Accurate Exposure Research Articles

Model Development and Validation of Personal Exposure to Volatile Organic Compound Concentrations

BackgroundDirect measurement of exposure to volatile organic compounds (VOCs) via personal monitoring is the most accurate exposure assessment method available. However, its wide-scale application to evaluating exposures at the population level is prohibitive in terms of both cost and time. Consequently, indirect measurements via a combination of microenvironment concentrations and personal activity diaries represent a potentially useful alternative.ObjectiveThe aim of this study was to optimize a model of personal exposures (PEs) based on microenvironment concentrations and time/activity diaries and to compare modeled with measured exposures in an independent data set.MaterialsVOC PEs and a range of microenvironment concentrations were collected with active samplers and sorbent tubes. Data were supplemented with information collected through questionnaires. Seven models were tested to predict PE to VOCs in 75% (n = 370) of the measured PE data set, whereas the other 25% (n = 120) was used for validation purposes.ResultsThe best model able to predict PE with independence of measurements was based upon stratified microenvironment concentrations, lifestyle factors, and individual-level activities. The proposed model accounts for 40–85% of the variance for individual VOCs and was validated for almost all VOCs, showing normalized mean bias and mean fractional bias below 25% and predicting 60% of the values within a factor of 2.ConclusionsThe models proposed identify the most important non-weather-related variables for VOC exposures; highlight the effect of personal activities, use of solvents, and exposure to environmental tobacco smoke on PE levels; and may assist in the development of specific models for other locations.

Homicide and geographic access to gun dealers in the United States

BackgroundFirearms are the most commonly used weapon to commit homicide in the U.S. Virtually all firearms enter the public marketplace through a federal firearms licensee (FFL): a store or individual licensed by the federal government to sell firearms. Whether FFLs contribute to gun-related homicide in areas where they are located, in which case FFLs may be a homicide risk factor that can be modified, is not known.MethodsAnnual county-level data (1993–1999) on gun homicide rates and rates of FFLs per capita were analyzed using negative binomial regression controlling for socio-demographic characteristics. Models were run to evaluate whether the relation between rates of FFLs and rates of gun homicide varied over the study period and across counties according to their level of urbanism (defined by four groupings, as below). Also, rates of FFLs were compared against FS/S – which is the proportion of suicides committed by firearm and is thought to be a good proxy for firearm availability in a region – to help evaluate how well the FFL variable is serving as a way to proxy firearm availability in each of the county types of interest.ResultsIn major cities, gun homicide rates were higher where FFLs were more prevalent (rate ratio [RR] = 1.70, 95% CI 1.03–2.81). This association increased (p < 0.01) from 1993 (RR = 1.69) to 1999 (RR = 12.72), due likely to federal reforms that eliminated low-volume dealers, making FFL prevalence a more accurate exposure measure over time. No association was found in small towns. In other cities and in suburbs, gun homicide rates were significantly lower where FFLs were more prevalent, with associations that did not change over the years of the study period. FFL prevalence was correlated strongly (positively) with FS/S in major cities only, suggesting that the findings for how FFL prevalence relates to gun homicide may be valid for the findings pertaining to major cities but not to counties of other types.ConclusionModification of FFLs through federal, state, and local regulation may be a feasible intervention to reduce gun homicide in major cities.

SU‐FF‐I‐76: Accuracy of Quality Control Measurements with Solid‐State Detectors in Diagnostic Radiology

