Environmental Styrene Exposure and Sensory and Motor Function in Gulf Coast Residents

Werder, Emily J.; Sandler, Dale P.; Richardson, David B.; Emch, Michael; Kwok, Richard K.; Gerr, Fredric; Engel, Lawrence S.

doi:10.1289/ehp3954

Cited by 11 publications

(3 citation statements)

References 85 publications

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“…As a result, it also poses a serious threat to human health. , Styrene can cause respiratory irritation such as coughing, sore throat, and even structural damage to human lung tissue when it enters the body through breathing or skin contact. The International Agency for Research on Cancer has classified styrene as Group 2B agent, indicating that it is a potential carcinogen. − Styrene is converted to phenylglyoxylic acid (PGA) after a series of metabolic reactions in living organisms and is then excreted through the urine. , Therefore, in order to accurately evaluate the content of styrene absorbed by the human body, it is one of the most effective analytical methods to take PGA as a biomarker and detect its concentration in the urine sample. Up to now, a variety of PGA determination methods have been reported, such as gas chromatography–mass spectrometry, voltammetry, high-performance liquid chromatography–mass spectrometry, potentiometry, capillary electrophoresis, and so forth.…”

Section: Introductionmentioning

confidence: 99%

Tetranuclear Cluster-Based Eu(III)-Metal–Organic Framework: Ratiometric Platform Design and Ultrasensitive Phenylglyoxylic Acid Detection

Ji,

Zhang,

Fan

et al. 2023

ACS Appl. Mater. Interfaces

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Phenylglyoxalic acid (PGA) is a typical metabolite produced by the invasion of styrene into the human body. The detection of PGA can not only reflect the health status of the human body but also assess the level of styrene contamination in the environment. Herein, a novel Eu(III)-MOF (Eu-ttpd) with excellent fluorescence properties was designed by employing the tetrazole-based ligand of 5-((4′-(tetrazol-5′-yl)benzyl)oxy) isophthalic acid (H2ttpd), which successfully used a fluorescent sensor for PGA. The as-synthesized Eu-ttpd features the unique 10-connected tetranuclear cluster [Eu4(μ3-O)2(COO)8]4+ and exhibits a novel (3,10)-connected topological. Benefiting from the perfectly matched excited-state energy levels of the employed H2ttpd ligand with PGA, rapid photoinduced electron transfer (PET) and Dexter-ET can occur, which entitle Eu-ttpd a fast fluorescence quenching response to PGA with a remarkable LOD of 0.269 μM. More importantly, by integrating Eu-ttpd and Mg,N-CDs into the polyacrylamide hydrogel, we optimized Eu-ttpd into a hydrogel sensor which exhibited enhanced detection ability (LOD = 0.052 μM) accompanied by a distinguished color transformation (red-to-blue) and realized ultrasensitive and visual detection of PGA. This work offers an indication for the development of smart sensing materials for human health and environmental safety.

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Section: Introductionmentioning

confidence: 99%

Tetranuclear Cluster-Based Eu(III)-Metal–Organic Framework: Ratiometric Platform Design and Ultrasensitive Phenylglyoxylic Acid Detection

Ji,

Zhang,

Fan

et al. 2023

ACS Appl. Mater. Interfaces

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“…There have also been other studies measuring VOC concentrations in air emissions during CIPP installation, but the studies did not directly measure styrene [ 7 ]. As per U.S. Department of Health and Human Services (HHS), breathing high levels of styrene has negative impacts on the nervous system [ 9 ] with impacts affecting the central, peripheral, and autonomic nervous systems reported in the literature [ 10 , 11 , 12 , 13 , 14 ]. Therefore, workers have potential to be harmed from exposure to a higher than recommended level of styrene.…”

