Global ETD Search

1	Some chemistry of phthalic anhydride and phthaloyl monophosphate Flynn, Gordon Leonard, January 1965 (has links) Thesis (Ph. D.)--University of Wisconsin, 1965. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references. Phthalic anhydride. Phthaloyl phosphate.
2	I. Crystal and molecular structure of antitumor agent Jatrophatrione ; II. Crystal and molecular structures of two pyrimidone dimers ; III. Crystal and molecular structure of phthalic anhydride ; IV. Synthetic studies on the side chains of cephalotaxine esters, potent anticancer agents Cutler, Robert Steven, 1952- January 1977 (has links) No description available. Jatrophatrione. Phthalic anhydride. Antineoplastic agents.
3	DERMAL ABSORPTION AND TISSUE DISTRIBUTION OF PHTHALATE DIESTERS AND PHTHALIC ACID. El Sisi, Alaa El Din El Sayed. January 1983 (has links) No description available. Phthalic acid -- Metabolism. Skin absorption. Rats -- Physiology.
4	Treatment of phthalic anhydride residue for improved handling and disposal Van Staden, Karen 31 October 2005 (has links) The handling and disposal of hot tarry liquid residues can be problematic in industry, in this case, a phthalic anhydride plant using naphthalene as feed stock. The residue from the plant contains an appreciable amount of phthalic anhydride which desublimates from the residue during draining, resulting in an unsafe working environment. In addition, the residue is a hot liquid that solidifies upon cooling, causing additional risks to personnel during handling and various problems associated with disposal. Research was conducted into finding a treatment method to reduce or eliminate the desublimation of phthalic anhydride from the residue and addressing the hot liquid residue, making the residue safer to handle and easy to dispose of. Laboratory experiments showed that the addition of Dicalite 4151 (a filter aid) in a concentration of 0,3 kg Dicalite 4151 per kg phthalic anhydride residue, resulted in the formation of a powdered residue. This was confirmed during plant trials where using the same concentration proved that a powdered residue could be obtained, while at the same time desublimation of the phthalic anhydride from the residue was negated by distilling the product from the residue mixture. An opportunity exists to test the use of filter aid in other residue producing industries to determine if the same results can be achieved. / Dissertation (MEng (Environmental Engineering))--University of Pretoria, 2005. / Chemical Engineering / unrestricted Factory and trade waste disposal Phthalic acids residues handling UCTD
5	Dietary intake patterns and relationships to polybrominated diphenyl ether (PBDE) and phthalate body burden. Colacino, Justin. Schecter, Arnold, Harris, T. Robert January 2009 (has links) Source: Masters Abstracts International, Volume: 47-06, page: 3476. Adviser: Arnold J. Schecter. Includes bibliographical references.
6	Single-molecule orientations and photophysics in dyed salt crystals / Wustholz, Kristin Lee, January 2007 (has links) Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 132-142).
