PCB VOLATILIZATION FROM SEDIMENTS

QI, SHUANG

17 April 2003

No description available.

Engineering, Environmental

PCB

volatilization

sediments

MODULATION OF ENDOTHELIAL CELL ACTIVATION BY OMEGA-6 AND OMEGA-3 FATTY ACIDS

Wang, Lei

01 January 2007

Endothelial activation is considered to be an early and critical event in the pathology of atherogenesis which can be modified by environmental factors such as diet, pollutants, and lifestyle habits. Dietary andamp;ugrave;-6 and andamp;ugrave;-3 fatty acids have been reported to either amplify or diminish inflammatory responses related to atherosclerosis development. However, the interactions of andamp;ugrave;-6 and andamp;ugrave;-3 fatty acids with inflammatory cytokines or organic pollutants on endothelial cell activation are not well understood. The studies presented in this dissertation tested the hypothesis that andamp;ugrave;-6 and andamp;ugrave;-3 fatty acids alone, or in varying ratios can differently modulate pro-atherogenic mediators and inflammatory responses that are initiated by tumor necrosis factor- andamp;aacute; (TNF-andamp;aacute;) or polychlorinated biphenyls (PCBs) in endothelial cells. Exposure to TNF-andamp;aacute; induced oxidative stress, p38 MAPK, NF-andamp;ecirc;B, COX-2 and PGE2, which was amplified by pre-enrichment with linoleic acid but blocked or reduced by andamp;aacute;-linolenic acid. Furthermore, TNF-andamp;aacute;-induced caveolin-1 up-regulation and the co-localization of TNF receptor-1 with caveolin-1 was markedly increased in the presence of linoleic acid and diminished by andamp;aacute;-linolenic acid. Silencing of the caveolin-1 gene completely blocked TNF-andamp;aacute;-induced production of COX-2 and PGE2 and significantly reduced the amplified response of linoleic acid plus TNF-andamp;aacute;. These data suggest that omega-6 and omega-3 fatty acids can differentially modulate TNF-andamp;aacute;-induced inflammatory stimuli and that caveolae and its fatty acid composition play a regulatory role in these observed metabolic events. Besides cytokines, lipophilic environmental contaminants such as PCBs can also trigger inflammatory events in endothelial cells. Our data suggest that increasing the relative amount of andamp;aacute;-linolenic acid to linoleic acid can markedly decrease oxidative stress and NF-andamp;ecirc;B-responsive genes. The inhibitor study revealed that the modulation effect of andamp;ugrave;-6 and andamp;ugrave;-3 fatty acids on PCB toxicity was mainly through the oxidative stress sensitive transcription factor, NF-andamp;ecirc;B. In conclusion, our studies demonstrate that different dietary fats can selectively modulate vascular cytotoxicity caused by TNF-andamp;aacute; as well as by persistent organic pollutants such as PCBs. We also demonstrated the important relevance of substituting dietary andamp;ugrave;-3 fatty acids such as andamp;aacute;-linolenic acid for andamp;ugrave;-6 fatty acid such as linoleic acid in reducing cardiovascular diseases.

A quantitative enzyme linked immunosorbent assay for polychlorinated biphenyls in transformer oil

Kim, In Soo

January 2000

No description available.

610.28

High voltage transformers; ELISA; PCB

Development of a Flexible FPGA-Based Platform for Flight Control System Research

DeMott, Robert

08 December 2010

This work is part of ongoing research conducted at Virginia Commonwealth University relating to unmanned aerial vehicles. The primary objective of this thesis was to develop a flexible, high-performance autopilot platform in order to facilitate research on advanced flight control algorithms. A dual FPGA-based system architecture utilizing a stacked, multi-board design was created to meet this goal. Processing tasks were split between the two FPGA devices, allowing for improved system timing and increased throughput. A combination of analog and digital filtering techniques were employed in the new system, resulting in enhanced sensor accuracy and precision compared to the previous generation autopilot system. Several important improvements to the safety and reliability of the overall system were also achieved.

FPGA

UAV

FCS

Autopilot

VHDL

PCB

Engineering

Design and implementation of a charge controller with buck converter topology for a Li-ion battery using the component LTC4015.