Purpose: Recently, solid‐state detectors have been increasingly adopted as diagnostic physics survey equipment due to their compact size and convenience. A single piece of equipment can be used to measure many quantities, including “exposure”, kVp, and half‐value layer (HVL), with only a single irradiation. While these detectors perform well in certain beam qualities, they can deliver inaccurate results in others. Materials and methods: Diagnostic physics measurements including exposure, HVL, and entrance exposure rate were made on several types of equipment, including mammographic, standard radiographic, fluoroscopic, and angiographic systems. Measurements on the angiographic system were made with various amounts of added filtration, ranging from 0.1 to 0.9 mm Cu. Exposure and exposure rate were measured using both a 6 cc ionization chamber and a solid state dosimeter, and HVL was measured using both a 6 cc ionization chamber with Al 1100 and a solid‐state dosimeter. Results: While measurements made on mammographic (0.35 mm Al HVL) and standard radiographic systems (3.1 mm Al HVL) were in good agreement between traditional survey equipment and the solid‐state dosimeter, measurements made in X‐ray beams of other qualities differed between the two types of survey equipment. The solid‐state dosimeter reported a lower HVL than measured with the ionization chamber for beam qualities ranging from 3.8 mm Al HVL to 6.8 mm Al HVL, including measurements performed on commonly‐used fluoroscopic systems. For X‐ray beams with HVL greater than 6.8 mm Al, results were again in agreement between the two types of survey equipment. Also, entrance exposure rate measurements can be inaccurate if the device is used improperly. Conclusions: Caution should be used when making diagnostic physics measurements using solid‐state dosimeters. Proper positioning of the device is critical for accurate entrance exposure rate measurements, and accurate measurements may not be possible in certain X‐ray beam qualities.

간접흡연의 정량적 노출측정 방법의 고찰

Secondhand smoke (SHS) is one of major public health threats. Since secondhand smoke is complex mixture of toxic chemicals, there has been no standardized method to measure SHS quantitatively. The purpose of this manuscript was to review various quantitative methods to measure SHS. There are two different methods: air monitoring and biological monitoring. Air monitoring methods include exhaled carbon monoxide level, ambient fine particulates, nicotine and 3-ethenylpyridine. Measurement of fine particulates has been utilized due to presence of real-time monitor, while fine particulates can have multiple indoor sources other than SHS. Ambient nicotine and 3-EP are more specific to SHS, although there is no real-time monitor for these chemicals. Biological monitoring methods include nicotine in hair, cotinine in urine, NNK in urine and DNA adducts. Nicotine in hair can provide chronic internal dose, while cotinine in urine can provide acute dose. Since biological monitoring can provide total internal dose, identification of specific exposure source may be difficult. NNK in urine can indicate carcinogenicity of the SHS exposure. DNA adducts can provide overall cancer causing exposure, but not specific to SHS. While there are many quantitative methods to measure SHS, selection of appropriate method should be based on purposes of assessment. Application of accurate and appropriate exposure assessment method is important for understanding health effects and establishing appropriate control measures.

Simultaneous Determination of Six Mercapturic Acid Metabolites of Volatile Organic Compounds in Human Urine

The widespread exposure to potentially harmful volatile organic compounds (VOCs) merits the development of practical and accurate exposure assessment methods. Measuring the urinary concentrations of VOC mercapturic acid (MA) metabolites provides noninvasive and selective information about recent exposure to certain VOCs. We developed a liquid chromatography-tandem mass spectrometry method for quantifying urinary levels of six MAs: N-acetyl-S-(2-carboxyethyl)-L-cysteine (CEMA), N-acetyl-S-(3-hydroxypropyl)-L-cysteine (HPMA), N-acetyl-S-(2-hydroxy-3-butenyl)-L-cysteine (MHBMA), N-acetyl-S-(3,4-dihydroxybutyl)-L-cysteine (DHBMA), N-acetyl-S-(2-hydroxyethyl)-L-cysteine (HEMA), and N-acetyl-S-(phenyl)-L-cysteine (PMA). The method provides good accuracy (102% mean accuracy) and high precision (3.5% mean precision). The sensitivity (limits of detection of 0.01-0.20 microg/L) and wide dynamic detection range (0.025-500 microg/L) make this method suitable for assessing VOC exposure of minimally exposed populations and those with significant exposures, such as cigarette smokers. We used this method to quantify MA levels in urine collected from smokers and nonsmokers. Median levels of creatinine-corrected CEMA, HPMA, MHBMA, DHBMA, HEMA, and PMA among nonsmokers (n = 59) were 38.1, 24.3, 21.3, 104.7, 0.9, and 0.5 microg/g creatinine, respectively. Among smokers (n = 61), median levels of CEMA, HPMA, MHBMA, DHBMA, HEMA, and PMA were 214.4, 839.7, 10.2, 509.7, 2.2, and 0.9 microg/g creatinine, respectively. All VOC MAs measured were higher among smokers than among nonsmokers, with the exception of MHBMA.

