Your search keyword '"Batterman, Stuart"' showing total 15 results

1. Cross-shift changes in pulmonary function and occupational exposure to particulate matter among e-waste workers in Ghana.

Author

Laskaris Z, O'Neill MS, Batterman SA, Mukherjee B, Fobil JN, and Robins TG

Subjects

Humans, Ghana, Male, Adult, Female, Electronic Waste statistics & numerical data, Middle Aged, Inhalation Exposure adverse effects, Inhalation Exposure statistics & numerical data, Vital Capacity, Forced Expiratory Volume, Air Pollutants, Occupational analysis, Occupational Exposure, Particulate Matter analysis, Respiratory Function Tests

Abstract

Introduction: Little is known on the association between cross-shift changes in pulmonary function and personal inhalation exposure to particulate matter (PM) among informal electronic-waste (e-waste) recovery workers who have substantial occupational exposure to airborne pollutants from burning e-waste., Methods: Using a cross-shift design, pre- and post-shift pulmonary function assessments and accompanying personal inhalation exposure to PM (sizes <1, <2.5 μm, and the coarse fraction, 2.5-10 μm in aerodynamic diameter) were measured among e-waste workers ( n = 142) at the Agbogbloshie e-waste site and a comparison population ( n = 65) in Accra, Ghana during 2017 and 2018. Linear mixed models estimated associations between percent changes in pulmonary function and personal PM., Results: Declines in forced expiratory volume in one second (FEV1) and forced vital capacity (FVC) per hour were not significantly associated with increases in PM (all sizes) among either study population, despite breathing zone concentrations of PM (all sizes) that exceeded health-based guidelines in both populations. E-waste workers who worked "yesterday" did, however, have larger cross-shift declines in FVC [-2.4% (95%CI: -4.04%, -0.81%)] in comparison to those who did not work "yesterday," suggesting a possible role of cumulative exposure., Discussion: Overall, short-term respiratory-related health effects related to PM exposure among e-waste workers were not seen in this sample. Selection bias due to the "healthy worker" effect, short shift duration, and inability to capture a true "pre-shift" pulmonary function test among workers who live at the worksite may explain results and suggest the need to adapt cross-shift studies for informal settings., Competing Interests: The authors declare that this study received funding from the Dow Chemical Company Foundation through the Dow Sustainability Fellows Program at the University of Michigan. The funder was not involved in the study design, collection, analysis, interpretation of data, the writing of this article or the decision to submit it for publication., (Copyright © 2024 Laskaris, O'Neill, Batterman, Mukherjee, Fobil and Robins.)

Published

2024

2. Occupational history associates with ALS survival and onset segment.

Author

Goutman SA, Boss J, Godwin C, Mukherjee B, Feldman EL, and Batterman SA

Subjects

Male, Humans, Female, Risk Factors, Prospective Studies, Amyotrophic Lateral Sclerosis diagnosis, Amyotrophic Lateral Sclerosis epidemiology, Amyotrophic Lateral Sclerosis etiology, Occupational Exposure adverse effects, Military Personnel

Abstract

Objective: To identify associations between occupational settings and self-reported occupational exposures on amyotrophic lateral sclerosis (ALS) survival and phenotypes., Methods: All patients seen in the University of Michigan Pranger ALS Clinic were invited to complete an exposure assessment querying past occupations and exposures. Standard occupational classification (SOC) codes for each job and the severity of various exposure types were derived. Cox proportional hazards models associated all-cause mortality with occupational settings and the self-reported exposures after adjusting for sex, diagnosis age, revised El Escorial criteria, onset segment, revised ALS Functional Rating Scale (ALSFRS-R), and time from symptom onset to diagnosis. Multinomial logistic regression models with three categories, adjusted for age, assessed the association between occupational settings and exposures to onset segment., Results: Among the 378 ALS participants (median age, 64.7 years; 54.4% male), poorer survival was associated with work in SOC code "Production Occupations" and marginally with work in "Military Occupation"; poor survival associated with self-reported occupational pesticide exposure in adjusted models. Among onset segments: cervical onset was associated with ALS participants having ever worked in "Buildings and Grounds Cleaning and Maintenance Occupations," "Construction and Extraction Occupations," and "Production Occupations"; bulbar onset with self-reported occupational exposure to radiation; and cervical onset with exposure to particulate matter, volatile organic compounds, metals, combustion and diesel exhaust, electromagnetic radiation, and radiation., Conclusion: Occupational settings and self-reported exposures influence ALS survival and onset segment. Further studies are needed to explore and understand these relationships, most advantageously using prospective cohorts and detailed ALS registries.

