Global ETD Search

51	Sex and Strain Differences in Acute Hepatotoxic and Inflammatory Responses to Liver Procarcinogens in the Developing Mouse Hanna, Daniel 12 July 2013 (has links) We previously observed that postnatal exposure of mice to the procarcinogen 4-aminobiphenyl (ABP) produced liver tumors only in wild-type males, while arylamine N-acetyltransferase deficient males and females of either strain were protected. Others have also observed a sex difference in liver tumors in mice using the procarcinogen diethylnitrosamine (DEN). Reasons for these sex and strain differences are unclear, but differences in acute hepatotoxicity and inflammation may be involved. In this thesis we found that neither ABP nor DEN produced overt hepatotoxicity in postnatally exposed mice, and only DEN caused an increase in levels of the pro-inflammatory cytokine interleukin-6 but was not sex-dependent. The lack of sex difference suggests that sex hormone modulation of inflammation following sexual maturation might favour growth of initiated cells in males. However, the lack of detectable inflammation following ABP exposure may be due to localized responses, or that inflammation may be a DEN-specific effect. 4-aminobiphenyl Aromatic amines Diethylnitrosamine Carcinogenesis Hepatocellular carcinoma Hepatotoxicity Inflammation 0419 0383 0433 0307
52	Evaluation of pyrethrin aerosol insecticide as an alternative to methyl bromide for pest control in flour mills Kharel, Kabita January 1900 (has links) Master of Science / Department of Entomology / Frank H. Arthur / Kun Yan Zhu / Experiments were conducted to assess the effects of direct and indirect exposure scenarios, different degrees of residual flour, open and obstructed positions, and seasonal temperature variations on the efficacy of synergized pyrethrin against the red flour beetle, Tribolium castaneum (Herbst) and the confused flour beetle, Tribolium confusum Jacquelin du Val. To evaluate effects of direct and indirect exposures of T. castaneum and T. confusum eggs, larvae, pupae, or eggs to the insecticide aerosol within a flour mill, the following treatments were made to each life stage: insects treated with aerosol and transferred to treated or untreated flour, untreated insects transferred to treated flour, and insects and flour combined and treated together. Different degrees of harborage or sanitation levels were created by exposing T. confusum larvae, pupae, and adults to pyrethrin aerosol in Petri dishes containing 0, 0.1, 1, 5, and 10 g of wheat flour. Effects of pyrethrin dispersal in open and obstructed positions and seasonal temperature variations were assessed by exposing T. confusum pupae and adults in open positions and inside wooden boxes (1 m long, 20 cm wide, and 5, 10, or 20 cm high) inside experimental sheds maintained at target temperatures of 22, 27, and 32 °C. Results showed that when T. castaneum and T. confusum were directly exposed to aerosol without the flour source, or with a low amount of flour at open exposed areas, the aerosol provided good control against all life stages of T. castaneum and T. confusum. However, when insects were indirectly exposed (treated together with flour or untreated insects were transferred to treated flour), or treated together with deeper flour amounts, and exposed inside the boxes, the efficacy was greatly reduced. Eggs and pupae of both the species were more susceptible compared to larvae and adults. Additionally, the moribund adults initially observed in indirect exposure treatments, or at the deeper flour depth and exposure positions insides the boxes, were better able to recover. Generally, temperatures in the range of 22-32 °C had no significant effects on overall efficacy of pyrethrin aerosol. Aerosols Synergized pyrethrin Flour mill Tribolium castaneum Tribolium confusum Temperature Barriers Agriculture, General (0473) Entomology (0353) Toxicology (0383)