Evaluation of Methodologies for Exposure Assessment to Atmospheric Pollutants from a Landfill Site

Epidemiological studies around landfill sites are limited by several factors, particularly a lack of accurate exposure assessment. Traditionally, exposure estimates are based on distance between place of residence and the landfill site. However, this measure of exposure ignores the effects that environmental factors may have upon exposure. A previous epidemiological study at a landfill site in the United Kingdom provided the basis for a case study to investigate exposure assessment methodologies that could support ongoing and future epidemiological work. Estimation of relative exposure to atmospheric pollutants near the site was refined using the Atmospheric Dispersion Modeling System (ADMS) 3.1. Annual average concentrations were calculated around the landfill site, which was modeled as an area source with a steady release rate over its entire active surface. Local meteorological and terrain data were used in the assessment. A geographical information system (GIS) was then used to link the results of the modeling to population and other data. Sensitivity studies were included to examine the variation of predicted exposure with several modeling assumptions and hence set other uncertainties in context. No simple relationship existed between the relative individual exposure measured by distance from the site and by dispersion modeling. A reassessment of exposure assessment in epidemiological studies around landfill sites was then undertaken with the refined estimates of exposure. This concluded that use of distance from the site as a proxy for exposure could lead to significant exposure misclassification in comparison with exposure assessment using atmospheric dispersion modeling and GIS. The study also indicated that assessment of peak exposure rates (i.e., extreme concentration levels) might be necessary in some epidemiological work. Optimum strategies for increasing the probability of observing effects in the more highly exposed population can be derived by combining the results of dispersion modeling with population data and, where feasible, knowledge of the toxicology of the substances of interest.

Does improved exposure information for PM2.5 constituents explain differing results among epidemiological studies?

Contrary findings are often found among epidemiological studies examining associations of different types of airborne particulates against the same health endpoints. Some studies of heart rate variability (HRV) in humans find associations with either regional particulate material 2.5 microns or smaller (PM2.5) and/or with “sulfate” while some do not; some find associations with more local emissions such as black carbon (BC), while others do not. We explore if there might there be a consistent methodological explanation for inconsistent findings among HRV studies. To do this, we identify studies of HRV changes in humans examining associations with ambient PM2.5 and sulfate, ambient PM2.5 and BC, or all three; we briefly review findings and methodologies, including exposure issues; then we explore why studies may come to different conclusions.We tentatively conclude that differences in accuracy of subject exposure information for health-relevant emissions such as BC, which vary spatially over short distances in urban areas, may explain conflicting study results. HRV studies with accurate exposure information for BC or urban/industrial PM2.5 generally find large, significant associations with BC or urban/industrial PM2.5, but rarely with secondary sulfate or regional emissions generally. However, absent accurate exposure information for BC, studies appear more likely to find associations with less spatially variable secondary sulfate or PM2.5, and less likely to find strong associations with BC. However, research on this subject is limited, as are the number of studies evaluated here. Added research is necessary to confirm these findings (or otherwise), and to explore whether exposure misclassification might cause other health effects results to consistently vary.

Occupational Exposure Decisions: Can Limited Data Interpretation Training Help Improve Accuracy?