Published

2023

3. Association between global DNA methylation (LINE-1) and occupational particulate matter exposure among informal electronic-waste recyclers in Ghana.

Author

Issah I, Arko-Mensah J, Rozek LS, Rentschler K, Agyekum TP, Dwumoh D, Batterman S, Robins TG, and Fobil JN

Subjects

DNA Methylation, Ghana, Humans, Nucleotides, Particulate Matter analysis, Air Pollutants analysis, Electronic Waste, Occupational Exposure analysis

Abstract

This study examined the associations between PM (2.5 and 10) and global DNA methylation among 100 e-waste workers and 51 non-e-waste workers serving as controls. Long interspersed nucleotide repetitive elements-1 (LINE-1) was measured by pyrosequencing. Personal PM 2.5 and PM 10 were measured over a 4-hour work-shift using real-time particulate monitors incorporated into a backpack . Linear regression models were used to assess the association between PM and LINE-1 DNA methylation. The concentrations of PM 2.5 and PM 10 were significantly higher among the e-waste workers than the controls (77.32 vs 34.88, p < 0.001 and 210.21 vs 121.92, p < 0.001 , respectively). PM 2.5 exposure was associated with increased LINE-1 CpG2 DNA methylation (β = 0.003; 95% CI; 0.001, 0.006; p = 0.022) but not with the average of all 4 CpG sites of LINE-1. In summary, high levels of PM 2.5 exposure was associated with increased levels of global DNA methylation in a site-specific manner.

Published

2022

4. Associations of self-reported occupational exposures and settings to ALS: a case-control study.

Author

Goutman SA, Boss J, Godwin C, Mukherjee B, Feldman EL, and Batterman SA

Subjects

Case-Control Studies, Humans, Metals, Particulate Matter, Risk Factors, Self Report, Vehicle Emissions, Amyotrophic Lateral Sclerosis, Occupational Exposure, Pesticides, Volatile Organic Compounds

Abstract

Background: Environmental exposures contribute to the pathogenesis of amyotrophic lateral sclerosis (ALS), a fatal and progressive neurological disease. Identification of these exposures is important for targeted screening and risk factor modification., Objective: To identify occupational exposures that are associated with a higher risk of ALS using both survey and standard occupational classification (SOC) coding procedures, and to highlight how exposure surveys can complement SOC coding., Methods: ALS participants and neurologically healthy controls recruited in Michigan completed a detailed exposure assessment on their four most recent and longest held occupations. Exposure scores were generated from the exposure survey, and occupations were assigned to SOC codes by experienced exposure scientists., Results: This study included 381 ALS and 272 control participants. ALS participants reported higher duration-adjusted occupational exposure to particulate matter (OR = 1.45, 95% CI 1.19-1.78, p < 0.001), volatile organic compounds (OR = 1.22, 95% CI 1.02-1.45, p = 0.029), metals (OR = 1.48, 95% CI 1.21-1.82, p < 0.001), and combustion and diesel exhaust pollutants (OR = 1.20, 95% CI 1.01-1.43, p = 0.041) prior to ALS diagnosis, when adjusted for sex, age, and military service compared to controls. In multivariable models, only occupational exposure to metals remained significant risk (OR = 1.56, 95% CI 1.11-2.20, p = 0.011), although in an adaptive elastic net model, particulate matter (OR = 1.203), pesticides (OR = 1.015), and metals (1.334) were all selected as risk factors. Work in SOC code "Production Occupations" was associated with a higher ALS risk. SOC codes "Building and Grounds Cleaning and Maintenance Occupations", "Construction and Extraction Occupations", "Installation, Maintenance, and Repair Occupations", and "Production Occupations" were all associated with a higher exposure to metals as determined using survey data., Discussion: Occupational exposure to particulate matter, volatile organic compounds, metals, pesticides, and combustion and diesel exhaust and employment in "Production Occupations" was associated with an increased ALS risk in this cohort., (© 2022. The Author(s).)

Published

2022

5. Occupational exposures to particulate matter and PM 2.5 -associated polycyclic aromatic hydrocarbons at the Agbogbloshie waste recycling site in Ghana.

