Your search keyword '"Oscar Breugelmans"' showing total 15 results

1. Estimating the prevalence of 26 health-related indicators at neighbourhood level in the Netherlands using structured additive regression

Author

Jan van de Kassteele, Laurens Zwakhals, Oscar Breugelmans, Caroline Ameling, and Carolien van den Brink

Subjects

Small area estimation, Health-related indicators, Public health, Structured additive regression, Neighbourhoods, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Local policy makers increasingly need information on health-related indicators at smaller geographic levels like districts or neighbourhoods. Although more large data sources have become available, direct estimates of the prevalence of a health-related indicator cannot be produced for neighbourhoods for which only small samples or no samples are available. Small area estimation provides a solution, but unit-level models for binary-valued outcomes that can handle both non-linear effects of the predictors and spatially correlated random effects in a unified framework are rarely encountered. Methods We used data on 26 binary-valued health-related indicators collected on 387,195 persons in the Netherlands. We associated the health-related indicators at the individual level with a set of 12 predictors obtained from national registry data. We formulated a structured additive regression model for small area estimation. The model captured potential non-linear relations between the predictors and the outcome through additive terms in a functional form using penalized splines and included a term that accounted for spatially correlated heterogeneity between neighbourhoods. The registry data were used to predict individual outcomes which in turn are aggregated into higher geographical levels, i.e. neighbourhoods. We validated our method by comparing the estimated prevalences with observed prevalences at the individual level and by comparing the estimated prevalences with direct estimates obtained by weighting methods at municipality level. Results We estimated the prevalence of the 26 health-related indicators for 415 municipalities, 2599 districts and 11,432 neighbourhoods in the Netherlands. We illustrate our method on overweight data and show that there are distinct geographic patterns in the overweight prevalence. Calibration plots show that the estimated prevalences agree very well with observed prevalences at the individual level. The estimated prevalences agree reasonably well with the direct estimates at the municipal level. Conclusions Structured additive regression is a useful tool to provide small area estimates in a unified framework. We are able to produce valid nationwide small area estimates of 26 health-related indicators at neighbourhood level in the Netherlands. The results can be used for local policy makers to make appropriate health policy decisions.

Published

2017

2. Estimating the prevalence of 26 health-related indicators at neighbourhood level in the Netherlands using structured additive regression

Author

Laurens Zwakhals, Jan van de Kassteele, Carolien van den Brink, Caroline Ameling, and Oscar Breugelmans

Subjects

Adult, Male, General Computer Science, Databases, Factual, Small area estimation, Calibration (statistics), Health geography, Health-related indicators, lcsh:Computer applications to medicine. Medical informatics, 01 natural sciences, 010104 statistics & probability, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Neighbourhoods, Residence Characteristics, Environmental health, Statistics, Prevalence, Health Status Indicators, Humans, 030212 general & internal medicine, Registries, 0101 mathematics, Health policy, Netherlands, Public health, Research, Smoking, Public Health, Environmental and Occupational Health, Regression analysis, Overweight, Random effects model, General Business, Management and Accounting, Health Surveys, Regression, Weighting, Geography, lcsh:R858-859.7, Female, Structured additive regression

Abstract

Background Local policy makers increasingly need information on health-related indicators at smaller geographic levels like districts or neighbourhoods. Although more large data sources have become available, direct estimates of the prevalence of a health-related indicator cannot be produced for neighbourhoods for which only small samples or no samples are available. Small area estimation provides a solution, but unit-level models for binary-valued outcomes that can handle both non-linear effects of the predictors and spatially correlated random effects in a unified framework are rarely encountered. Methods We used data on 26 binary-valued health-related indicators collected on 387,195 persons in the Netherlands. We associated the health-related indicators at the individual level with a set of 12 predictors obtained from national registry data. We formulated a structured additive regression model for small area estimation. The model captured potential non-linear relations between the predictors and the outcome through additive terms in a functional form using penalized splines and included a term that accounted for spatially correlated heterogeneity between neighbourhoods. The registry data were used to predict individual outcomes which in turn are aggregated into higher geographical levels, i.e. neighbourhoods. We validated our method by comparing the estimated prevalences with observed prevalences at the individual level and by comparing the estimated prevalences with direct estimates obtained by weighting methods at municipality level. Results We estimated the prevalence of the 26 health-related indicators for 415 municipalities, 2599 districts and 11,432 neighbourhoods in the Netherlands. We illustrate our method on overweight data and show that there are distinct geographic patterns in the overweight prevalence. Calibration plots show that the estimated prevalences agree very well with observed prevalences at the individual level. The estimated prevalences agree reasonably well with the direct estimates at the municipal level. Conclusions Structured additive regression is a useful tool to provide small area estimates in a unified framework. We are able to produce valid nationwide small area estimates of 26 health-related indicators at neighbourhood level in the Netherlands. The results can be used for local policy makers to make appropriate health policy decisions.