Accurate exposure assessments are critical for ensuring that potentially hazardous exposures are properly identified and controlled. The availability and accuracy of exposure assessments can determine whether resources are appropriately allocated to engineering and administrative controls, medical surveillance, personal protective equipment and other programs designed to protect workers. A desktop study was performed using videos, task information and sampling data to evaluate the accuracy and potential bias of participants' exposure judgments. Desktop exposure judgments were obtained from occupational hygienists for material handling jobs with small air sampling data sets (0-8 samples) and without the aid of computers. In addition, data interpretation tests (DITs) were administered to participants where they were asked to estimate the 95th percentile of an underlying log-normal exposure distribution from small data sets. Participants were presented with an exposure data interpretation or rule of thumb training which included a simple set of rules for estimating 95th percentiles for small data sets from a log-normal population. DIT was given to each participant before and after the rule of thumb training. Results of each DIT and qualitative and quantitative exposure judgments were compared with a reference judgment obtained through a Bayesian probabilistic analysis of the sampling data to investigate overall judgment accuracy and bias. There were a total of 4386 participant-task-chemical judgments for all data collections: 552 qualitative judgments made without sampling data and 3834 quantitative judgments with sampling data. The DITs and quantitative judgments were significantly better than random chance and much improved by the rule of thumb training. In addition, the rule of thumb training reduced the amount of bias in the DITs and quantitative judgments. The mean DIT % correct scores increased from 47 to 64% after the rule of thumb training (P < 0.001). The accuracy for quantitative desktop judgments increased from 43 to 63% correct after the rule of thumb training (P < 0.001). The rule of thumb training did not significantly impact accuracy for qualitative desktop judgments. The finding that even some simple statistical rules of thumb improve judgment accuracy significantly suggests that hygienists need to routinely use statistical tools while making exposure judgments using monitoring data.

Solvent accessible surface area approximations for rapid and accurate protein structure prediction

The burial of hydrophobic amino acids in the protein core is a driving force in protein folding. The extent to which an amino acid interacts with the solvent and the protein core is naturally proportional to the surface area exposed to these environments. However, an accurate calculation of the solvent-accessible surface area (SASA), a geometric measure of this exposure, is numerically demanding as it is not pair-wise decomposable. Furthermore, it depends on a full-atom representation of the molecule. This manuscript introduces a series of four SASA approximations of increasing computational complexity and accuracy as well as knowledge-based environment free energy potentials based on these SASA approximations. Their ability to distinguish correctly from incorrectly folded protein models is assessed to balance speed and accuracy for protein structure prediction. We find the newly developed “Neighbor Vector” algorithm provides the most optimal balance of accurate yet rapid exposure measures.

Diesel motor emissions and lung cancer mortality—Results of the second follow‐up of a cohort study in potash miners

International health authorities have graded diesel motor emissions (DME) as probably cancerogenic in human beings. There are gaps in epidemiological evidence regarding exact exposure quantification, confounder control and the investigation of highly exposed populations. We investigated the association of DME and lung cancer mortality in a historical cohort study of 5,862 German potash miners who were followed from 1970 to 2001. Cumulative exposure (CE) was measured by representative concentrations of total carbon multiplied with exposure years from the mines' medical records. Exposure and smoking behavior were validated by interviews of 3,087 participants. We computed standardized mortality ratios (SMR, external comparison) and performed Cox regression (internal comparison). The relative risk estimates (RR) with 95%-confidence intervals were adjusted for age and smoking. Vital status and causes of death were confirmed for 98.1% of participants. Sixty-one lung cancer deaths occurred. SMR-analysis showed lower than expected lung cancer mortality (healthy-worker-effect). Internal comparisons revealed risk elevations from moderate to risk doubling depending on the exposure categories used (dichotomized: up to RR 1.43[0.67-3.03] for a CE of 4.90[mg/m(3)]*years as compared with less exposure; quintiles: RR 1.13[0.46-2.75], 2.47[1.02-6.02], 1.50[0.56-4.04] and 2.28[0.87-5.97] for a CE up to 2.04, 2.73, 3.90 and >3.90, respectively, as compared with the reference of <1.29[mg/m(3)]*years). Additional adjustment of length of follow-up leads to further RR increases and indicates healthy-worker-survivor-phenomena. The analyses of a sub-cohort (n = 3,335) with particularly accurate exposure measurement revealed a nonsignificant dose-response-relationship. Our results support an association of DME and lung cancer mortality.