53	Effects of condensed tannin on in vitro ruminal fermentation McKiearnan, Allison Nicole January 1900 (has links) Master of Science / Department of Animal Sciences and Industry / KC Olson / Condensed tannins (CT) in plants are phenolic compounds with relatively high binding affinities for proteins. In ruminants, dietary CT limit DM intake and digestibility, and ruminal protein degradation by forming CT-protein complexes. Effects of dietary CT, animal species, prior dietary CT exposure, and antimicrobial inclusion on 48-h rate and extent of digestion were measured in two in vitro experiments. Cattle, sheep, and goats (n = 3 / species) were used in a 2-period, randomized complete-block experiment with a 2 × 3 × 2 × 3 factorial arrangement of treatments. Factor 1 was substrate: tannin-free or high-CT. Factor 2 was source of ruminal fluid inoculum: cattle, sheep, or goat. Factor 3 was prior animal exposure to a high-CT diet: non-exposed or exposed. Factor 4 was inclusion of antimicrobials: no antimicrobial, penicillin + streptomycin to suppress bacterial activity, or cycloheximide to suppress fungal activity in the fermentation. Tannin-free or high-CT substrates were incubated in vitro using ruminal fluid from animals either not exposed (period 1) or exposed to dietary CT (period 2). Periods consisted of an adaptation to tannin-free (10 d) or high-CT diets (21 d) and a 15-d period of ruminal-fluid collection via stomach tube. The presence of CT or penicillin + streptomycin in in vitro fermentation reduced (P < 0.001) total gas pressure, DM disappearance, and total VFA, acetate, propionate, butyrate, valerate, and branched-chain VFA concentrations. We concluded that: 1) CT had negative effects on fermentation, 2) prior exposure to dietary CT attenuated some but not all negative effects, and 3) CT effects were similar to the effects of penicillin + streptomycin. condensed tannins dietary tannin adaptation in vitro fermentation Animal Sciences (0475) Biology, Animal Physiology (0433) Chemistry, Agricultural (0749) Toxicology (0383)
54	Évaluation de la toxicité du béryllium en fonction de la forme chimique et de la taille des particules Muller, Caroline 02 1900 (has links) Le béryllium (Be) est un métal dont les propriétés physiques et mécaniques sont très recherchées, notamment dans les secteurs spatial, énergétique et électronique. Les principaux effets associés à l’exposition au Be sont la sensibilisation et la bérylliose chronique. La prévalence des effets associés au Be suggère que les risques sont, entre autres, fonction de sa spéciation. Par ailleurs, il semble que les particules fines constituent la fraction d’intérêt pour l’occurrence de tels effets. Dans cette étude nous avons vérifié l’hypothèse que la forme chimique et la taille des particules du Be jouent un rôle majeur au niveau de la toxicité et de l’apparition d’effets spécifiques à une exposition au Be. Les effets spécifiques se traduisent, entre autres, par la formation de granulomes inflammatoires pulmonaire, par la prolifération de lymphocytes TCD4+ et la production de cytokines de type Th1. Pour chacune des trois formes chimiques visées par la présente étude (le Be métallique ou Be, l’oxyde de Be ou BeO et l’alliage Be aluminium ou BeAl), la toxicité a été évaluée à la suite d’une exposition subchronique par inhalation oro-nasale à des particules fines (F) et totales (T). À cette fin, un modèle animal (souris) a été utilisé. Au total, 245 souris ont été utilisées. Elles ont été subdivisées en sept groupes de 35 souris. Un groupe a servi de contrôle, alors que chacun des six autres a été exposé soit à des particules fines soit à des particules totales, pour chacune des trois formes chimiques de Be (Be-F, Be-T, BeO-F, BeO-T, BeAl-F, BeAl-T). La durée d’exposition pour chacun des groupes s’est étendue sur 3 semaines, 5 jours par semaine, 6 heures par jour. Le niveau d’exposition des souris était de 250 µg/m3. L‘urine des souris a été recueillie avant et durant l’exposition. Au moment du sacrifice, plusieurs tissus (poumon, rate, foie et reins) ainsi que des échantillons de sang ont été prélevés puis immédiatement congelés jusqu’à leur analyse pour la détermination de leur teneur en Be. De plus, certains poumons et rates ont été analysés pour l’évaluation de la sensibilité immunologique et de l'inflammation pulmonaire. Cette étude d’exposition subchronique est la première étude murine qui étudie les effets toxiques de différentes tailles particulaires sur les changements pathologique et immunologique similaires à ceux observés chez l’humain. Cette étude a permis de constater qu’il existait des différences importantes au niveau de la toxicité du Be d’après les différentes tailles particulaires à l’étude. Ces différences seraient reliées au dépôt des particules de Be dans les voies respiratoires et également à la capacité des voies respiratoires à les éliminer totalement ou partiellement. La clairance respiratoire est fonction, notamment, du site de déposition