Global ETD Search

31	Estudo eletrofisiológico e psicofísico em indivíduos intoxicados por vapor de mercúrio / Electrophysiological and psychophysical study of mercury vapor intoxicated subjects Barboni, Mirella Telles Salgueiro 26 February 2008 (has links) Objetivo. Avaliar o campo visual em ex-trabalhadores de fábricas de lâmpadas fluorescentes com diagnóstico de mercurialismo metálico crônico ocupacional, através de testes psicofísicos de campimetria computadorizada e registros eletrofisiológicos da retina obtidos através do eletrorretinograma multifocal. Método. A avaliação psicofísica do campo visual foi realizada em 35 ex-trabalhadores (idade média = 44,2 ± 5,9 anos; 30 homens) no equipamento Humphrey Field Analyzer II (modelo 750i) em dois testes: acromático (standard automated perimetry) e azul-amarelo (short wavelength automated perimetry). O programa Visual Evoked Response Imaging System (VERISTM Science 5.0) permitiu o registro e análise dos sinais eletrofisiológicos da retina através do eletrorretinograma multifocal em 32 ex-trabalhadores (idade média = 44,6 ± 5,5 anos; 27 homens) dos 35 que realizaram os testes de campimetria computadorizada. Os resultados foram comparados com um grupo controle para o campo visual (n = 34; idade média = 43,3 ± 8,3 anos; 21 homens) e com outro grupo controle para o eletrorretinograma multifocal (n = 21; idade média = 43,5 ± 8,9 anos; 10 homens). Resultados. Os exames psicofísicos de campimetria computadorizada mostraram que há redução da sensibilidade visual em regiões centrais até 27? do campo visual. No exame acromático a diminuição da sensibilidade ocorreu, inclusive, na região foveal. O exame azul-amarelo confirmou a redução encontrada no exame acromático para regiões paracentrais até 27° de excentricidade. O eletrorretinograma multifocal apresentou redução nas amplitudes das respostas retinianas em regiões centrais até 25°, sem alteração no tempo implícito das respostas. As regiões paracentrais mostraram redução significativa para os valores de amplitude do primeiro componente negativo (N1) e do primeiro componente positivo (P1). Discussão. A redução na sensibilidade visual em diferentes regiões do campo visual, confirma que há prejuízos no sistema visual decorrentes da exposição crônica ao vapor de mercúrio. Nesse caso, não se pode especificar as regiões afetadas, porque a metodologia utilizada não permite isolar estruturas da via visual e, consequentemente, não permite localizar as regiões específicas que o mercúrio estaria prejudicando preferencialmente. Os prejuízos causados pela intoxicação ao vapor de mercúrio na retina parecem ser difusos, considerando que a redução de amplitude das respostas de N1 e P1 pode indicar prejuízos em diferentes grupos celulares da retina. Os resultados mostram que parte dos prejuízos de campo visual causados pelo vapor de mercúrio estão relacionados com alterações retinianas. Os resultados estão de acordo com trabalhos preliminares que monstraram alterações visuais que permanecem mesmo anos após o afastamento da fonte de exposição, sugerindo que a intoxicação por vapor de mercúrio pode não ser totalmente reversível. Conclusão. Os sujeitos expostos cronicamente ao vapor de mercúrio durante um período de 10 anos (em média) apresentam redução da sensibilidade visual em diferentes regiões do campo visual, mesmo após 7 anos (em média) de afastamento da fonte expositora. Pode haver prejuízos em diferentes regiões da via visual envolvidos nas alterações de campo visual, mas parte desses prejuízos causados pela exposição crônica ocupacional ao vapor de mercúrio possui origem retiniana. / Purpose. To analyse visual field sensitivity in a group of workers retired from thefluorescent lamp industry diagnosed with chronic occupational metallic mercurialism using psychophysical tests such as automated perimetry and measuring the retina cells\' electrical responses with the multifocal electroretinogram. Methods. The psychophysical evaluation of the visual field was performed in 35 retired workers (mean age = 44.2 ± 5.9 years; 30 males) using Humphrey Field Analyzer II (model 750i) device in two different tests: SAP (standard automated perimetry) and SWAP (short wavelength automated perimetry). The Visual Evoked Response Imaging System (VERISTM Science 5.0) provided us the electrophysiological recordings and analysis of the retina based on measurement data from the multifocal electroretinogram in 32 retired workers (mean age = 44.6 ± 5.5 years; 27 males) that were included in the 35 automated perimetry