Malignant mesothelioma

Malignant mesothelioma is a fatal asbestos-associated malignancy originating from the lining cells (mesothelium) of the pleural and peritoneal cavities, as well as the pericardium and the tunica vaginalis. The exact prevalence is unknown but it is estimated that mesotheliomas represent less than 1% of all cancers. Its incidence is increasing, with an expected peak in the next 10–20 years. Pleural malignant mesothelioma is the most common form of mesothelioma. Typical presenting features are those of chest pain and dyspnoea. Breathlessness due to a pleural effusion without chest pain is reported in about 30% of patients. A chest wall mass, weight loss, sweating, abdominal pain and ascites (due to peritoneal involvement) are less common presentations. Mesothelioma is directly attributable to occupational asbestos exposure with a history of exposure in over 90% of cases. There is also evidence that mesothelioma may result from both para-occupational exposure and non-occupational "environmental" exposure. Idiopathic or spontaneous mesothelioma can also occur in the absence of any exposure to asbestos, with a spontaneous rate in humans of around one per million. A combination of accurate exposure history, along with examination radiology and pathology are essential to make the diagnosis. Distinguishing malignant from benign pleural disease can be challenging. The most helpful CT findings suggesting malignant pleural disease are 1) a circumferential pleural rind, 2) nodular pleural thickening, 3) pleural thickening of > 1 cm and 4) mediastinal pleural involvement. Involvement of a multidisciplinary team is recommended to ensure prompt and appropriate management, using a framework of radiotherapy, chemotherapy, surgery and symptom palliation with end of life care. Compensation issues must also be considered. Life expectancy in malignant mesothelioma is poor, with a median survival of about one year following diagnosis.

Environmental exposure measurement in cancer epidemiology.

Environmental exposures, used in the broadest sense of lifestyle, infections, radiation, natural and man-made chemicals and occupation, are a major cause of human cancer. However, the precise contribution of specific risk factors and their interaction, both with each other and with genotype, continues to be difficult to elucidate. This is partially due to limitations in accurately measuring exposure with the subsequent risk of misclassification. One of the primary challenges of molecular cancer epidemiology therefore is to improve exposure assessment. Progress has been made with biomarkers such as carcinogens and their metabolites, DNA and protein adducts and mutations measured in various tissues and body fluids. Nevertheless, much remains to be accomplished in order to establish aetiology and provide the evidence base for public health decisions. This review considers some of the principles behind the application of exposure biomarkers in cancer epidemiology. It also demonstrates how the same biomarkers can contribute both to establishing the biological plausibility of associations between exposure and disease and be valuable endpoints in intervention studies. The potential of new technologies such as transcriptomics, proteomics and metabonomics to provide a step change in environmental exposure assessment is discussed. An increasing recognition of the role of epigenetic changes in carcinogenesis presents a fresh challenge as alterations in DNA methylation, histone modification and microRNA in response to environmental exposures demand a new generation of exposure biomarker. The overall importance of this area of research is brought into sharp relief by the large prospective cohort studies (e.g. UK Biobank) which need accurate exposure measurement in order to shed light on the complex gene:environment interactions underlying common chronic disorders including cancer. It is suggested that a concerted effort is now required, with appropriate funding, to develop and validate the required exposure assessment methodology before these cohorts come to maturity.