Published

2017

3. Lung Cancer Risk and Past Exposure to Emissions from a Large Steel Plant

Author

Paul Fischer, Marten Marra, Johannes Lijzen, Arie Oosterlee, Oscar Breugelmans, Danny Houthuijs, Otto Visser, Caroline Ameling, Jan van de Kassteele, Rinske Keuken, and Carla van Wiechen

Subjects

Male, Lung Neoplasms, Article Subject, Health, Toxicology and Mutagenesis, Population, symbols.namesake, Risk Factors, Environmental health, Humans, Medicine, Poisson regression, education, Aged, Netherlands, Air Pollutants, education.field_of_study, business.industry, Exposure Category, lcsh:Public aspects of medicine, Incidence, Incidence (epidemiology), Public Health, Environmental and Occupational Health, lcsh:RA1-1270, Environmental Exposure, Environmental exposure, Middle Aged, Standardized mortality ratio, Steel, Relative risk, Metallurgy, symbols, Population study, Female, business, Research Article, Environmental Monitoring

Abstract

We studied the spatial distribution of cancer incidence rates around a large steel plant and its association with historical exposure. The study population was close to 600,000. The incidence data was collected for 1995–2006. From historical emission data the air pollution concentrations for polycyclic aromatic hydrocarbons (PAH) and metals were modelled. Data were analyzed using Bayesian hierarchical Poisson regression models. The standardized incidence ratio (SIR) for lung cancer was up to 40% higher than average in postcodes located in two municipalities adjacent to the industrial area. Increased incidence rates could partly be explained by differences in socioeconomic status (SES). In the highest exposure category (approximately 45,000 inhabitants) a statistically significant increased relative risk (RR) of 1.21 (1.01–1.43) was found after adjustment for SES. The elevated RRs were similar for men and women. Additional analyses in a subsample of the population with personal smoking data from a recent survey suggested that the observed association between lung cancer and plant emission, after adjustment for SES, could still be caused by residual confounding. Therefore, we cannot indisputably conclude that past emissions from the steel plant have contributed to the increased risk of lung cancer.

Published

2013

4. Annoyance due to aircraft noise has increased over the years—Results of the HYENA study

Author

Konstantina Dimakopoulou, Gösta Bluhm, Wolfgang Babisch, Federica Vigna-Taglianti, Manolis Velonakis, Jenny Selander, Salvatore Pisani, Lars Jarup, Ioannis Zachos, Alexandros S. Haralabidis, Klea Katsouyanni, Göran Pershagen, Marie-Louise Dudley, Wim Swart, Oscar Breugelmans, Ennio Cadum, Danny Houthuijs, and Heinz-Dieter Marohn

Subjects

Male, Time Factors, Aircraft noise, Aircraft, Annoyance, Anger, Noise exposure, Surveys and Questionnaires, Statistics, Humans, Noise level, Road traffic, lcsh:Environmental sciences, General Environmental Science, Aged, lcsh:GE1-350, Noise pollution, business.industry, Traffic noise, Middle Aged, Noise, Noise, Transportation, Environmental science, Female, Telecommunications, business, Automobiles

Abstract

In the HYENA study (HYpertension and Exposure to Noise near Airports) noise annoyances due to aircraft and road traffic noise were assessed in subjects that lived in the vicinity of 6 major European airports using the 11-point ICBEN scale (International Commission on Biological Effects of Noise). A distinction was made between the annoyance during the day and during the night. Lden and Lnight were considered as indicators of noise exposure. Pooled data analyses showed clear exposure–response relationships between the noise level and the noise annoyance for both exposures. The exposure–response curves for road noise were congruent with the EU standard curves used for predicting the number of highly noise annoyed subjects in European communities. Annoyance ratings due to aircraft noise, however, were higher than predicted by the EU standard curves. The data supports other findings suggesting that the people's attitude towards aircraft noise has changed over the years, and that the EU standard curve for aircraft noise should be modified. Keywords: Aircraft noise, Road traffic noise, Annoyance, Exposure–response curve, Change of annoyance