Author

Kwarteng L, Devasurendra AM, Laskaris Z, Arko-Mensah J, Amoabeng Nti AA, Takyi S, Acquah AA, Dwomoh D, Basu N, Robins T, Fobil JN, and Batterman S

Subjects

Environmental Monitoring, Ghana, Humans, Particulate Matter analysis, Air Pollutants analysis, Electronic Waste, Occupational Exposure analysis, Polycyclic Aromatic Hydrocarbons analysis

Abstract

Electronic waste (e-waste) disposal and recycling activities such as burning and smelting can emit particulate matter (PM), polycyclic aromatic hydrocarbons (PAHs), and other pollutants that expose workers and nearby communities. At informal e-waste recycling facilities, both emission controls and protective measures for workers are absent. This study characterizes personal exposures (breathing zone) of PM and PAHs of e-waste workers at the large Agbogbloshie e-waste site in Accra, Ghana. We collected gravimetric and optical measurements of PM 2.5 and PM 10 using shift samples for workers and for an age- and gender-matched reference population. PM 2.5 filters were analyzed for 26 PAHs using gas chromatography/mass spectroscopy. Among e-waste workers, PM 2.5 and PM 10 concentrations were 99 ± 56 and 218 ± 158 µg/m 3 (median ± interquartile range, optical measurements), respectively; these levels were 78 and 57% higher, respectively, than levels measured at a fixed site that was centrally located at the waste site. In the reference community, breathing zone PM 2.5 and PM 10 levels were lower, 49 ± 20 and 131 ± 108 µg/m 3 , respectively, and the fraction of coarse PM was larger. We detected all 26 target PAHs, of which naphthalene and phenanthrene were the most abundant. PAH concentrations were weakly correlated to PM levels, but PAH abundances, representing the fraction of PAH mass to the total PM 2.5 mass collected, were strongly and inversely correlated to PM levels, suggesting multiple and different sources of PAHs and PM that affected exposures. Both PM and PAH levels were elevated for workers performing burning and dismantling, and both exceeded standards or risk-based guidelines, e.g., lifetime excess cancer risks for several PAHs were in the 10 -4 to 10 -6 range, indicating the need to reduce emissions as well as provide respiratory protection. The study emphasizes the importance of using personal and shift samples to accurately characterize worker exposure., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

6. Global DNA (LINE-1) methylation is associated with lead exposure and certain job tasks performed by electronic waste workers.

Author

Issah I, Arko-Mensah J, Rozek LS, Zarins KR, Agyekum TP, Dwomoh D, Basu N, Batterman S, Robins TG, and Fobil JN

Subjects

Adult, Air Pollutants, Occupational blood, Air Pollutants, Occupational urine, Biological Monitoring, Cadmium blood, Cadmium urine, Epigenesis, Genetic, Ghana, Humans, Lead blood, Lead urine, Male, Occupational Exposure analysis, Recycling, Young Adult, Air Pollutants, Occupational adverse effects, DNA Methylation drug effects, Electronic Waste, Lead adverse effects, Long Interspersed Nucleotide Elements genetics, Occupational Exposure adverse effects

Abstract

Objective: This study assessed the associations between blood and urine levels of toxic metals; cadmium (Cd) and lead (Pb), and methylation levels of the LINE-1 gene among e-waste and control populations in Ghana., Methods: The study enrolled 100 male e-waste workers and 51 all-male non-e-waste workers or controls. The concentrations of Cd and Pb were measured in blood and urine using inductively coupled plasma mass spectrometry, while LINE1 methylation levels were assessed by pyrosequencing of bisulfite-converted DNA extracted from whole blood. Single and multiple metals linear regression models were used to determine the associations between metals and LINE1 DNA methylation., Results: Blood lead (BPb) and urine lead (UPb) showed higher median concentrations among the e-waste workers than the controls (76.82 µg/L vs 40.25 µg/L, p ≤ 0.001; and 6.89 µg/L vs 3.43 µg/L, p ≤ 0.001, respectively), whereas blood cadmium (BCd) concentration was lower in the e-waste workers compared to the controls (0.59 µg/L vs 0.81 µg/L, respectively, p = 0.003). There was no significant difference in LINE1 methylation between the e-waste and controls (85.16 ± 1.32% vs 85.17 ± 1.11%, p = 0.950). In our single metal linear regression models, BPb was significantly inversely associated with LINE1 methylation in the control group (β BPb  = - 0.027, 95% CI - 0.045, - 0.010, p = 0.003). In addition, a weak association between BPb and LINE1 was observed in the multiple metals analysis in the e-waste worker group (β BPb  = - 0.005, 95% CI - 0.011, 0.000, p = 0.058)., Conclusion: Continuous Pb exposure may interfere with LINE1 methylation, leading to epigenetic alterations, thus serving as an early epigenetic marker for future adverse health outcomes., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