Vidal Lorbada, Ricardo

January 2016

This report presents the process of design and implementation of a battery charger for a Li-ion battery. The development of this battery charger includes the component from Linear Technology LTC4015. This component integrates the functions of a battery charger configured as a buck (step-down) converter. This device must be integrated in a Printed Circuit Board with a specific design. Also, it must be configured using a microcontroller named Raspberry Pi, which also performs the measurements. The method of design is divided in two parts. One is focused on developing the printed circuit board, which includes the simulation of the device and the development of the PCB, and the second one is focused on developing the program used in the microcontroller to manage the operation of the LTC4015. The result is a charge controller device that can be used with different configurations with a buck converter topology. The different parts of the design process are the simulation, the design and the implementation. Each of these parts have a section of results in this report. The simulation section includes results obtained with LTSpice and the device LTC4020, which is a similar device to the LTC4015 but without the Maximum Power Point Tracking mode, which is not modelled in LTSpice. PV is the main power source considered to charge the battery, and is carefully studied in this project. The PV input is studied with LTSpice, first simulating the I-V curve of the schematic of the solar cell. Second, integrating a solar cell in the simulation of the LTC4015. Third, operating the device LTC4015 with a solar panel that is also characterized. The design section includes the electronic components used for the development of the board that integrates the charge controller, the LTC4015 in this case, based on the calculations performed for the requirements of the LTC4015. Finally, the implementation section includes the description of the board implemented but also the description of the configuration and measurement code. The conclusions presented in this report show that the LTC4015 is a battery buck charger with different functions that make it suitable to be used in different solar applications. Also, this report opens new future work lines, such as the full characterization of the board, the implementation of a test bench and the integration of the board in different applications for solar energy systems.

Battery

Charger

Controller

LTC4015

Microcontroller

Electronics

PCB.

Environmental Remediation with Fenton Reagents and Synthesis of a Novel Halide Fluorescence Sensor

Xu, Guoxiang

21 May 2005

Suwannee River fulvic acid (SRFA) and humic acid (SRHA) were used as dissolved organic matter (DOM) and were applied to probe the effect of DOM. Addition of DOM resulted in decreased first order rate constants for all species selected. The inhibition became more significant as the hydrophobicity of the species increased. The decrease could not be simply attributed to the binding of hydrophobic species to DOM. This can be explained by the physical isolation of iron (II), which binds to hydrophilic sites of DOM and is the hydroxyl radical generation site, from hydrophobic pollutants which bind to hydrophobic sites of DOM. Accordingly, species which could compete agains t this physical isolation by DOM and bring iron (II) closer to target species could increase the degradation rates. This was observed with application of carboxymethyl-ß-cyclodextrin (CMßCD). Effects from concentration, structure of the target species and acidity etc., were studied. The increased degradation rates were observed even in the presence of DOM. Studies on ternary complexes of hydrophobic pollutants, iron (II) and CMßCD were carried with ESMS, UV and Fluorescence experiments and further calix[6]arene derivatives. Along with the fact that CMßCD can increase the solubility of hydrophobic species and remove them from contaminated sites, this indicates a potential application to in-situ degradation systems. Initial two -phase studies were carried out with quartz sand deposited with polycholobiphenyl (PCBs) and polycyclic aromatic hydrocarbons (PAHs). Successful degradations were observed with PCBs but not PAHs. The difference is attributed to the slow equilibrium of sorbed PAHs with dissolved CMßCD and the higher PAH loading used in these experiments. A halide sensor-molecule (1, 8-diphenylureaylnaphthalene), which performs with increasing fluorescence in the presence of fluoride and decreasing fluorescence with all other halides, was synthesized and reported. Studies using NMR and computer modeling with SPARTAN were carried out to compare the sensor-molecule with an analog, 2, 3-diphenylureaylnaphthalene. Both studies indicated that only fluoride can be accommodated in the space between the urea group protons to form a strong interaction. The sensor-molecule could to lead to improved sensors that overcome limitations with current fluorescence-quenching based anion sensors.