test subjects. The results were compared with an age-matched control group using the visual field tests (n = 34; mean age = 43.3 ± 8.3 years; 21 males) and to another age-matched control group at the multifocal electroretinogram (n = 21; mean age = 43.5 ± 8.9 years; 10 males). Results. The automated perimetry tests have shown visual sensitivity reductions in the central areas around 27° of eccentricity. In the SAP test sensitivity decrease was found even in the foveal region. The SWAP test results are in agreement with the reduction found around 27° in the SAP test at mid-peripheral areas. The multifocal electroretinogram has shown decreases in amplitude in the retina recordings in the central areas around 25° of eccentricity, but there were no implicit time reductions. The mid-peripheral areas have shown significant reductions in the amplitude values in the first negative component (N1) and in the first positive component (P1) as well. Discussion. The visual sensitivity reductions in the different visual field areas confirm the visual damages in patients with long-term mercury vapor exposure. In this case the affected visual pathway sections could not be determined since the applied psychophysical method does not allow us to indicate the specific visual structure principally damaged by the mercury vapor. The damages found in the retina due to mercury vapor intoxication can be considered broadly dispersed, since the reductions in N1 and P1 amplitudes might be the indications of damages in multiple retina cell groups. Our results show that some visual field losses are related to various retinal alterations caused by the mercury vapor. The results are in agreement with preliminary works that showed visual dysfunctions after several years away from the mercury vapor source suggesting that mercury vapor intoxication may not be completely reversible. Conclusion. The long-term (10 years in average) mercury vapor exposed workers have shown visual sensitivity reductions in different visual field areas after 7 years (in average) away from the mercury vapor source. In our present study we would like to indicate that visual field reductions cannot only be related to damages in the various sections of the visual pathway, but some of these visual field losses can occur due to retinal alterations caused by cronic mercury vapor exposure. campo visual electrophysiology eletrofisiologia intoxicação por mercúrio mercury poisining neurotoxicologia neurotoxicology psicofísica psychophysics visual field
32	Reactive dopamine metabolites and neurotoxicity : the role of GAPDH and pesticide exposure in Parkinson's disease pathology Vanle, Brigitte Chantal 01 May 2016 (has links) Parkinson's disease (PD) is a slow-progressive neurodegenerative disorder affecting 5-6 million people around the globe. The disease is manifested by the rapid deterioration of dopaminergic cells in the substantia nigra portion of the brain; however, the pathological mechanism of selective dopaminergic neuronal death is unknown. A reduction in levels of 3,4-dihydroxyphenylacetaldehyde (DOPAL) is biologically critical as this aldehyde has been shown to be toxic to dopaminergic cells and is a highly reactive electrophile. Investigating neuronal protein targets is essential in determining the cause of toxicity. An essential protein-GAPDH (e.g., glyceraldehyde-3-phosphate dehydrogenase) is an abundantly expressed enzyme known for its glycolytic activity, and recent research has implicated its role in oxidative stress-mediated neuronal death. This work positively shows GAPDH as a target for DOPAL modification, and, for the first time, DOPAL is identified as a potent inhibitor for GAPDH enzymatic activity. LC-MS and other chemical probes (ie. thiol and amine modifiers) show that DOPAL modifies specific –Lys, -Arg, and –Cys residues in the cofactor binding-domain of GAPDH. The enzyme inhibition is also time and DOPAL dose-dependent. DOPAL has a unique structure, containing two reactive functional groups: an aldehyde and catechol ring. In-house syntheses of DOPAL analogues, containing the catechol group and lacking the aldehyde, and vice versa have been tested on GAPDH and do not inhibit or modify GAPDH. Therefore, both the catechol and aldehyde groups of DOPAL are specific to binding with GAPDH and are necessary to achieve modification and enzyme inhibition. In addition to finding a novel enzyme inhibited and modified by DOPAL, this work has also confirmed linking DOPAL levels to a fungicide associated with PD risk. This