Published

2009

5. Description and demonstration of the EXPOLIS simulation model: Two examples of modeling population exposure to particulate matter

Author

Oscar Breugelmans, Erik Lebret, Otto Hänninen, Matti Jantunen, and Hanneke Kruize

Subjects

Air Pollutants, Epidemiology, Public Health, Environmental and Occupational Health, Air pollution, Environmental Exposure, Environmental exposure, Models, Theoretical, Particulates, Toxicology, medicine.disease_cause, Risk Assessment, Pollution, Standard deviation, Latin hypercube sampling, Population Surveillance, Log-normal distribution, Statistics, medicine, Humans, Probability distribution, Environmental science, Public Health, Particle Size, Population exposure, Simulation

Abstract

As a part of the EXPOLIS study, a stochastic exposure-modeling framework was developed. The framework is useful to compare exposure distributions of different (sub-) populations or different scenarios, and to gain insight into population exposure distributions and exposure determinants. It was implemented in an MS-Excel workbook using @Risk add-on software. Basic concept of the framework is that time-weighted average exposure is a sum of partial exposures in the visited microenvironments. Partial exposure is determined by the concentration and the time spent in the microenvironment. In the absence of data, indoor concentrations are derived as a function of ambient concentrations, effective penetration rates and contribution of indoor sources. Framework input parameters are described by probability distributions. A lognormal distribution is assumed for the microenvironment concentrations and for the contribution of indoor sources, and a beta distribution for the time spent in a microenvironment and for the penetration factor. Mean and standard deviation values parameterize the distributions. In this paper, Latin Hypercube sampling is used for the input distributions. The outcome of the framework is an estimate of the population exposure distribution for the selected air pollutant. The framework is best suited for averaging times from 24 h upwards. Sensitivity analyses can be performed to determine the most influential factors of exposure. The application of the framework is illustrated in two examples. The EXPOLIS PM(2.5) example uses microenvironment measurement and time-activity data from the EXPOLIS study to model PM(2.5) population exposure distributions in four European cities. The results are compared to the observed personal exposure distributions from the same study. The Dutch PM(10) example uses input data from several (Dutch) databases and from literature, and shows a more complex application of the framework for comparison of scenarios and subpopulations.

Published

2003

6. PM10 and PM2.5 concentrations in Central and Eastern Europe

Author

Éva Vaskövi, Vitezslav Jirik, Henk van de Wiel, Oscar Breugelmans, Eva Miháliková, Evtimia Uzunova, Stela Sachelarescu, Kees Meliefste, Frank A.A.M. de Leeuw, Bert Brunekreef, Dobrinka Lolova, Józef S. Pastuszka, Danny Houthuijs, Carmen Marinescu, Erik Lebret, Gerard Hoek, Jaroslav Volf, and Tony Fletcher

Subjects

Atmospheric Science, education.field_of_study, Heating season, Population, Particulates, Particulate air pollution, Eastern european, Animal science, Environmental protection, Urban background, Environmental science, Spatial variability, education, General Environmental Science