et du caractère soluble ou non des particules. Cette recherche aura également permis de démontrer que les souris C3H/HeJ représentent un bon modèle pour l’étude des effets toxicologiques et immunologiques d’une exposition au Be. De plus, nos résultats démontrent que la sévérité des lésions pulmonaires causées par le Be, tel que l’infiltration interstitielle de lymphocytes et la formation de granulomes non-caséeux, augmente avec le temps de résidence pulmonaire des particules de Be. Combinés à d’autres résultats, nos résultats contribueront à guider les actions de prévention relativement à l’exposition au Be, incluant éventuellement la révision de la valeur limite de l’exposition et possiblement l’établissement de valeurs limites en fonction de la forme chimique et de la taille des particules. / Beryllium (Be) is a metal with physical and mechanical properties and is used extensively in the aerospace, energy, and electronics industries. The main effects associated with Be exposure are sensitization and chronic beryllium disease. The prevalence of the effects associated with Be suggests that the risks are function of its speciation. Futhermore, it appears that the fine particles constitute the fraction of interest for the occurrence of such effects. In this study we verified the hypothesis that the chemical form and the particle size of Be play a major role in the level of the toxicity and in the appearance of specific effects in an exposure to Be. The specific effects are translated, among others, by the formation of inflammatory granulomes, by the proliferation of lymphocytes TCD4 + and the production of type Th1's cytokines. For each of the three chemical forms assessed in this research (Be metal or Be, Be oxide or BeO and Be aluminum alloy or BeAl) the toxicity was estimated following an subchronic exposure by nose-only to fine (F) and total (T) particles. An animal model (mouse) was used. Two hundred and forty five mice divided into seven groups of 35 each were used. The first group was used as a control, while the six other groups were exposed to total or fine particles of three different Be species (Be-F, Be-T, BeO-F, BeO-T, BeAl-F, BeAl-T). The duration of exposure for each of the groups was 3 consecutive weeks, 5 days per week and 6 hours per day. The target level of exposure was 250 μg/m3. Urine was collected before and during exposure. At the time of the sacrifice, several tissues (lungs, spleens, livers and kidneys) and blood samples were taken and immediately frozen until their chemical analysis for Be concentrations. Lungs and spleens were also sampled to evaluate the immunological effects and pulmonary inflammation. This study of subchronic exposure is the first murine study to examine the toxic effects of various particle sizes for similar pathological and immunological changes to those observed in a human being. This study allowed for the identification of important differences in the level of the toxicity of Be according to the various particles sizes. These differences are connected to the deposit of the particles of Be in respiratory tracts and also the capacity of respiratory tracts to eliminate them totally or partially. The respiratory clearance is a function of the site of deposition and of the solubility of the particles. This research has also demonstrated that mouse C3H/HeJ represents a good model for the study of the toxicological and immunological effects of a Be exposure. Furthermore, our results showed that the severity of the lung hurts caused by Be, such as the interstitial infiltration of lymphocytes and the formation of non-caseous granulomes, increases in time by lung residence of Be. Alongside other results, the results of this research will contribute to informing the prevention of Be exposure, including possibly the revision of the limit value and the establishment of a scientifically based threshold according to chemical form and particle size. Béryllium Bérylliose chronique Forme chimique Taille des particules Exposition oro-nasale Sensibilisation Be