7	Systematic identification of thermal degradation products of HPMCP during hot melt extrusion process Karandikar, Hrushikesh M., Ambardekar, Rohan, Kelly, Adrian L., Gough, Tim, Paradkar, Anant R January 2015 (has links) No / A systematic identification of the degradation products of hydroxypropyl methylcellulose phthalate (HPMCP) during hot melt extrusion (HME) has been performed. A reverse phase HPLC method was developed for the extrudates of both hydroxypropyl methylcellulose acetate succinate (HPMCAS) and HPMCP polymers to quantify their thermal hydrolytic products: acetic acid (AA), succinic acid (SA) for HPMCAS and phthalic acid (PA) for HPMCP, without hydrolysing the polymers in strong alkaline solutions. The polymers were extruded in the temperature range of 160-190 degrees C at different screw rotation speeds and hydrolytic impurities were analysed. Investigation of extruded HPMCP showed an additional thermal degradation product, who is structural elucidation revealed to be phthalic anhydride (PAH). Moreover, two environmental analytical impurities, dimethyl phthalate and methyl benzoate formed in situ were recorded on GC-MS and their origin was found to be associated with PAH derivatization. Using the experimental data gathered during this study, a degradation mechanism for HPMCP is proposed. Acetic acid Benzoates Chromatography Drug compounding Gas chromatography-mass spectrometry Hot temperature Magnetic resonance spectroscopy Methylcellulose Phthalic acids Phthalic anhydrides Spectrophotometry Succinic acid Thermogravimetry Degradation products and mechanism Hme Hpmcas Hpmcp Thermal degradation
8	Síntese e avaliação da atividade anti-inflamatória de novos análogos da talidomida contendo uma estrutura ftalimida aberta Pereira, Ingrid Estevam 22 February 2017 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-06-01T12:09:03Z No. of bitstreams: 1 ingridestevampereira.pdf: 2004254 bytes, checksum: 326e3188dc98d9fc4ddc417af89ebc1e (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-06-02T15:12:44Z (GMT) No. of bitstreams: 1 ingridestevampereira.pdf: 2004254 bytes, checksum: 326e3188dc98d9fc4ddc417af89ebc1e (MD5) / Made available in DSpace on 2017-06-02T15:12:44Z (GMT). No. of bitstreams: 1 ingridestevampereira.pdf: 2004254 bytes, checksum: 326e3188dc98d9fc4ddc417af89ebc1e (MD5) Previous issue date: 2017-02-22 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / A talidomida é uma potente droga anti-inflamatória empregada no tratamento de diversas patologias, incluindo Eritema Nodoso Leproso (ENL), câncer, doença de Crohn e outras desordens inflamatórias e vasculares. Entretanto, seus efeitos tóxicos e teratogênicos tornam sua utilização limitada e motivam pesquisas para a síntese de análogos que apresentem eficácia semelhante na imunomodulação, sem efeitos tóxicos. Diversos análogos da talidomida vêm sendo desenvolvidos no laboratório de química da UFJF. Em estudos anteriores, mostramos que a introdução de dois anidridos ftálicos na composição aumenta significativamente a atividade biológica e solubilidade em água do composto, sem aumento da toxicidade em modelos experimentais in vitro e in vivo. O presente trabalho visa a síntese de dois novos compostos análogos da talidomida, CAT-15 e CAT-16, formados por apenas um derivado anidrido ftálico aberto, mantendo um grupo amino livre, e a avaliação da sua atividade anti-inflamatória utilizando linhagem de célula HT-29 e células mononucleares de sangue periférico humano (PBMC) estimuladas com LPS. A citotoxicidade dos compostos foi avaliada pelo ensaio do MTT, com tratamento por 18 horas para células HT-29 e por 24 e 48 horas para PBMC, usando concentrações crescentes de talidomida, CAT-15, CAT-16. A dexametasona foi utilizada como controle positivo. A produção de TNF-α, CXCL-10, IL-6, IL-8 e IL-10 foi avaliada pelo método de ELISA. Os novos compostos não foram tóxicos para as células HT-29 e PBMC em nenhuma das concentrações testadas, com exceção de CAT-16 a 1600µM. Células HT-29 produziram grande quantidade de CXCL-10 em resposta ao LPS e os resultados deste trabalho mostram que a talidomida e os análogos CAT-16 e CAT-15 apresentam atividade inibitória sobre a produção desta quimiocina. O composto CAT-16 modulou a produção de CXCL-10 em concentrações menores que a talidomida em ambos os modelos