7. Airborne volatile organic compounds at an e-waste site in Ghana: Source apportionment, exposure and health risks.

Author

Lin N, Kwarteng L, Godwin C, Warner S, Robins T, Arko-Mensah J, Fobil JN, and Batterman S

Subjects

Environmental Monitoring, Ghana, Humans, Air Pollutants analysis, Electronic Waste, Occupational Exposure analysis, Volatile Organic Compounds analysis

Abstract

Informal e-waste recycling processes emit various air pollutants. While there are a number of pollutants of concern, little information exists on volatile organic compounds (VOCs) releases at e-waste sites. To assess occupational exposures and estimate health risks, we measured VOC levels at the Agbogbloshie e-waste site in Ghana, the largest e-waste site in Africa, by collecting both fixed-site and personal samples for analyzing a wide range of VOCs. A total of 54 VOCs were detected, dominated by aliphatic and aromatic compounds. Mean and median concentrations of the total target VOCs were 46 and 37 μg/m 3 at the fixed sites, and 485 and 162 μg/m 3 for the personal samples. Mean and median hazard ratios were 2.1 and 1.4, respectively, and cancer risks were 4.6 × 10 -4 and 1.5 × 10 -4 . These risks were predominantly driven by naphthalene and benzene; chloroform and formaldehyde were also high in some samples. Based on the VOC composition, the major sources were industry, fuel evaporation and combustion. The concentration gradient across sites and the similarity of VOC profiles indicated that the e-waste site emissions reached neighboring communities. Our results suggest the need to protect e-waste workers from VOC exposure, and to limit emissions that can expose nearby populations., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

8. Opportunities and challenges in reducing personal inhalation exposure to air pollution among electronic waste recovery workers in Ghana.

Author

Laskaris Z, Batterman SA, Arko-Mensah J, Mukherjee B, Fobil JN, O'Neill MS, and Robins TG

Subjects

Air Pollutants analysis, Environmental Monitoring, Ghana, Humans, Inhalation Exposure prevention & control, Metals, Occupational Exposure prevention & control, Particulate Matter analysis, Transportation, Air Pollution analysis, Electronic Waste, Inhalation Exposure analysis, Occupational Exposure analysis, Waste Management

Abstract

Background: Informal sector electronic waste (e-waste) recovery produces toxic emissions resulting from burning e-waste to recover valuable metals., Objectives: To identify high-risk worker groups by measuring relative levels of personal inhalation exposure to particulate matter (PM) of fine (≤2.5 µm) and coarse (2.5-10 µm) fractions (PM 2.5 and PM 2.5-10, respectively) across work activities among e-waste workers, and to assess how wind conditions modify levels of PM by activity and site location., Methods: At the Agbogbloshie e-waste site, 170 partial-shift PM samples and time-activity data were collected from participants (N = 105) enrolled in the GeoHealth cohort study. Personal sampling included continuous measures of size-specific PM from the worker's breathing zone and time-activity derived from wearable cameras. Linear mixed models were used to estimate changes in personal PM 2.5 and PM 2.5-10 associated with activities and evaluate effect modification by wind conditions., Results: Mean (±standard deviation) personal PM 2.5 and PM 2.5-10 concentrations were 80 (±  81) and 123 (± 139) µg m -3 , respectively. The adjusted mean PM 2.5 concentration for burning e-waste was 88 µg m -3 , a 28% increase above concentrations during non-recovery activities (such as eating). Transportation-related and burning activities were associated with the highest PM 2.5-10 concentrations. Frequent changes in wind direction were associated with higher PM 2.5 concentrations when burning, and high wind speeds with higher PM 2.5-10 concentrations when dismantling e-waste downwind of the burning zone., (© 2021 Wiley Periodicals LLC.)