Abstract

Between November 1995 and October 1996, particulate matter concentrations (PM 10 and PM 2.5 ) were measured in 25 study areas in six Central and Eastern European countries: Bulgaria, Czech Republic, Hungary, Poland, Romania and Slovak Republic. To assess annual mean concentration levels, 24-h averaged concentrations were measured every sixth day on a fixed urban background site using Harvard impactors with a 2.5 and 10 μm cut-point. The concentration of the coarse fraction of PM 10 (PM 10−2.5 ) was calculated as the difference between the PM 10 and the PM 2.5 concentration. Spatial variation within study areas was assessed by additional sampling on one or two urban background sites within each study area for two periods of 1 month. QA/QC procedures were implemented to ensure comparability of results between study areas. A two to threefold concentration range was found between study areas, ranging from an annual mean of 41 to 98 μg m −3 for PM 10 , from 29 to 68 μg m −3 for PM 2.5 and from 12 to 40 μg m −3 for PM 10−2.5 . The lowest concentrations were found in the Slovak Republic, the highest concentrations in Bulgaria and Poland. The variation in PM 10 and PM 2.5 concentrations between study areas was about 4 times greater than the spatial variation within study areas suggesting that measurements at a single sampling site sufficiently characterise the exposure of the population in the study areas. PM 10 concentrations increased considerably during the heating season, ranging from an average increase of 18 μg m −3 in the Slovak Republic to 45 μg m −3 in Poland. The increase of PM 10 was mainly driven by increases in PM 2.5 ; PM 10−2.5 concentrations changed only marginally or even decreased. Overall, the results indicate high levels of particulate air pollution in Central and Eastern Europe with large changes between seasons, likely caused by local heating.

Published

2001

7. Air pollution and all-cause mortality in the Netherlands

Author

Oscar Breugelmans, Kees de Hoogh, Paul Fischer, Nicole A.H. Janssen, Wim Swart, Marten Marra, Hanneke Kruize, Danny Houthuijs, Guus J. M. Velders, Gerard Hoek, and Caroline Ameling

Subjects

Environmental health, Air pollution, medicine, General Earth and Planetary Sciences, Environmental science, medicine.disease_cause, All cause mortality, General Environmental Science

Published

2013

8. Green space and all-cause mortality in the Netherlands

Author

Danny Houthuijs, Nicole A.H. Janssen, Marten Marra, Wim Swart, Hanneke Kruize, Oscar Breugelmans, Paul Fischer, and Caroline Ameling

Subjects

Geography, Urbanization, bacteria, General Earth and Planetary Sciences, Space (commercial competition), equipment and supplies, Socioeconomics, complex mixtures, All cause mortality, General Environmental Science, Cohort study

Abstract

Background: Due to increasing urbanisation, green space in residential environments is under pressure. At the same time, there are indications that presence of green space is important for human he...

Published

2013

9. Aircraft noise and health: is Lden the proper indicator to describe the relationship?

Author

Danny Houthuijs, Wim Swart, Roel Hogenhuis, Ric van Poll, Oscar Breugelmans, and Klaasjan Hajema

Subjects

Health related quality of life, Noise, Aircraft noise, Computer science, Statistics, General Earth and Planetary Sciences, Annoyance, Metric (unit), human activities, General Environmental Science

Abstract

Background Possible health effects of noise, such as annoyance, sleep disturbance and cardiovascular diseases are related to the yearly averaged noise metric Lden. It is suggested that the Lden und...

Published

2013

10. Noise annoyance - A modifier of the association between noise level and cardiovascular health?

Author

Federica Vigna-Taglianti, Konstantina Dimakopoulou, Ennio Cadum, Panayota Sourtzi, Oscar Breugelmans, Wolfgang Babisch, Göran Pershagen, Sarah Floud, Alexandros S. Haralabidis, Danny Houthuijs, Klea Katsouyanni, Anna Hansell, and Jenny Selander

Subjects

Male, medicine.medical_specialty, Environmental Engineering, Aircraft, Aircraft noise, Acoustics, Annoyance, Audiology, Standard deviation, medicine, Humans, Environmental Chemistry, Noise level, Association (psychology), Waste Management and Disposal, Aged, Noise pollution, Middle Aged, Pollution, Noise annoyance, Europe, Noise, Noise, Transportation, Hypertension, Female, Psychology, Automobiles, human activities

Abstract

Objectives The effect modifying impact of annoyance due to aircraft noise and road traffic noise on the relationships between the aircraft noise level and road traffic noise level on the prevalence of hypertension was investigated in 4861 subjects of the HYENA study (HYpertension and Exposure to Noise near Airports). Methods Different models were investigated either including the noise level and noise annoyance variables separately, or simultaneously, or together with an interaction term referring to the same noise source for the noise level and the noise annoyance. Results Significant effect modification was found with respect to the association between aircraft noise and hypertension. The association was stronger in more annoyed subjects. No clear interaction was found with respect to road traffic noise. The comparison of the magnitude of the main effects (per standard deviation or inter-quartile range) of noise level and noise annoyance variables revealed stronger associations with hypertension for the noise levels. Conclusion There is some indication that the noise level has a stronger predictive meaning for the relationship between noise exposure and hypertension than the reported noise annoyance (main effects). The results from the Hyena study support the hypothesis that noise annoyance acts as an effect modifier of the relationship between the noise level and hypertension.