de tratamento (simultâneo e prétratamento). Em contrapartida, a modulação por CAT-15 foi observada apenas no modelo de pré-tratamento. Com relação a IL-8, a talidomida e o CAT-16 inibiram a produção desta citocina por células HT-29 apenas na concentração de 100µM. Ao contrário das células HT-29, o PBMC produziu TNF-α em resposta ao LPS, tendo a talidomida e o análogo CAT-16 apresentado capacidade de inibição da produção do TNF-α em ambos os tempos de tratamento. O análogo CAT-15 não influenciou a produção de TNF-α por PBMC em nenhuma das concentrações e tempos de tratamento. Este estudo também mostra a atividade da talidomida e dos nos análogos sobre a produção de IL-6 e IL-10 por PBMC, havendo significativa inibição da produção de IL-6 por todos os compostos e tempos de tratamento e sobre IL-10 pelo composto CAT-15 após 48 horas de incubação. Nossos resultados sugerem a aplicabilidade dos novos compostos, CAT-15 e CAT-16, no controle de respostas inflamatórias uma vez que inibiram a produção de moléculas chave como TNF-α, IL6, IL-10, IL-8 e CXCL-10. Ainda, esses compostos possuem estruturas simplificadas, têm baixo custo de produção, são hidrossolúveis e não possuem centro quiral. Esses resultados podem contribuir no desenvolvimento de novas estratégias de tratamento para certas condições inflamatórias. / Thalidomide is a potent anti-inflammatory drug used in the treatment of various pathologies including Erythema Nodosum Leprosum (ENL), cancer, Crohn's disease and other inflammatory and vascular disorders. However, its toxic and teratogenic effects make its use limited and motivate research groups to synthesize analogues presenting similar immunomodulation efficacy, without toxic effects. Several analogs of thalidomide have been developed in the laboratory of chemistry of the UFJF. Previously, we have shown that introduction of two phthalic anhydrides into the composition significantly enhances biological activity and water solubility, without enhanced toxicity. The present work aims at the synthesis of two new analogues of thalidomide, CAT-15 and CAT-16, formed by only one open phthalic anhydride derivative, maintaining a free amino group, and the evaluation of its anti-inflammatory activity using HT- 29 and human peripheral blood mononuclear cells (PBMCs) stimulated with LPS. The cytotoxicity of the compounds was evaluated by the MTT assay, with 18 hours treatment for HT-29 cells and for 24 and 48 hours for PBMC, using increasing concentrations of thalidomide, CAT-15, CAT-16. Dexamethasone was used as a positive control. Production of TNF-α, CXCL-10, IL-6, IL-8 and IL-10 was evaluated by the ELISA method. The novel compounds were not toxic to HT-29 and PBMC cells at any of the concentrations tested, with the exception of CAT-16 at 1600μM. HT-29 cells produced large amounts of CXCL-10 in response to LPS and the results of this work show that thalidomide and the CAT-15 and CAT-16 analogs exhibit inhibitory activity on the production of this chemokine. CAT-16 compound modulated the production of CXCL-10 at lower concentrations than thalidomide in both treatment models (simultaneous and pretreatment). In contrast, CAT-15 modulation was observed only in the pre-treatment model. Regarding IL-8, thalidomide and CAT-16 inhibited their production by HT-29 cells only at the concentration of 100 μM. Unlike HT-29 cells, PBMC produced TNF-α in response to LPS, with thalidomide and CAT-16 analog being able to inhibit TNF- production at both treatment times. The CAT-15 analogue did not influence the production of TNF-α by PBMC at any of the concentrations and treatment times. This study also shows the activity of thalidomide and the analogs on IL-6 and IL-10 production by PBMC, with significant inhibition of IL-6 production by all compounds and treatment times and on IL-10 by compound CAT-15 after 48 hours of incubation. Our results suggest the applicability of the new compounds, CAT-15 and CAT-16, in the control of inflammatory responses since they inhibited the production of key molecules such as TNF-α, IL-6, IL-10, IL-8 and CXCL-10. Furthermore, these compounds have simplified structures, and low cost of production, are water soluble and have no chiral center. These results may contribute to the development of novel treatment strategies for certain inflammatory conditions. CNPQ::CIENCIAS BIOLOGICAS Talidomida Análogos Anidrido ftálico Citocinas TNF-α HT-29 Thalidomide Phthalic anhydrides Citokynes TNF-α HT-29