Published

2021

9. Occupational exposure and health risks of volatile organic compounds of hotel housekeepers: Field measurements of exposure and health risks.

Author

Lin N, Rosemberg MA, Li W, Meza-Wilson E, Godwin C, and Batterman S

Subjects

Air Pollutants, Formaldehyde, Humans, Ventilation, Air Pollutants, Occupational, Air Pollution, Indoor statistics & numerical data, Occupational Exposure statistics & numerical data, Volatile Organic Compounds

Abstract

Hotel housekeepers represent a large, low-income, predominantly minority, and high-risk workforce. Little is known about their exposure to chemicals, including volatile organic compounds (VOCs). This study evaluates VOC exposures of housekeepers, sources and factors affecting VOC levels, and provides preliminary estimates of VOC-related health risks. We utilized indoor and personal sampling at two hotels, assessed ventilation, and characterized the VOC composition of cleaning agents. Personal sampling of hotel staff showed a total target VOC concentration of 57 ± 36 µg/m 3 (mean ± SD), about twice that of indoor samples. VOCs of greatest health significance included chloroform and formaldehyde. Several workers had exposure to alkanes that could cause non-cancer effects. VOC levels were negatively correlated with estimated air change rates. The composition and concentrations of the tested products and air samples helped identify possible emission sources, which included building sources (for formaldehyde), disinfection by-products in the laundry room, and cleaning products. VOC levels and the derived health risks in this study were at the lower range found in the US buildings. The excess lifetime cancer risk (average of 4.1 × 10 -5 ) still indicates a need to lower exposure by reducing or removing toxic constituents, especially formaldehyde, or by increasing ventilation rates., (© 2020 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2021

10. Effect of Particulate Matter Exposure on Respiratory Health of e-Waste Workers at Agbogbloshie, Accra, Ghana.

Author

Amoabeng Nti AA, Arko-Mensah J, Botwe PK, Dwomoh D, Kwarteng L, Takyi SA, Acquah AA, Tettey P, Basu N, Batterman S, Robins TG, and Fobil JN

Subjects

Adult, Environmental Exposure, Ghana, Humans, Longitudinal Studies, Young Adult, Air Pollutants toxicity, Asthma, Electronic Waste, Occupational Exposure, Particulate Matter toxicity

Abstract

Background : Direct and continuous exposure to particulate matter (PM), especially in occupational settings is known to impact negatively on respiratory health and lung function. Objective : To determine the association between concentrations of PM (2.5, 2.5-10 and 10 µm) in breathing zone and lung function of informal e-waste workers at Agbogbloshie. Methods : To evaluate lung function responses to PM (2.5, 2.5-10 and 10 µm), we conducted a longitudinal cohort study with three repeated measures among 207 participants comprising 142 healthy e-waste workers from Agbogbloshie scrapyard and 65 control participants from Madina-Zongo in Accra, Ghana from 2017-2018. Lung function parameters (FVC, FEV1, FEV1/FVC, PEF, and FEF 25-75) and PM (2.5, 2.5-10 and 10 µm) concentrations were measured, corresponding to prevailing seasonal variations. Socio-demographic data, respiratory exposures and lifestyle habits were determined using questionnaires. Random effects models were then used to examine the effects of PM (2.5, 2.5-10 and 10 µm) on lung function. Results : The median concentrations of PM (2.5, 2.5-10 and 10 µm) were all consistently above the WHO ambient air standards across the study waves. Small effect estimates per IQR of PM (2.5, 2.5-10 and 10 µm) on lung function parameters were observed even after adjustment for potential confounders. However, a 10 µg increase in PM (2.5, 2.5-10 and 10 µm) was associated with decreases in PEF and FEF 25-75 by 13.3% % [β = -3.133; 95% CI: -0.243, -0.022) and 26.6% [β = -0.266; 95% CI: -0.437, 0.094]. E-waste burning and a history of asthma significantly predicted a decrease in PEF by 14.2% [β = -0.142; 95% CI: -0.278, -0.008) and FEV1 by 35.8% [β = -0.358; 95% CI: -0.590, 0.125] among e-waste burners. Conclusions : Direct exposure of e-waste workers to PM predisposes to decline in lung function and risk for small airway diseases such as asthma and COPD.