benzimidazole fungicide, benomyl was shown to inhibit ALDH2 in the SH-SY5Y neuroblastoma cell line via an increase in DOPAL and a decrease in DOPAC. The ratios of DOPAL and DOPAC, the product of ALDH, were measured by HPLC-ECD, and found that benomyl does inhibit ALDH2 in this dopaminergic cell model. The cytotoxicity of benomyl, DA, DOPAL and the combination of DA or DOPAL with benomyl was assessed by MTT assay. Surprisingly, the only toxic combination was the combination of DA or DOPAL with benomyl. In fact, this toxicity appears to be synergistic, as none of the single treatments are significantly toxic to the cells. This synergistic effect also affects GAPDH aggregation. The cell morphology is also drastically different in the presence of the combined treatments, compared to individual treatment of DA, DOPAL or benomyl; cells start to ebb and show apoptotic-like features at just 2h. A second class of pesticides, named chlorpyrifos and chlorpyrifos-oxon were tested for toxicity in PC6-3These compounds were toxic to these cells due to DOPAL accumulation reaching high levels in the 100 µM range. Exposure to environmental toxins such as pesticides and fungicides has long been linked to PD risk, but only recently to DOPAL levels. This work provides a novel mechanism by which fungicide exposure may stimulate PD pathogenesis. publicabstract 3 4-dihydroxyphenylacetaldehyde DOPAL GAPDH Neurotoxicology Organophosphates and benomyl Parkinson's Disease Pharmacy and Pharmaceutical Sciences
33	A pharmacological characterisation of death adder (Acanthophis Spp.) venoms and toxins Wickramaratna, Janith C. January 2003 (has links) Abstract not available Poisonous snakes -- Venom -- Australia Neurotoxicology Toxicity testing -- In vitro Antivenins Neurotoxic agents Phospholipase A2 -- Inhibitors
34	Organophosphorus Pesticide Exposure Effects on Neurobehavioral Development of Zebrafish and Characterization of Developmental Switch Between Two Cation-chloride Cotransporters (zfnkcc1 and zfkcc2) Yen, Jerry January 2012 (has links) <p>Organophosphorus pesticides (OPs) are neuroactive compounds that can affect the development of the nervous system and behavior. Using zebrafish, we compared the effectiveness of three different OPs, chlorpyrifos (CPF), diazinon (DZN) and parathion (PA) on survival, AChE inhibition and larval motility. We conclude that at equimolar concentrations CPF is the most effective OP of the three tested. 300nM CPF inhibited AChE when measured at 5 days post fertilization (dpf) by 80%, which correlated to a 35% decrease in larval motility when measured at 6 dpf. </p><p>We isolated the cDNA of <italic>zfkcc2</italic>, which encodes for an important cation-chloride cotransporter responsible for establishing a chloride gradient that allows for the neurotransmitter GABA to become inhibitory for a subset of neurons. By isolating the cDNA of <italic>zfkcc2</italic>, we were able to characterize its expression pattern up to 4 dpf. Using qRT-PCR, we showed that the expression of <italic>zfkcc2</italic> rises from 2 to 96 hours post fertilization (hpf). The expression of <italic>zfkcc2</italic> is found at 1 dpf in the forebrain, midbrain and hindbrain in a distinct pattern. By 3 dpf, zfkcc2 expression is found throughout most of the developing zebrafish brain. We were then able to characterize the expression pattern of zfnkcc1, which encodes for a cation-chloride cotransporter that works opposite to <italic>zfkcc2</italic> and establishes a chloride gradient allowing GABA to be excitatory during development. Expression of <italic>zfnkcc1</italic> is found at 1 dpf throughout most of the developing zebrafish head including in some non-neural tissue, but appears concentrated to the otic vesicle at 3 dpf. Using double in situ hybridization, we investigated the nature of the developmental switch from zfnkcc1 to zfkcc2 by looking at regions where there was an interaction between both genes' expression patterns in the developing zebrafish nervous system. </p><p>We preliminarily examined how affecting nicotinic signaling with exposures to nicotinic agonists/antagonists can affect the expression of <italic>zfnkcc2</italic> and <italic>zfkcc2</italic>. While there were no apparent changes in the expression pattern from any of the exposures at 2 dpf, we found that by 3 dpf nicotine and CPF exposures resulted in an incomplete expression pattern for <italic>zfkcc2</italic> that seemed to be delayed. However, the expression of <italic>zfnkcc1</italic> at the otic vesicle was unaffected by exposure. </p><p>Our results suggest that disrupting nicotinic signaling during development can affect the expression of an important cation-chloride cotransporter, <italic>zfkcc2</italic>, that plays a major role in establishing the necessary chloride gradient for the proper functioning of GABA during development. Future studies should focus on investigating the nature of the developmental switch between <italic>zfnkcc1</italic> and <italic>zfkcc2</italic> to see if the possibility of their regulation being coupled is a target for exposures.