9	Uticaj ftalata iz spoljašnje sredine na neke metaboličke poremećaje / The influence of phthalates at environmental levels on certain metabolic disorders Bosić-Živanović Dragana 30 September 2015 (has links) <p>Uvod. Ftalati su endokrini disruptori, &scaron;iroko se koriste kao plastifikatori, rastvarači i aditivi u mnogim potro&scaron;ačkim proizvodima. Eksperimentalni podaci i humane studije sugeri&scaron;u na povezanost ftalata sa gojazno&scaron;ću i dijabetesom. Cilj. Utvrditi da li su i koji urinami metaboliti ftalata prisutni i da li postoje razlike u njihovim nivoima između bolesnika s tipom 2 &scaron;ećeme bolesti, gojaznih i kontrolne grupe zdravih osoba; da li postoji povezanost između metabolita ftalata i gojaznosti, lipida i lipoproteina seruma, glikemije, insulinemije i insulinske rezistencije.<br />Metode. Istraživanje je obuhvatilo 305 ispitanika, podeljenih u 3 grupe: gojazni (n=104), dijabetesni bolesnici tip 2 (n=101) i zdrave osobe (n=100), oba pola. U svih ispitanika su izvr&scaron;ena antropometrijska merenja (BMI i obim struka), određivanje serumskih lipida (ukupni holesterol, trigliceidi, HDL i LDL holesterol), te glikemija, insulinemija i izračunat indeks insulinske rezistencije (HOMA IRI). U jutarnjem uzorku urina meren je nivo 10 ftalatnih metabolita: mono-metil ftalat (MMP), mono-etil ftalat (MEP), mono-n-butil ftalat (MnBP), mono- benzil ftalat (MBzP), mono-cikloheksil ftalat (MCHP), mono-n-propil ftalat (MPP), mono-n-amil ftalat (MnAP), mono-izo-amil ftalat (MiAP), mono- n-oktil ftalat (MOP), mono-2-etilheksil ftalat (MEHP). U odnosu na prisustvo ftalata u urinu svaka grupa je podeljena u podgrupe na one sa prisutnim ftalatima i one bez ftalata u urinu, odnosno na podgrupe MEP pozitivne, MEP negativne, MEHP pozitivne i MEHP negativne. Rezultati. Kod polovine ispitanika registrovali smo prisustvo u urinu pojedinih metabolita ftalata. Najče&scaron;ći su bili MEHP i MEP. Najveća sličnost u nivou MEP-a i MEHP-a je bila između gojaznih i dijabetesnih ispitanika. U odnosu na antropometrij ske parametre uočena je pozitivna korelacija MEP-a sa BMI i obimom struka, a negativna korelacija MEHP-a sa BMI i obimom struka, ali su bile nesignifikantne. Samo kod MEHP pozitivnih kontrolne grupe uočena je statistički značajna pozitivna korelacija MEHP-a i obima struka. Utvrđena je statistički značajna negativna korelaciju MEP-a i HDL holesterola, a pozitivna korelacija MEP-a i triglicerida samo kod gojaznih. Samo u kontrolnoj grupi MEHP pozitivnih postojala je statistički značajna negativna korelacija sa HDL holesterolom. Postojala je pozitivna korelacija MEP-a i HOMA-IRI, a pozitivna korelacija MEHP-a sa glikemijom samo kod MEHP pozitivnih DM tip 2. Zaključak. Potvrđeno je da je kontaminacija ftalatima prisutna u na&scaron;oj populaciji, a najče&scaron;će su prisutni MEHP i MEP, ukazujući na ekspoziciju DEHP i DEP. Indirektno smo stekli uvid da povećana izloženost DEP i DEHP može doprineti nastanku izvesnih poremećaja lipida i lipoproteina, insulinskoj rezistenciji kao i razvoju gojaznosti.</p> / <p>Introduction. Phthalates are endocrine disruptors, widely used as plasticizers, solvents and additives in a wide range of consumer products. Experimental data and human studies suggest that phthalate exposure is linked with obesity and diabetes. Aim. To determine whether urinary phthalate metabolites are present, which ones are present, whether there are differences between their levels among the patients with type 2 diabetes, obesity patients and a control group of healthy individuals; whether there is a link between phthalate metabolites and obesity, lipids, serum lipoproteins, glycemia, insulinemia and insulin resistance. Methods. The research included 305 participants divided into three groups: obesity patients (n=104), type 2 diabetes patients (n=101) and healthy individuals (n=100) in both sexes. Anthropometric measurements were taken from all participants (BMI and waist circumference), as well as measurement of serum lipids (total cholesterol, triglycerides, HDL and LDL cholesterol), glycemia, insulinemia and a calculation of insulin resistance index (HOMA IRI). The levels of ten phthalate metabolites