrements was rated medium to high by most experts. The likelihood for long-term UFP exposure to be causally related to all cause mortality, cardiovascular and respiratory morbidity and lung cancer was rated slightly lower, mostly medium. The experts rated the likelihood of each of the six identified possible causal pathways separately. Out of these six, the highe

Published
2009

25. Associations between PM2.5 and heart rate variability are modified by particle composition and beta-blocker use in patients with coronary heart disease.

Author

Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Lanki, T., Timonen, K.L., Hoek, G., Janssen, N.A.H., Ibald-Mulli, A., Peters, A., Heinrich, J., Tarkiainen, T., Van Grieken, R., van Wijnen, J.H., Brunekreef, B., Pekkanen, J., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, de Hartog, J.J., Lanki, T., Timonen, K.L., Hoek, G., Janssen, N.A.H., Ibald-Mulli, A., Peters, A., Heinrich, J., Tarkiainen, T., Van Grieken, R., van Wijnen, J.H., Brunekreef, B., and Pekkanen, J.

Published
2009

26. Expert elicitation on ultrafine particles: likelihood of health effects and causal pathways.

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, Knol, A.B., de Hartog, J.J., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Published
2009

27. Expert elicitation on health effects related to exposure to ultrafine particles: likelihood of causality

Author

Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, de Hartog, J.J., Knol, A.B., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., Hoek, G., Environmental risk management, Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, Dep Scheikunde, de Hartog, J.J., Knol, A.B., Boogaard, H., Slottje, P., van der Sluijs, J.P., Lebret, E., Cassee, F.R., Wardekker, J.A., Ayres, J.G., Borm, P., Brunekreef, B., Donaldson, K., Forastiere, F., Holgate, S.T., Kreyling, W.G., Nemery, B., Pekkanen, J., Stone, V., Wichmann, H.E., and Hoek, G.

Published
2009

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