55	Modélisation toxicocinétique d’un mélange de composés organiques volatils dans l’eau potable Kaveh, Nazanin 04 1900 (has links) L'évaluation des risques de l'exposition aux mélanges de produits chimiques par voies multiples peut être améliorée par une compréhension de la variation de la dose interne due à l’interaction entre les produits. Les modèles pharmacocinétiques à base physiologique (PBPK) sont des outils éprouvés pour prédire l'ampleur de ces variations dans différents scénarios. Dans cette étude, quatre composés organiques volatils (COV) (toluène, nhexane, cyclohexane et isooctane) ont été choisis pour représenter des produits pétroliers (essence) pouvant contaminer l'eau potable. Premièrement, les modèles PBPK ont simulé l'exposition à un seul COV par une voie (inhalation ou gavage). Ensuite, ces modèles ont été interconnectés pour simuler l'exposition à un mélange par voies multiples. Les modèles ont été validés avec des données in vivo chez des rats Sprague-Dawley (n=5) exposés par inhalation (50 ppm ; toluène, hexane, et 300 ppm ; cyclohexane, isooctane; 2-h) ou par gavage (8,3; 5,5; 27,9 et 41,27 mg/kg pour le toluène, l’hexane, le cyclohexane et l’isooctane, respectivement). Des doses similaires ont été utilisées pour l'exposition au mélange par voies multiples. Les AUC (mg/L x min) pour le toluène, l'hexane, le cyclohexane et l'isooctane étaient respectivement de 157,25; 18,77; 159,58 et 176,54 pour les données expérimentales, et 121,73; 21,91; 19,55 et 170,54 pour les modèles PBPK. Les résultats des modèles PBPK et les données in vivo (simple COV par voies multiples vs. mélange par voies multiples) ont montré des interactions entre les COVs dans le cas de l'exposition au mélange par voies multiples. Cette étude démontre l'efficacité des modèles PBPK pour simuler l'exposition aux mélanges de COV par voies multiples. / Risk assessment focusing on exposure to mixtures by multiple routes can be improved with an understanding of the changes in internal doses due to interaction among chemicals. Physiologically based pharmacokinetic (PBPK) models are proven tools to predict the magnitude of interaction in various scenarios. In this study, four volatile organic compounds (VOCs) (toluene, nhexane, cyclohexane and isooctane) were chosen to represent petroleum products that could contaminate the drinking water (e.g. gasoline). PBPK models were used first to simulate exposure to a single chemical by a single route (inhalation, gavage) and simulate exposure to a mixture by multiple routes. PBPK models were validated by comparing simulations with in vivo data. These data were collected from groups of male Sprague-Dawley rats (n=5) exposed by inhalation (50 ppm of toluene, hexane; 300 ppm of cyclohexane and isooctane; 2-hr) or gavage (8.3, 5.5, 27.9, and 41.27 mg/kg, respectively, for toluene, hexane, cyclohexane and isooctane). For exposure to the mixture by multiple routes, same doses were used. The AUCs (mg/L x min) based on experimental data were 157.25, 18.77, 159.58 and 176.54 and the AUCs of the PBPKs model were 121.73, 21.91, 19.55 and 170.54, respectively, for toluene, hexane, cyclohexane and isooctane. Results from both PBPK models and in vivo data (single VOC, multiple routes vs. mixture, multiple routes) showed interactions between VOCs in the case of exposure to the mixture by multiple routes. This study demonstrated that the PBPK model is an effective tool to simulate exposure to mixtures of VOCs by multiple routes. Analyse de risque Mélange Voies multiples PBPK Risk assessment Mixture Multiple routes
56	Riboflavin Transporters and Breast Cancer Resistance Protein: Cimetidine-Riboflavin Interactions in the Mammary Gland Dedina, Liana 28 November 2012 (has links) Mother's milk provides multiple benefits to the offspring. However, xenobiotics transferred into breast milk may pose a risk to the nursing infant. The breast cancer resistance protein (BCRP) actively transports xenobiotics into breast milk. BCRP also transports nutrients, like riboflavin, and together with recently identified riboflavin transporters (RFT), may provide a mechanism for riboflavin secretion into breast milk. Expression of RFT in the mammary gland remained unknown. Our objective was to characterize Bcrp and Rft mRNA expression in the mammary gland of FVB/N mice, and investigate a strategy to decrease excretion of BCRP-transported xenobiotics into the milk using riboflavin intervention. Rft and Bcrp mRNA were upregulated in the mammary gland of lactating mice. An intravenous riboflavin administration significantly reduced the levels of BCRP-transported cimetidine in milk. This study demonstrates the use of riboflavin to exploit the function of mammary BCRP in order to reduce xenobiotic secretion into breast milk. Pharmacology Toxicology Riboflavin Cimetidine Breast cancer resistance protein (BCRP) Riboflavin transporters Breast milk Mammary Gland Lactation 0419 0383