Published

2020

11. Derivation of Time-Activity Data Using Wearable Cameras and Measures of Personal Inhalation Exposure among Workers at an Informal Electronic-Waste Recovery Site in Ghana.

Author

Laskaris Z, Milando C, Batterman S, Mukherjee B, Basu N, O'neill MS, Robins TG, and Fobil JN

Subjects

Environmental Monitoring instrumentation, Ghana, Humans, Particulate Matter analysis, Video Recording, Air Pollutants, Occupational analysis, Electronic Waste adverse effects, Environmental Monitoring methods, Inhalation Exposure analysis, Occupational Exposure analysis, Wearable Electronic Devices

Abstract

Objectives: Approximately 2 billion workers globally are employed in informal settings, which are characterized by substantial risk from hazardous exposures and varying job tasks and schedules. Existing methods for identifying occupational hazards must be adapted for unregulated and challenging work environments. We designed and applied a method for objectively deriving time-activity patterns from wearable camera data and matched images with continuous measurements of personal inhalation exposure to size-specific particulate matter (PM) among workers at an informal electronic-waste (e-waste) recovery site., Methods: One hundred and forty-two workers at the Agbogbloshie e-waste site in Accra, Ghana, wore sampling backpacks equipped with wearable cameras and real-time particle monitors during a total of 171 shifts. Self-reported recall of time-activity (30-min resolution) was collected during the end of shift interviews. Images (N = 35,588) and simultaneously measured PM2.5 were collected each minute and processed to identify activities established through worker interviews, observation, and existing literature. Descriptive statistics were generated for activity types, frequencies, and associated PM2.5 exposures. A kappa statistic measured agreement between self-reported and image-based time-activity data., Results: Based on image-based time-activity patterns, workers primarily dismantled, sorted/loaded, burned, and transported e-waste materials for metal recovery with high variability in activity duration. Image-based and self-reported time-activity data had poor agreement (kappa = 0.17). Most measured exposures (90%) exceeded the World Health Organization (WHO) 24-h ambient PM2.5 target of 25 µg m-3. The average on-site PM2.5 was 81 µg m-3 (SD: 94). PM2.5 levels were highest during burning, sorting/loading and dismantling (203, 89, 83 µg m-3, respectively). PM2.5 exposure during long periods of non-work-related activities also exceeded the WHO standard in 88% of measured data., Conclusions: In complex, informal work environments, wearable cameras can improve occupational exposure assessments and, in conjunction with monitoring equipment, identify activities associated with high exposures to workplace hazards by providing high-resolution time-activity data., (© The Author(s) 2019. Published by Oxford University Press on behalf of the British Occupational Hygiene Society.)

Published

2019

12. Permeation of gasoline, diesel, bioethanol (E85), and biodiesel (B20) fuels through six glove materials.

Author

Chin JY and Batterman SA

Subjects

Equipment Failure Analysis, Humans, Latex, Materials Testing, Neoprene, Nitriles, Volatile Organic Compounds, Biofuels, Gasoline, Gloves, Protective standards, Occupational Exposure prevention & control, Permeability

Abstract

Biofuels and conventional fuels differ in terms of their evaporation rates, permeation rates, and exhaust emissions, which can alter exposures of workers, especially those in the fuel refining and distribution industries. This study investigated the permeation of biofuels (bioethanol 85%, biodiesel 20%) and conventional petroleum fuels (gasoline and diesel) through gloves used in occupational settings (neoprene, nitrile, and Viton) and laboratories (latex, nitrile, and vinyl), as well as a standard reference material (neoprene sheet). Permeation rates and breakthrough times were measured using the American Society for Testing and Materials F739-99 protocol, and fuel and permeant compositions were measured by gas chromatography/mass spectrometry. In addition, we estimated exposures for three occupational scenarios and recommend chemical protective clothing suitable for use with motor fuels. Permeation rates and breakthrough times depended on the fuel-glove combination. Gasoline had the highest permeation rate among the four fuels. Bioethanol (85%) had breakthrough times that were two to three times longer than gasoline through neoprene, nitrile Sol-Vex, and the standard reference materials. Breakthrough times for biodiesel (20%) were slightly shorter than for diesel for the latex, vinyl, nitrile examination, and the standard neoprene materials. The composition of permeants differed from neat fuels, e.g., permeants were significantly enriched in the lighter aromatics including benzene. Viton was the best choice among the tested materials for the four fuels tested. Among the scenarios, fuel truck drivers had the highest uptake via inhalation based on the personal measurements available in the literature, and gasoline station attendants had highest uptake via dermal exposure if gloves were not worn. Appropriate selection and use of gloves can protect workers from dermal exposures; however, current recommendations from the National Institute for Occupational Safety and Health should be revised to account for contemporary fuel formulations that routinely contain ethanol.