were<br />measured in a morning sample of urine: Mono-methyl phthalate (MMP), Mono-ethyl phthalate (MEP), Mono-n-butyl phthalate (MnBP), Mono-benzyl phthalate (MBzP), Mono- cyclohexyl phthalate (MCHP), Mono-n-propyl phthalate (MPP), Mono-n-amyl phthalate (MnAP), Mono-iso-amyl phthalate (MiAP), Mono-n-octyl phthalate (MOP), Mono-2- ethylhexyl phthalate (MEHP). Regarding the presence of phthalates in urine, each group was divided into subgroups, containing phthalates and or not containing phthalates, i.e. subgroups MEP positive and MEP negative, MEHP positive and MEHP negative. Results. In a half of participants, we have registered the presence of certain phthalate metabolites in urine, most often MEHP and MEP. The highest similarity in the levels of MEHP and MEP was between obesity and diabetes participants. Regarding anthropometric measurements, positive correlation has been registered between MEP and BMI and waist circumference, while negative correlation has been registered between MEHP and BMI and waist circumference, but it was insignificant. Only in MEHP positive control group, statistically significant positive correlation between MEHP and waist circumference has been registered. Statistically significant negative correlation between MEP and HDL cholesterol has been registered, while positive correlation between MEP and triglycerides has been registered only in obesity patients group. Only in MEHP positive control group statistically significant negative correlation with HDL cholesterol has been registered. There has been a positive correlation between MEP and HOMA-IRI, while positive correlation between MEHP and glycemia has been registered only in MEHP positive DM type 2. Conclusion. It has been confirmed that our population is contaminated with phthalates, most commonly MEHP and MEP, indicating exposure to DEHP and DEP. Indirectly, we have realized that an increased exposure to DEHP and DEP can contribute to the development of certain lipid and lipoprotein disorders, insulin resistance, as well as the development of obesity.</p>
10	Développement d'outils de surveillance biologique pour l'évaluation des risques à la santé des travailleurs en arboriculture et en viticulture exposés aux fongicides Berthet, Aurélie 03 1900 (has links) De nombreux travailleurs utilisent le captan et le folpet comme fongicides en agriculture, mais leur exposition n’est pas toujours mesurée de manière spécifique et précise. La surveillance biologique est un excellent outil à cet effet puisqu’elle permet de quantifier l’exposition réelle. Toutefois, la majorité des connaissances toxicologiques pour ces fongicides proviennent d’études sur les animaux, et les données chez l’humain sont limitées. Le but du présent projet est donc de développer des outils de surveillance biologique pour évaluer l’exposition de travailleurs au captan et au folpet. Dans cette perspective, le projet a été subdivisé en trois parties complémentaires, soit i) de développer des méthodes analytiques spécifiques pour quantifier les biomarqueurs d’intérêt du captan, à savoir le tétrahydrophtalimide (THPI), et du folpet, à savoir le phtalimide (PI) et l’acide phtalique, dans le plasma et l’urine; ii) de déterminer la toxicocinétique des deux fongicides en exposant des volontaires de façon aigüe à de faibles doses de captan ou de folpet par voie orale et cutanée dans des conditions semi-contrôlées et en quantifiant les biomarqueurs dans chacune des deux matrices, excepté l’acide phtalique qui a été mesuré seulement dans l’urine; iii) de valider les biomarqueurs d’exposition sélectionnés et d’évaluer l’exposition réelle des travailleurs et les voies prédominantes d’exposition au captan et au folpet en collectant des données biologiques chez des travailleurs en arboriculture et en viticulture lors d’activités de traitement et d’effeuillage pendant sept jours consécutifs. Selon ces travaux, le THPI et le PI sont deux biomarqueurs valides et spécifiques pour quantifier l’exposition au captan et au folpet, respectivement, chez l’humain. En effet, les méthodes développées pour ces deux métabolites sont robustes avec des limites de détection plus sensibles que celles rapportées dans la littérature, un taux de recouvrement de 90% pour le THPI et de 75% pour le PI, une très bonne linéarité (R2>0,99) et une