A dynamic activity-based population modelling approach to evaluate exposure to air pollution: Methods and application to a Dutch urban area

Recent air quality studies have highlighted that important differences in pollutant concentrations can occur over the day and between different locations. Traditional exposure analyses, however, assume that people are only exposed to pollution at their place of residence. Activity-based models, which recently have emerged from the field of transportation research, offer a technique to micro-simulate activity patterns of a population with a high resolution in space and time. Due to their characteristics, this model can be applied to establish a dynamic exposure assessment to air pollution. This paper presents a new exposure methodology, using a micro-simulator of activity–travel behaviour, to develop a dynamic exposure assessment. The methodology is applied to a Dutch urban area to demonstrate the advantages of the approach for exposure analysis. The results for the exposure to PM 10 and PM 2.5, air pollutants considered as hazardous for human health, reveal large differences between the static and the dynamic approach, mainly due to an underestimation of the number of hours spent in the urban region by the static method. We can conclude that this dynamic population modelling approach is an important improvement over traditional methods and offers a new and more sensitive way for estimating population exposure to air pollution. In the light of the new European directive, aimed at reducing the exposure of the population to PM 2.5, this new approach contributes to a much more accurate exposure assessment that helps evaluate policies to reduce public exposure to air pollution.

Abstract PL02-02: Foodborne toxins in developing countries

Abstract PL02-02 Mycotoxins are fungal metabolites which commonly contaminate the human food supply, particularly cereals (e.g. maize (corn), wheat, barley and oats), oilseeds (e.g. groundnuts (peanuts)) and tree nuts. Estimates are that around 25% of food worldwide contains these toxins. The mycotoxins of most importance from a human health perspective are aflatoxins, fumonisins, ochratoxin A, tricothecenes and zearalenone. Exposure to aflatoxins and fumonisins, both of which are carcinogenic, occurs predominantly in developing countries. This is due to a combination of factors, including the climatic conditions which promote crop stress, fungal growth and toxin production during cultivation and storage; the reliance on a few dietary staple foods; inadequate food sufficiency, translating to consumption of contaminated food; and the absence of regulation, or implementation of regulations, to control mycotoxin levels in the food supply. At the same time, understanding the human health effects of mycotoxins has been hampered, at least in part, by the absence of accurate exposure measurements. In response, biomarkers offer to improve exposure assessment at the individual level. These same biomarkers can be used to evaluate potential approaches to reduce mycotoxin exposure. Aflatoxins have been associated with increased liver cancer risk in interaction with chronic hepatitis B virus (HBV) infection, but the underlying molecular mechanisms remain ill-defined. Genetic polymorphisms in genes coding for aflatoxin metabolising enzymes and DNA repair enzymes were associated with an altered cancer risk1,2 and earlier data suggested that HBV infection could alter expression of some of these metabolising enzymes3. In West Africa there is a high prevalence and level of dietary exposure to aflatoxins, with &amp;gt;90% of the individuals having detectable blood aflatoxin-albumin adduct4. Exposure is life-long, beginning in utero, reducing during breastfeeding, but increasing markedly at weaning. This exposure early in life in West Africa has been associated with a striking impairment of growth in young children5-8. Exposure was also associated with a decrease in salivary IgA levels9. Growth and immune impairment could therefore be critical in pre-disposing children to the infections, including HBV, that result in the high morbidity and mortality in these populations. In parallel, to the studies of disease aetiology, we evaluated a simple post-harvest intervention in Guinea to reduce aflatoxin contamination of the groundnut crop. This involved sun-drying the crop on mats prior to storage; the use of natural fibre bags for storage; the use of wooden pallets to keep the bags off the moist earth in the storage facilities and the application of insecticide on the floor of the facility. This intervention resulted in a &amp;gt;50% mean reduction in aflatoxin-albumin adducts in subjects in the intervention villages five months post-harvest10. In addition, around 20% of subjects in the intervention villages had no detectable aflatoxin-albumin biomarker in their serum compared to less than 3% in the control villages. This demonstrates that relatively simple prevention approaches can make a significant impact on aflatoxin exposure when implemented at the small subsistence farm level. This primary prevention compares well with the alternative approach of chemoprevention using oltipraz, chlorophyllin, green tea or broccoli tea as demonstrated in studies in aflatoxin-exposed individuals in the People’s Republic of China11. More recently the use of absorbent clays in the diet in Ghana has been shown to reduce aflatoxin biomarker levels12. Overall the prevention of hepatocellular carcinoma in developing countries depends on reducing chronic infection with hepatitis B or C viruses as well as a reduction in aflatoxin exposure. It is also notable that the health effects of aflatoxin exposure may extend well-beyond liver cancer if the associations with impaired growth and immunity are causal. This would significantly change the priority assigned to tackling this environmental toxin. Fumonisins are predominantly found in maize. These toxins have been associated with squamous cell carcinoma of the oesophagus in parts of southern Africa and People’s Republic of China and, more recently, with a high incidence of neural tube defects on the Texas-Mexico border. We developed a urinary biomarker for fumonisin exposure and in a study in Mexico showed that tortilla intake, the major source of maize, was correlated with the biomarker13. In the former Transkei region of South Africa a high level of fumonisin exposure was also demonstrated using the urinary biomarker. The effectiveness in reducing fumonisin contamination by hand-washing and sorting maize kernels prior to cooking was evaluated using the biomarker in a study of subsistence farming families. In summary, mycotoxins are common in much of the food supply of the developing world. However, the adverse health effects of these chronic exposures are not fully understood. The ability to measure exposure permits both aetiologic and intervention studies to be conducted in the future. Finally, in assessing the benefits of interventions, the complex range of adverse health effects resulting from mycotoxin exposure needs to be taken into account. Citation Information: Cancer Prev Res 2008;1(7 Suppl):PL02-02.