57	Riboflavin Transporters and Breast Cancer Resistance Protein: Cimetidine-Riboflavin Interactions in the Mammary Gland Dedina, Liana 28 November 2012 (has links) Mother's milk provides multiple benefits to the offspring. However, xenobiotics transferred into breast milk may pose a risk to the nursing infant. The breast cancer resistance protein (BCRP) actively transports xenobiotics into breast milk. BCRP also transports nutrients, like riboflavin, and together with recently identified riboflavin transporters (RFT), may provide a mechanism for riboflavin secretion into breast milk. Expression of RFT in the mammary gland remained unknown. Our objective was to characterize Bcrp and Rft mRNA expression in the mammary gland of FVB/N mice, and investigate a strategy to decrease excretion of BCRP-transported xenobiotics into the milk using riboflavin intervention. Rft and Bcrp mRNA were upregulated in the mammary gland of lactating mice. An intravenous riboflavin administration significantly reduced the levels of BCRP-transported cimetidine in milk. This study demonstrates the use of riboflavin to exploit the function of mammary BCRP in order to reduce xenobiotic secretion into breast milk. Pharmacology Toxicology Riboflavin Cimetidine Breast cancer resistance protein (BCRP) Riboflavin transporters Breast milk Mammary Gland Lactation 0419 0383
58	Screening for Prenatal Alcohol Exposure using Fatty Acid Ethyl Esters as Biomarkers Zelner, Irene 14 January 2014 (has links) Diagnosis of fetal alcohol spectrum disorders (FASD) is challenging and typically requires confirmation of in utero alcohol exposure. Due to the poor reliability of maternal self-reports, biomarkers have emerged to address the problem of obtaining exposure history. A relatively novel method for detecting prenatal alcohol exposure is analysis of meconium for fatty acid ethyl esters (FAEEs), which are non-oxidative ethanol metabolites. Screening newborns using meconium FAEEs may facilitate early diagnosis and intervention in alcohol-affected individuals. The overall objective of this thesis is to further investigate, validate, and assess the clinical utility of meconium FAEE analysis as a screening tool for the identification of neonates at-risk for FASD. This objective was addressed in four separate studies. The first study assessed whether meconium FAEE concentrations can be predictive of ethanol-induced organ injury in fetal sheep, and determined that the levels of these esters could be used to identify fetuses at-risk for organ dysfunction that do not display overt physical signs of ethanol teratogenicity. The second study investigated the effect of delayed meconium collection and contamination with postnatal stool on FAEE analysis, and determined it to be a risk factor for false positive test results. In the third study, maternal willingness to partake in an open meconium screening program was assessed and found to be low enough to diminish the utility of meconium FAEE testing for population-based open screening. Lastly, a systematic review examining the capacity for FAEE synthesis and the enzymology of this non-oxidative metabolic pathway in mammalian organs and tissues revealed that FAEE synthesis is mediated by numerous enzymes and isoenzymes, many of which have other primary physiological functions, and that their contribution to overall FAEE-synthesis may be tissue-specific. Overall, the results of this research provide new information on the benefits, limitations, and utility of meconium FAEE testing as a screening tool for identifying prenatal alcohol exposure − a test that may be of great clinical value in the diagnosis and management of FASD. Fetal Alcohol Spectrum Disorders Neonatal Screening Biomarkers Prenatal alcohol exposure Meconium Fatty Acid Ethyl Esters 0419 0383