Published

2010

13. Evaluation of the use of low flow passive sampling technique in offset printing plants.

Author

Hautamäki M, Kalliokoski P, Hyttinen M, Pasanen P, Laitinen J, Kangas J, Luukkonen R, and Batterman S

Subjects

Adsorption, Humans, Inhalation Exposure analysis, Occupational Health, Organic Chemicals analysis, Reproducibility of Results, Volatilization, Air Pollutants, Occupational analysis, Air Pollution, Indoor analysis, Environmental Monitoring instrumentation, Occupational Exposure analysis, Printing, Solvents analysis

Abstract

Objectives: The aim of this study was to evaluate the suitability and applicability of low-flow passive tubes for sampling of organic solvents in occupational environment., Materials and Methods: Laboratory and field studies were conducted to continue the evaluation of low-flow diffusive sampling combined with thermal desorption and gas chromatographic/mass spectrometric analysis in occupational hygiene surveys. Passive sampler tubes with Tenax GR adsorbent were employed to assess exposures to organic solvents in 10 small sheet-fed offset printing plants in Finland. The retention of the solvent compounds in the samplers was investigated using laboratory chamber studies. Active sampling with activated carbon tubes served as the control method., Results: The laboratory tests showed that passive tubes had good retention, stability and reproducibility for the solvent compounds. Parallel passive and active sampling in both breathing zone and area monitoring in the printing plants yielded similar measurements though passive sampling tended to give slightly higher concentrations (by 5 to 12%). The suitability of passive sampling to be done by workers was also confirmed. The study also shows that exposure to organic solvents can be effectively reduced by the use of vegetable oil-based cleaning fluids. Especially, since ventilation and other protective measures are often inadequate in small facilities, the use of toxic cleaning solutions should be avoided., Conclusions: Passive sampling tubes with capillary orifice analyzed with thermal desorption GC-MS are well suited for measuring occupational solvent exposure. Method is well suited for sampling done by workers.

Published

2006

14. Low level exposure to hydrogen sulfide: a review of emissions, community exposure, health effects, and exposure guidelines.

Author

Batterman, Stuart, Grant-Alfieri, Amelia, and Seo, Sung-Hee

Subjects

*COMMUNITIES, *HYDROGEN sulfide, *MEASUREMENT errors, *SAMPLE size (Statistics), *AVERSION, *OCCUPATIONAL exposure, *PETROLEUM industry

Abstract

Hydrogen sulfide (H2S) is a toxic gas that is well-known for its acute health risks in occupational settings, but less is known about effects of chronic and low-level exposures. This critical review investigates toxicological and experimental studies, exposure sources, standards, and epidemiological studies pertaining to chronic exposure to H2S from both natural and anthropogenic sources. H2S releases, while poorly documented, appear to have increased in recent years from oil and gas and possibly other facilities. Chronic exposures below 10 ppm have long been associated with odor aversion, ocular, nasal, respiratory and neurological effects. However, exposure to much lower levels, below 0.03 ppm (30 ppb), has been associated with increased prevalence of neurological effects, and increments below 0.001 ppm (1 ppb) in H2S concentrations have been associated with ocular, nasal, and respiratory effects. Many of the studies in the epidemiological literature are limited by exposure measurement error, co-pollutant exposures and potential confounding, small sample size, and concerns of representativeness, and studies have yet to consider vulnerable populations. Long-term community-based studies are needed to confirm the low concentration findings and to refine exposure guidelines. Revised guidelines that incorporate both short- and long-term limits are needed to protect communities, especially sensitive populations living near H2S sources. [ABSTRACT FROM AUTHOR]

Published

2023

15. Breath monitoring of inhalation and dermal methanol exposure

Author

Batterman, Stuart, Franzblau, Alfred, D'Arcy, James B., Gross, Kenneth B., Schreck, Richard M., and Sargent, Nicholas E.

Subjects

THRESHOLD limit values (Industrial toxicology)

Published

1995