bonne stabilité avec des variations intra- et inter-journalières faibles (RSD<15%). Elles ont permis de déterminer les profils cinétiques des deux métabolites chez les volontaires et chez les travailleurs. Ces derniers indiquent d’ailleurs une élimination rapide, avec une demi-vie d’élimination dans l’urine de 11,7 h et 18,7 h pour le THPI et de 27,3 h et 28,8 h pour le PI, respectivement après une absorption par voie orale et cutanée, ainsi qu’une faible absorption cutanée lorsque les valeurs sont comparées pour les deux voies d’exposition. Des profils parallèles sont aussi observés entre le PI et l’acide phtalique pour les volontaires et les agriculteurs, mais le folpet se retrouve davantage métabolisé sous forme d’acide phtalique que de PI. Quant à l’étude des agriculteurs, elle montre que la voie principale d’exposition de ces travailleurs est la voie cutanée. Il est aussi souligné qu’il est important 1) de favoriser les collectes d’urines complètes sur 24 h au urines ponctuelles, 2) de mesurer plusieurs métabolites, et 3) d’associer les données de surveillance biologique à la toxicocinétique. Ainsi, les connaissances acquises par cette étude peuvent s’appliquer à d’autres fongicides, voire d’autres substances. / Several workers use captan and folpet as fungicides in agriculture, but their exposure has yet to be measured specifically and precisely. Biomonitoring is an excellent tool for this purpose since it allows to quantify internal exposure. However, the majority of toxicological data on these fungicides come from animal studies and data in humans are limited. The aim of this project was thus to develop biological monitoring tools in order to assess exposure to captan and folpet in humans. In this perspective, the project was divided into three complementary parts: i) to develop specific and accurate analytical methods in order to quantify captan and folpet metabolites in urine and blood, namely tetrahydrophthalimide (THPI) for captan and phthalimide (PI) and phthalic acid for folpet; ii) to determine the toxicokinetics of the two fungicides in humans by exposing volunteers acutely to low-doses of captan or folpet by oral and dermal routes under semi-controlled conditions and by quantifying the biomarkers in plasma and urine, except phthalic acid which was only measured in urine; iii) to validate the use of the selected biomarkers of exposure to captan and folpet and estimate actual exposures of workers and main exposure routes to these fungicide in the context of a field biomonitoring study in farmers during treatment and harvest activities over seven consecutive days. This study showed that THPI and PI are both valid and specific biomarkers of exposure to captan and folpet, respectively, in humans. Indeed, the developed methods for these two metabolites are accurate showing more sensitive detection limits than those reported in the literature, good recovery rate (90% for THPI and 75% for PI), linearity (R2>0.99) and stability (RSD<15% for intra-and inter-day precision and accuracy). They allowed determining the kinetic profiles of the two metabolites in healthy volunteers and in workers. These profiles indicate a rapid elimination of both metabolites, since the urinary elimination half-life of THPI was 11.7 h and 18.7 h following an oral and dermal absorption, respectively, and 27.3 h and 28.8 h for PI. They also evidence a low dermal absorption for both fungicides when oral and dermal route are compared. In addition, parallel profiles were observed between PI and phthalic acid, but the administrated dose of folpet was mostly recovered as phthalic acid rather than PI. As for the study of farmers, it showed that the dermal route was the main route of exposure. It also pointed out that it is important 1) to perform 24-h complete urine collections rather than collect spot urines, 2) to measure several metabolites to better assess actual exposure, and 3) to rely on the toxicokinetics to help interpret biomonitoring data. Overall, knowledge acquired from this study may be applied to other fungicides or even to other substances. Captan Folpet Surveillance biologique THPI PI Acide phtalique Cinétique chez l'humain Viticulteurs Arboriculteurs Biomonitoring Phthalic acid Kinetics Human data Field workers

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