59	Évaluation de la toxicité du béryllium en fonction de la forme chimique et de la taille des particules Muller, Caroline 02 1900 (has links) Le béryllium (Be) est un métal dont les propriétés physiques et mécaniques sont très recherchées, notamment dans les secteurs spatial, énergétique et électronique. Les principaux effets associés à l’exposition au Be sont la sensibilisation et la bérylliose chronique. La prévalence des effets associés au Be suggère que les risques sont, entre autres, fonction de sa spéciation. Par ailleurs, il semble que les particules fines constituent la fraction d’intérêt pour l’occurrence de tels effets. Dans cette étude nous avons vérifié l’hypothèse que la forme chimique et la taille des particules du Be jouent un rôle majeur au niveau de la toxicité et de l’apparition d’effets spécifiques à une exposition au Be. Les effets spécifiques se traduisent, entre autres, par la formation de granulomes inflammatoires pulmonaire, par la prolifération de lymphocytes TCD4+ et la production de cytokines de type Th1. Pour chacune des trois formes chimiques visées par la présente étude (le Be métallique ou Be, l’oxyde de Be ou BeO et l’alliage Be aluminium ou BeAl), la toxicité a été évaluée à la suite d’une exposition subchronique par inhalation oro-nasale à des particules fines (F) et totales (T). À cette fin, un modèle animal (souris) a été utilisé. Au total, 245 souris ont été utilisées. Elles ont été subdivisées en sept groupes de 35 souris. Un groupe a servi de contrôle, alors que chacun des six autres a été exposé soit à des particules fines soit à des particules totales, pour chacune des trois formes chimiques de Be (Be-F, Be-T, BeO-F, BeO-T, BeAl-F, BeAl-T). La durée d’exposition pour chacun des groupes s’est étendue sur 3 semaines, 5 jours par semaine, 6 heures par jour. Le niveau d’exposition des souris était de 250 µg/m3. L‘urine des souris a été recueillie avant et durant l’exposition. Au moment du sacrifice, plusieurs tissus (poumon, rate, foie et reins) ainsi que des échantillons de sang ont été prélevés puis immédiatement congelés jusqu’à leur analyse pour la détermination de leur teneur en Be. De plus, certains poumons et rates ont été analysés pour l’évaluation de la sensibilité immunologique et de l'inflammation pulmonaire. Cette étude d’exposition subchronique est la première étude murine qui étudie les effets toxiques de différentes tailles particulaires sur les changements pathologique et immunologique similaires à ceux observés chez l’humain. Cette étude a permis de constater qu’il existait des différences importantes au niveau de la toxicité du Be d’après les différentes tailles particulaires à l’étude. Ces différences seraient reliées au dépôt des particules de Be dans les voies respiratoires et également à la capacité des voies respiratoires à les éliminer totalement ou partiellement. La clairance respiratoire est fonction, notamment, du site de déposition et du caractère soluble ou non des particules. Cette recherche aura également permis de démontrer que les souris C3H/HeJ représentent un bon modèle pour l’étude des effets toxicologiques et immunologiques d’une exposition au Be. De plus, nos résultats démontrent que la sévérité des lésions pulmonaires causées par le Be, tel que l’infiltration interstitielle de lymphocytes et la formation de granulomes non-caséeux, augmente avec le temps de résidence pulmonaire des particules de Be. Combinés à d’autres résultats, nos résultats contribueront à guider les actions de prévention relativement à l’exposition au Be, incluant éventuellement la révision de la valeur limite de l’exposition et possiblement l’établissement de valeurs limites en fonction de la forme chimique et de la taille des particules. / Beryllium (Be) is a metal with physical and mechanical properties and is used extensively in the aerospace, energy, and electronics industries. The main effects associated with Be exposure are sensitization and chronic beryllium disease. The prevalence of the effects associated with Be suggests that the risks are function of its speciation. Futhermore, it appears that the fine particles constitute the fraction of interest for the occurrence of such effects. In this study we verified the hypothesis that the chemical form and the particle size of Be play a major role in the level of the toxicity and in the appearance of specific effects in an exposure to Be. The specific effects are translated, among others, by the formation of inflammatory granulomes, by the proliferation of lymphocytes TCD4 + and the production of type Th1's cytokines. For each of the three chemical forms assessed in this research (Be metal or Be, Be oxide or BeO and Be aluminum alloy or BeAl) the toxicity was estimated following an subchronic exposure by nose-only to fine (F) and total (T) particles. An animal model (mouse) was used. Two hundred and forty five mice divided into seven groups of 35 each were used. The first group was used as a control, while the six other groups were exposed to total or fine