Traffic-Related Air Pollution and Stress: Effects on Asthma

Traffic-Related Air Pollution and Stress: Effects on Asthma

Dioxins and cardiovascular disease mortality.

ObjectiveIn this systematic review we evaluated the evidence on the association between dioxin exposure and cardiovascular disease (CVD) mortality in humans.Data sources and extractionWe conducted a PubMed search in December 2007 and considered all English-language epidemiologic studies and their citations regarding dioxin exposure and CVD mortality. To focus on dioxins, we excluded cohorts that were either primarily exposed to polychlorinated biphenyls or from the leather and perfume industries, which include other cardiotoxic coexposures.Data synthesisWe included results from 12 cohorts in the review. Ten cohorts were occupationally exposed. We divided analyses according to two well-recognized criteria of epidemiologic study quality: the accuracy of the exposure assessment, and whether the exposed population was compared with an internal or an external (e.g., general population) reference group. Analyses using internal comparisons with accurate exposure assessments are the highest quality because they minimize both exposure misclassification and confounding due to workers being healthier than the general population (“healthy worker effect”). The studies in the highest-quality group found consistent and significant dose-related increases in ischemic heart disease (IHD) mortality and more modest associations with all-CVD mortality. Their primary limitation was a lack of adjustment for potential confounding by the major risk factors for CVD.ConclusionsThe results of this systematic review suggest that dioxin exposure is associated with mortality from both IHD and all CVD, although more strongly with the former. However, it is not possible to determine the potential bias, if any, from confounding by other risk factors for CVD.

Deoxynivalenol: Rationale for development and application of a urinary biomarker

Mycotoxins are common dietary contaminants in most regions of the world. The frequency of exposure to the various families of mycotoxins is often dependent on geographic location, national wealth and related agricultural and regulatory infrastructure, combined with diversity of diet and degree of food sufficiency. Deoxynivalenol (DON) is a Fusarium mycotoxin that frequently contaminates wheat, corn and barley in temperate regions. A number of acute poisoning incidences have been linked to DON-contaminated foods and chronic exposure to lower levels of DON has been predicted in many regions. DON is a potent animal toxin and exposure in humans may cause gastroenteritis, growth faltering and immune toxicity. An ability to conduct accurate exposure assessment at the individual level is required to fully understand the potential health consequences for humans. To date, such exposure biomarkers have been lacking for many important mycotoxins, including DON. To better assess exposure to DON at the individual level, we have developed a robust urinary assay, incorporating immunoaffinity column (IAC) enrichment and LC–MS detection. Further refinement of this urinary assay, by inclusion of 13C-DON as an internal standard, was then undertaken and tested within the UK. DON was frequently observed in urine and was significantly associated with cereal intake. A dietary intervention study demonstrated that avoiding wheat in the diet markedly reduced urinary levels of DON. This biomarker requires further validation but our initial data suggest it may provide a useful tool in epidemiological investigations of the potential health consequences of this common environmental toxin.