Section: Introductionmentioning

confidence: 99%

Air Quality Dispersion Modelling to Evaluate CIPP Installation Styrene Emissions

Matthews

Kraft²,

Hossain³

et al. 2022

IJERPH

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Cured-in-place pipe (CIPP) is one of the most popular in situ rehabilitation techniques to repair sewer and water pipes. While there are multiple approaches to curing CIPP, steam-curing of styrene-based resins has been found to be associated with air-borne chemical emissions. Health officials, utilities and industry representatives have recognized the need to know more about these emissions, especially styrene. Such concern has led to multiple studies investigating the concentrations of volatile organic compounds on CIPP installation sites. This study expands upon previous effort by modeling worst-case, steam-cured CIPP emissions over a 5-year weather record. The effort also includes calibration of the model to emissions averages over the work day rather than instantaneous field measurements. Dispersion modelling software, AERMOD, was utilized to model the styrene component of CIPP emissions on two CIPP installation sites in the US. Based on the analysis results, it was found that the styrene emitted from stacks dissipates rapidly with styrene concentrations only exceeding minimum health and safety threshold levels at distances close to the stack (2 m or less). The values predicted by the model analysis are comparable with the field measured styrene concentrations from other studies. Current safety guidelines in the US recommend a 4.6-m (15-ft) safety perimeter for stack emission points. The results of this study indicate that significant and lasting health impacts are unlikely outside recommended safety perimeter. The results also validate the importance of enforcing recommended safety guidance on steam-cured CIPP sites.

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“…For instance, acetaldehyde is a marker for lung injury in ARDS but also is an indicator of excessive consumption of alcohol, smoking, and exposure to factory emissions [18,19]. Styrene gas is a toxic carcinogen used in polymer, glass, and automobile industries, whose constant and high concentration exposure may result in organ damage or death [20,21]. Though alcohols like isopropyl alcohol, ethanol, and methanol are exhaled by humans regularly, an increase in their levels can be an indicator of exposure at the workplace, such as in medical centers, which can cause central nervous damage.…”

Section: Introductionmentioning

confidence: 99%

Detection of trace volatile organic compounds in spiked breath samples: a leap towards breathomics

et al. 2022

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Breathomics is the future of non invasive point-of-care devices. The field of breathomics can be split into isolation of disease specific volatile organic compounds and their detection. In the present work, an array of five polymer with nanomaterial additive-modified Quartz Tuning Fork (QTF)-based sensors has been utilized to detect samples of human breath spiked with ∼0.5 ppm of known volatile organic compounds (VOCs) which are bio-markers for certain diseases, namely, acetone, acetaldehyde, octane, decane, ethanol, methanol, styrene, propylbenzene, cyclohexanone, butanediol, and iso-propyl alcohol. Polystyrene was used as the base polymer and it was functionalized with 4 different fillers namely, Silver nanoparticles-reduced graphene oxide composite, titanium dioxide nanoparticles, Zinc Ferrite nanoparticles-reduced graphene oxide composite and cellulose acetate. Each of these fillers enhanced the selectivity of a particular sensor towards certain VOC compared to prestene polystyrene modified sensor. Their interaction with the VOCs in changing the mechanical properties of polymer giving rise to change in resonant frequency of QTF, is used as sensor response for detection. The interaction of functinolized polymers with VOCs was analyzed by FTIR and UV- vis spectroscopy. The Collective sensor response of five sensors is used to identify VOCs using ensemble classifier with 92.8% accuracy of prediction. The accuracy of prediction improved to 96% when isopropyl alcohol, ethanol and methanol were considered as one class.

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Environmental Styrene Exposure and Sensory and Motor Function in Gulf Coast Residents

Cited by 11 publications

References 85 publications

Tetranuclear Cluster-Based Eu(III)-Metal–Organic Framework: Ratiometric Platform Design and Ultrasensitive Phenylglyoxylic Acid Detection

Tetranuclear Cluster-Based Eu(III)-Metal–Organic Framework: Ratiometric Platform Design and Ultrasensitive Phenylglyoxylic Acid Detection

Air Quality Dispersion Modelling to Evaluate CIPP Installation Styrene Emissions

Detection of trace volatile organic compounds in spiked breath samples: a leap towards breathomics

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