</p> / Dissertation Toxicology Environmental science acetylcholinesterase cation-chloride cotransporters developmental neurotoxicology organophosphorus pesticides zebrafish
35	Conotoxin overview and bioinformatic database setup Chen, Shing-Hwei 28 November 2004 (has links) Predatory shallow-water tropical marine snails within the genus Conus are estimated to consist of up to 700 species. These carnivorous mollusks have devised efficient venom harpoon-like radular teeth that allow them to predominantly incapacitate polychaete annelids (vermivores), in some cases fish (piscivores), or other mollusks (molluscivores) as an envenomation survival strategy for feeding, defense, and competitor deterrence. The venom of each Conus species contains a distinctive assortment of over 50 diversified disulfide-rich conotoxins with varied pharmacological specificities that selectively inhibit the function of ion channels (Ca2+, Na+, K+) or nicotinic acetylcholine receptors (nAChRs) involved in the animal neurotransmission. Across the genus Conus, the conotoxins represent an extensive array of ion channel blockers each showing an exquisite selectivity to distinguish between channels / receptors and even particular their subtypes. Novel conotoxins detected in the molecular neurobiological approach, providing chemists and pharmacologists a vast library (>50,000 individual toxins) of conotoxins have been further screened for their abilities to modify the responses of tissues to pain stimuli as a first step in describing their potential as lead compounds for novel drugs. In this article, we present the natural history of the Conus biology as well as the nomenclature, classification, structure, neurotoxicological mechanisms, post-translational modification, and pharmaceutical applications of conotoxins. In addition, we also set up the bioinformatic database and search engine about hitherto-identified name and distribution of Conus species and neuropharmacological mechanism, accession number, sequence, and 3D structure of conotoxins and provide researchers advantageous tools for further investigation. conotoxins database cone snails ion channels pharmacology Conus neurotoxicology nicotinic acetylcholine receptors
36	Investigation of neuronal apoptosis and autophagy in beta-amyloid peptide toxicity Cheung, Yuen-ting., 張婉婷. January 2009 (has links) published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy Amyloid beta-protein. Neurotoxicology. Neurons. Apoptosis. Cellular signal transduction. Alzheimer's disease - Etiology.
37	Biologically plausible models of neurite outgrowth Kiddie, Gregor A. C. January 2011 (has links) The growth of a neuronal dendritic tree depends on the neuron’s internal state and the environment within which it is situated. Different types of neuron develop dendritic trees with specific characteristics, such as the average number of terminal branches and the average length of terminal and intermediate segments. A key aspect of the growth process is the construction of the microtubule cytoskeleton within the dendritic tree. Neurite elongation requires assembly of microtubules from free tubulin at the growth cone. The stability of microtubule bundles is an important factor in determining how likely it is for a growth cone to split to form new daughter branches. Microtubule assembly rates and bundle stability are controlled by microtubule-associated proteins, principally MAP2 in dendrites. Extending previous work (Hely et al, J. Theor. Biol. 210:375-384, 2001) I have developed a mathematical model of neurite outgrowth in which elongation and branching rates are determined by the phosphorylation state of MAP2 at the tips of each terminal branch. Tubulin and MAP2 are produced in the cell body and transported along the neurite by a combination of diffusion and active transport. Microtubule (dis)assembly at neurite tips is a function of tubulin concentration. The rate of assembly depends on the amount of unphosphorylated MAP2 bound to the microtubules and linking them together. Phosphorylation of MAP2 destroys its linking capability and destabilises the microtubule bundles. Each terminal has a probability of branching that depends on the phosphorylation of MAP2 which, in turn, is a function of calcium concentration. Results from this model show that changes in the (de)phosphorylation rates of MAP2 affect the topology of the final dendritic tree. Higher phosphorylation promotes branching and results in trees with many short terminal branches and relatively long intermediate segments. Reducing phosphorylation promotes elongation and inhibits branching. 612.8