Fenton

Environmental

PAH PCB

Halide

Fluorescence Sensor

Oxidative and electrophilic structural modification and catalytic regulation of human hydroxysteroid sulfotransferase 2a1 (hsult2a1)

Qin, Xiaoyan

01 December 2012

Human hydroxysteroid sulfotransferase (hSULT2A1) catalyzes the sulfation of a broad range of endogenous (e.g., hormones, neurotransmitters, bile acids) as well as xenobiotic (e.g, drugs, environmental pollutants) compounds. Alteration in the catalytic activity of hSULT2A1 can lead to outcomes like endocrine disruptions or aberrant drug metabolism and xenobiotic toxicity. Oxidative and electrophilic stresses are known to cause physiological damage and be implicated as possible underlying pathologic mechanisms of a wide range of diseases. To examine the oxidative as well as electrophilic regulation of hSULT2A1, model oxidants (glutathione disulfide (GSSG), 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB), diamide, tert-butyl hydroperoxide (TBHP)) and electrophiles such as quinone metabolites of polychlorinated biphenyls (PCB-quinones) and phenyl-p- benzoquinone were chosen for this study. Mechanistic studies correlating the enzyme structural modifications with alteration in the catalytic properties were performed to elucidate the catalytic regulative mechanism of an individual oxidant or electrophile. Thiol oxidants including GSSG, DTNB, and diamide showed catalytic regulation of hSULT2A1. Changes in protein intrinsic fluorescence indicated conformational alterations in hSULT2A1 following the reaction with diamide. Binding properties of hSULT2A1 for its substrates were also altered after reaction with these thiol oxidants, which could be one major reason for the kinetic alteration due to oxidative modification. Formation of mixed disulfides with cysteines in hSULT2A1 was also identified as a result of reaction with GSSG and DTNB. TBHP was chosen as a model for lipid peroxides, and reaction with this hydroperoxide decreased the catalytic function of hSULT2A1. The dissociation constant for binding of dehydroepiandrosterone (DHEA) was significantly altered with TBHP-pretreatment, but this did not affect the binding of 3',5'-adenosine diphosphate (PAP) to the enzyme. Structural analysis identified cysteine sulfonic acids and methionine sulfoxide formation after reaction of hSULT2A1 with TBHP, which could account for the alterations in the binding properties and the catalytic activity. Both PCB-quinones and PBQ could regulate the catalytic activity of hSULT2A1. Although PCB-quinones only caused decreases in the catalytic activity at all concentrations tested, pretreatment with PBQ indicated that lower concentrations resulted in an increase in the catalytic activity of hSULT2A1 that was followed by a decrease in the catalytic activity of hSULT2A1 upon increasing the concentration of PBQ in the pretreatment. Differences in the dissociation constants of PAP after PBQ-pretreatment were also observed, indicating the key role played by these PCB-quinones in altering the binding of either PAP or the sulfuryl donors, PAPS. Adducts at cysteines in hSULT2A1 were formed following reactions with PCB-quinones and PBQ. Small amounts of cysteine sulfonic acids and methionine sulfoxides were also formed following reaction of the protein with PCB-quinones and PBQ. Therefore, alterations in both the catalytic function as well as the structural properties of hSULT2A1 by interaction with oxidants and electrophiles may lead to changes in the metabolism of xenobiotics, as well as alterations in the endogenous balance of various steroid hormones. Such changes may be an important component in physiological damage that occurs under oxidative and electrophilic stress.

cysteines

hSULT2A1

oxidative modification

PCB-quinone

Toxicology

Using dietary strategies to explore mechanisms of hepatic toxicity caused by 3,3',4,4',5-Pentachlorobiphenyl (PCB 126) in an animal model