Determinants of Incidence and Clearance of High-Risk Human Papillomavirus Infections in Rural Rakai, Uganda

We used self-administered vaginal swabs to assess the incidence and clearance of carcinogenic human papillomavirus (HPV) infections in rural Rakai, Uganda. Women provided self-administered vaginal swab at annual home-based visits. Type-specific carcinogenic HPV incidence and clearance and risk factors were assessed. Carcinogenic HPV incidence was 17.3 per 100 person-years among HIV-positive women compared with 7.0 per 100 person-years among HIV-negative women (P < 0.001). HPV-51 had the highest incidence followed by HPV-16 (1.8 per 100 and 1.5 per 100 person-years, respectively). In multivariate model, HIV-positive women were twice as likely to have incident infection compared with HIV-negative women. Younger women were at higher risk for incident infection, as were women with higher lifetime and recent sexual partners, and high perception of AIDS. Married women were less likely to have incident infection. Approximately half of all carcinogenic HPV infections cleared over the study follow-up of 3 years. HPV-31, HPV-35, and HPV-16 had the lowest clearance (16.7%, 27.9%, and 38.3%, respectively). In multivariate model, HIV-positive, women over 30 years with higher HPV viral, burden and more lifetime sex partners were less likely to clear infections. Self-collected vaginal swabs provide accurate HPV exposure assessment for studying HPV exposure and epidemiology and can be an important tool for research in populations unwilling to undergo pelvic exam.

Toward Better Exposure Assessment Strategies—The New NIOSH Initiative

NIOSH has embarked on a project to update its exposure sampling strategies manual. The current NIOSH strategy has a number of limitations. This is an opportunity to develop a robust and comprehensive exposure assessment strategy. Some of the key features of such a strategy are outlined. The importance of accurate professional judgment and exposure modeling is discussed. Bayesian statistics offers a rational approach to integrating sampling data, professional judgments, and the outputs of exposure models in a comprehensive framework.

Spatial and temporal variation of particle number concentration in Augsburg, Germany

Epidemiological studies on health effects of outdoor air pollution are largely based on a single monitoring site to estimate the exposure of people living in urban areas. For such an approach two aspects are important: the temporal correlation and the spatial variation of the absolute levels of concentrations measured at different sites in an urban area. Whereas many studies have shown small spatial variability of fine particles in urban areas, little is known on how well a single monitoring station could represent the temporal and spatial variation of ultrafine particles across urban areas. In our study we investigated the temporal and spatial variation of particle number concentration (PNC) at four background sites in Augsburg, Germany. Two of them were influenced by traffic, one was placed in the outskirts of the city. The average PNC levels at two urban background sites with traffic impact were 16,943 cm − 3 and 20,702 cm − 3 , respectively, compared to 11,656 cm − 3 at the urban background site without traffic impact (ratio 1.5 to 1.8). The Spearman correlation coefficients between the monitoring sites were high ( r > 0.80). The pronounced differences in absolute PNC levels suggest that the use of a single monitoring station in long-term epidemiological studies must be insufficient to attribute accurate exposure levels of PNC to all study subjects. On the other hand, the high temporal correlations of PNC across the city area of Augsburg implicate that in epidemiological time-series studies the use of one single ambient monitoring site is an adequate approach for characterizing exposure to ultrafine particles.