38	Interactions of nutrients on methyl mercury toxicity in neuron X spinal chord hybrid cells (NSC-34) and human oligodendrocyte X rhabdomyosarcoma cells (MO3.13) Chapman, Laurie A. January 2001 (has links) Exposure to methyl mercury (MeHg) is a global concern. Increased chronic exposure to MeHg among fish and marine mammal consuming populations will increase the risk of prenatal exposure and as a result, the risk of infant brain damage and neurotoxcity. It is therefore important to understand the role of environmental factors, such as nutrition, in determining susceptibility to MeHg toxicity. Three nutrients (selenium (Se), vitamin C and vitamin E) were selected for examination of their interactions with the mechanisms of McHg cytotoxicity in vitro. Two hybrid neural cell lines (M03.13 and NSC-34) were evaluated for their usefulness in the study of MeHg cytotoxicity. Sixteen toxic endpoints were selected for investigation of growth, viability, structure and biochemistry. Both cell lines responded to MeHg exposure in a dose dependent manner for the majority of endpoints suggesting that both MO3.13 and NSC-34 cells undergo structural and biochemical changes during exposure to McHg, but that MO3.13 cells are more sensitive to DNA, mitochondria) membrane damage and glutathione (GSH) depletion and that NSC-34 cells are more sensitive to protein damage and apoptosis. Se exposure lessened the MeHg-induced decrease in DNA and GSH concentrations in both cell lines. In NSC-34 cells, Se also increased F-actin concentrations and prevented an increase in caspase-3 activity. Se may alter the mechanism of cell death by preventing McHg disruption of DNA replication thus maintaining the production and function of peptides (GSH) and protein (polymerized actin) that aid in MeHg detoxification and neural function. In NSC-34 cells, vitamin C prevented the induction of caspase-3 activity and lessened DNA damage and GSH depletion. Vitamin E lessened GSH depletion and lessened G-actin depletion. Both vitamin C and E improved GSH status, but vitamin C also delayed McHg damage of DNA and prevented early signs of apoptosis suggesting these two vitamins interfere with MeHg metabolism by diffe Methylmercury -- Toxicology. Neurotoxicology. Toxicity testing -- In vitro. Selenium in human nutrition. Vitamin C -- Health aspects. Vitamin E -- Health aspects.
39	Effects of methylmercury on reproduction and offspring development and potential benefits of supplemental selenium and vitamin E intake in rats Beyrouty, Peter. January 2002 (has links) Methylmercury (MeHg) is an environmental contaminant mainly present in fish and seafood. The long-term consumption of these fish and seafoods could pose a health risk to pregnant women and their children. Animal studies were conducted to assess the effects of MeHg exposure on reproduction and offspring development as well as the potential benefits of nutrient supplementation. Adult female rats were treated by gavage with MeHg at dose levels of 0.5, 1.0 or 2.0 mg/kg/day for 4 weeks prior to mating and throughout pregnancy, and then were allowed to deliver. In a second study, adult female rats were treated with MeHg at 1.25 mg/kg/day for the same duration, and they were fed diets containing an extra 1 ppm selenium (Se), or 225 IU/kg vitamin E, or both of these two nutrients, 4 weeks prior to MeHg dosing, and then throughout McHg treatment. (Abstract shortened by UMI.) Methylmercury -- Toxicology. Neurotoxicology. Rats -- Reproduction. Rats -- Nutrition. Selenium -- Health aspects. Vitamin E -- Health aspects.
40	Investigating beta-amyloid peptide neurotoxicity from neuronal apoptosis to endoplasmic reticulum collapse translational research back to basic science research / Lai, Sau-wan. January 2009 (has links) Thesis (Ph. D.)--University of Hong Kong, 2009. / Includes bibliographical references (leaves 203-226) Also available in print.

Search results