Lai, Ian Kwan-Tai

01 July 2011

This doctoral dissertation work strived to contribute to the ever expanding knowledge about the mechanisms of polychlorinated biphenyl (PCB) toxicity using dietary strategies. PCBs are a family of persistent environmental pollutants with a wide range of toxicity. The toxicity of PCBs is largely dependent on the congener's chlorination pattern. Of particular interest to this work was 3,3',4,4',5-pentachlorobiphenyl (PCB 126), the most potent of the dioxin-like PCB congeners. I hypothesized that in vivo PCB 126 toxicity will be ameliorated by dietary selenium supplementation, lowered dietary copper, and dietary N-acetylcysteine (NAC) supplementation. Dioxin-like PCBs are known for diminishing hepatic selenium and selenium-dependent glutathione peroxidase (SeGPx), an antioxidant enzyme. In the first study, PCB 126 caused a dose-dependent decrease in hepatic selenium and SeGPx. Supplemental dietary selenium significantly increased hepatic selenium and SeGPx, and decreased incidence of apoptosis in these rats. The results from this study support that selenium plays a protective role, and differences in liver injuries of these rats may be reflected in their selenium status. The dose-dependent increase in hepatic copper caused by PCB 126 was a subject of interest and concern in the next study. Lowering dietary copper levels without negatively affecting the function of the essential antioxidant enzyme copper zinc superoxide dismutase did not result in reduction of PCB 126-induced toxicity. Copper metabolism was unlikely a main target of PCB 126 toxicity as increasing dietary copper did not significantly increase hepatic copper levels. Hepatic copper is highly regulated and likely does not play a significant role in PCB 126-induced toxicity. The effectiveness of NAC on restoring glutathione status and reducing PCB 126 toxicity was tested in the final study. While NAC did not restore glutathione status, NAC supplemented rats had significantly reduced severity of PCB 126-induced liver status. The results of this study are consistent with the theory that NAC has a glutathione-independent effect in improving mitochondrial energy metabolism. It also suggests that PCB 126-induced mitochondrial metabolic disruption of the liver is of greater concern than oxidative stress.

Copper

Dietary

N-Acetylcysteine

PCB

Selenium

Toxicology

Design and Analysis of Printed Circuit Boards Using FDTD Method for The 20-H Rule

Jiang, Yi, Li, Le-Wei, Li, Er-Ping

01 1900

With the increasing demand of higher operating frequencies for electronic circuits, the printed circuit board designers face more electromagnetic radiation problems than ever. Some “rules-of-thumb” are employed to help the designers to reduce the radiation problems. The 20H rule is one of printed circuit design rules, which intends to minimize the electromagnetic radiation. This project focuses on analysis and simulation of 20H rule’s signal propagation mechanisms. The model used in the project is a 2D planar structure. The numerical electromagnetic method, Finite Difference Time Domain (FDTD) method, is used for the field computation and analysis. Simulation is based on various structures of model and different distributions of excitation sources. Analysis focuses on the signal propagation models. Field distributions and radiation patterns are visualized by mathematical software. Meanwhile, Poynting vectors are calculated to give quantitative expression. The simulation results indicate three factors, namely, operating frequency, size of PCB and separation distance that will affect the function of 20H rule. The effects of three factors are shown by comparison of specific cases in this thesis. / Singapore-MIT Alliance (SMA)

PCB

20H Rule

FDTD

EMI/EMC

Planar rotary Energy Harvester fabricated by PCB technology

Chen, Po-Hsiu

17 December 2012

Small and efficient energy harvesters, as a renewable power supply, draw lots of attention in last few years. This thesis presents a planar rotary electromagnetic generator with copper coils fabricated by printed circuit board (PCB) as inductance and Nd-Fe-B magnets as magnetic member. Coils are fabricated on PCB, which is presumably cost-effective and promising methods. 28-pole Nd-Fe-B magnets with outer diameter of 50 mm and thickness of 2 mm was sintered and magnetized, which can provide magnetic field of 1.4 Tesla. This harvester consists of planar multilayer with multi-pole coils and multi-pole permanent magnet, and the volume of this harvester is about 50x50x2.5 mm3. Finite element analysis is used to design energy harvesting system, and simulation model of the energy harvester is established. In order to confirm the simulation, experiment data are compared with simulation result. The PCB energy harvester prototype can generate induced voltage 1.11 V and 26.54mW output power at rotary speed of 4,000 rpm, and the efficiency of this energy harvester is 31.5%.

Energy Harvester

PCB

Electromagnetic

Finite Element Analysis