Published

2013

11. THE IMPACT OF LOCAL AIR POLLUTION ON MEDICATION USE

Author

Wim Swart, Marten Marra, Paul Fischer, Danny Houthuijs, Jan van de Kassteele, Carla van Wiechen, and Oscar Breugelmans

Subjects

Medication use, Environmental health, Air pollution, medicine, General Earth and Planetary Sciences, Environmental science, medicine.disease_cause, complex mixtures, respiratory tract diseases, General Environmental Science, Term (time)

Abstract

Background and aims: Information on the influence of long term exposure to (traffic-related) air pollution on medication use is sparse. Detailed maps of air pollution levels of PM10 and NO2,, based...

Published

2011

12. Respiratory effects of low-level photochemical air pollution in amateur cyclists

Author

Oscar Breugelmans, Gerard Hoek, Bert Brunekreef, and Marcel Leentvaar

Subjects

Adult, Male, Pulmonary and Respiratory Medicine, Ozone, Adolescent, Photochemistry, Ozone concentration, Critical Care and Intensive Care Medicine, Photochemical pollution, chemistry.chemical_compound, Animal science, Air Pollution, Heart rate, Humans, Medicine, Life Science, Respiratory system, Exercise duration, Lung function, Netherlands, Air Pollutants, Dose-Response Relationship, Drug, business.industry, Respiration, Vakgroep Gezondheidsleer, Environmental and Occupational Health Group, Bicycling, Respiratory Function Tests, Logistic Models, chemistry, Seasons, business

Abstract

A group of male amateur cyclists was studied in the summer of 1991 in the east of the Netherlands. Lung function was measured before and after training sessions or competitive races on a number of occasions. Continuous heart rate monitors were employed to document exercise levels. Heart rate averaged 161 beats/min during training, and 176 beats/min during races. Exercise duration averaged 75 min. Ozone concentrations during exercise were obtained from the nearest stations of the National Monitoring Network. The difference between pre- and postexercise lung function values was related to these ozone concentrations. Ozone concentrations were low on most occasions with an average of 87 micrograms/m3 and a maximum of 195 micrograms/m3. The difference between pre- and postexercise lung function was found to be negatively related to the ozone concentration during exercise. When all observations obtained at ozone concentrations higher than 120 micrograms/m3 were removed from the analysis, the relationship with ozone was still significant. The data also suggested that effects of ozone on lung function were stronger in midsummer than in the late summer. The difference between pre- and postexercise acute symptoms was positively related to ozone, for shortness of breath, chest tightness, and wheeze. Cough and eye irritation were not related to ozone. These results indicate that in healthy young men vigorously exercising outdoors, ozone is related to lung function changes and acute respiratory symptom changes at low levels of exposure.

Published

1994

13. Aircraft Noise Exposure and Use of Medication

Author

Klea Katsouyanni, Gösta Bluhm, Alexandros S. Haralabidis, Lars Jarup, Federica Mathis, Maria Chiara Antoniotti, Wolfgang Babisch, Danny Houthuijs, Jenny Selander, Anna Hansell, Oscar Breugelmans, Sarah Floud, Göran Pershagen, Ennio Cadum, and Federica Vigna-Taglianti

Subjects

Aircraft noise, Aeronautics, Epidemiology, Environmental science

Published

2009

14. EXPOLIS DATABASE FOR EXPOSURE ASSESSMENT AND SIMULATION WITH DATA FROM SIX EUROPEAN CITIES

Author

E Samoli, Klea Katsouyanni, Otto Hänninen, Oscar Breugelmans, Nino Künzli, Hanneke Kruize, Matti Jantunen, and Erik Lebret

Subjects

Geography, Epidemiology, Environmental health, Exposure assessment

Published

1998

15. MICROEVENVIRONMENTAL EXPOSURE SIMULATION IN EXPOLIS

Author

Erik Lebret, Otto Hänninen, Oscar Breugelmans, and Hanneke Kruize

Subjects

Epidemiology, Environmental science

Published

1998