particles of three different Be species (Be-F, Be-T, BeO-F, BeO-T, BeAl-F, BeAl-T). The duration of exposure for each of the groups was 3 consecutive weeks, 5 days per week and 6 hours per day. The target level of exposure was 250 μg/m3. Urine was collected before and during exposure. At the time of the sacrifice, several tissues (lungs, spleens, livers and kidneys) and blood samples were taken and immediately frozen until their chemical analysis for Be concentrations. Lungs and spleens were also sampled to evaluate the immunological effects and pulmonary inflammation. This study of subchronic exposure is the first murine study to examine the toxic effects of various particle sizes for similar pathological and immunological changes to those observed in a human being. This study allowed for the identification of important differences in the level of the toxicity of Be according to the various particles sizes. These differences are connected to the deposit of the particles of Be in respiratory tracts and also the capacity of respiratory tracts to eliminate them totally or partially. The respiratory clearance is a function of the site of deposition and of the solubility of the particles. This research has also demonstrated that mouse C3H/HeJ represents a good model for the study of the toxicological and immunological effects of a Be exposure. Furthermore, our results showed that the severity of the lung hurts caused by Be, such as the interstitial infiltration of lymphocytes and the formation of non-caseous granulomes, increases in time by lung residence of Be. Alongside other results, the results of this research will contribute to informing the prevention of Be exposure, including possibly the revision of the limit value and the establishment of a scientifically based threshold according to chemical form and particle size. Béryllium Bérylliose chronique Forme chimique Taille des particules Exposition oro-nasale Sensibilisation Be
60	Screening for Prenatal Alcohol Exposure using Fatty Acid Ethyl Esters as Biomarkers Zelner, Irene 14 January 2014 (has links) Diagnosis of fetal alcohol spectrum disorders (FASD) is challenging and typically requires confirmation of in utero alcohol exposure. Due to the poor reliability of maternal self-reports, biomarkers have emerged to address the problem of obtaining exposure history. A relatively novel method for detecting prenatal alcohol exposure is analysis of meconium for fatty acid ethyl esters (FAEEs), which are non-oxidative ethanol metabolites. Screening newborns using meconium FAEEs may facilitate early diagnosis and intervention in alcohol-affected individuals. The overall objective of this thesis is to further investigate, validate, and assess the clinical utility of meconium FAEE analysis as a screening tool for the identification of neonates at-risk for FASD. This objective was addressed in four separate studies. The first study assessed whether meconium FAEE concentrations can be predictive of ethanol-induced organ injury in fetal sheep, and determined that the levels of these esters could be used to identify fetuses at-risk for organ dysfunction that do not display overt physical signs of ethanol teratogenicity. The second study investigated the effect of delayed meconium collection and contamination with postnatal stool on FAEE analysis, and determined it to be a risk factor for false positive test results. In the third study, maternal willingness to partake in an open meconium screening program was assessed and found to be low enough to diminish the utility of meconium FAEE testing for population-based open screening. Lastly, a systematic review examining the capacity for FAEE synthesis and the enzymology of this non-oxidative metabolic pathway in mammalian organs and tissues revealed that FAEE synthesis is mediated by numerous enzymes and isoenzymes, many of which have other primary physiological functions, and that their contribution to overall FAEE-synthesis may be tissue-specific. Overall, the results of this research provide new information on the benefits, limitations, and utility of meconium FAEE testing as a screening tool for identifying prenatal alcohol exposure − a test that may be of great clinical value in the diagnosis and management of FASD. Fetal Alcohol Spectrum Disorders Neonatal Screening Biomarkers Prenatal alcohol exposure Meconium Fatty Acid Ethyl Esters 0419 0383

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