Global ETD Search

121	Multifunctional Dendritic Scaffolds: Synthesis, Characterization and Potential applications Hed, Yvonne January 2013 (has links) The development of materials for advanced applications requires innovative macromolecules with well-defined structures and the inherent ability to be tailored in a straightforward manner. Dendrimers, being a subgroup of the dendritic polymer family, possess properties which fulfill such demands. They have a highly branched architecture with a high number of functional groups and are one of the most well-defined types of macromolecules ever synthesized. However, despite their well-defined nature and high functional density, traditional dendrimers commonly lack diverse chemical functionalities. Therefore, this thesis focuses on the synthesis of more complex dendritic materials to extend their tailoring capacity by introduction of dualfunctionalities for multipurpose actions. It covers the synthesis of dualfunctional dendrimers, dendritic modification of linear poly(ethylene glycol) polymers and cellulose surfaces, and the synthesis of linear dendritic hybrids. The building blocks enabling this synthesis, AB2C monomers, were also developed during this work. The orthogonal nature between click groups (azide, alkyne and alkene) and hydroxyl groups have efficiently been utilized for postfunctionalization by robust click chemistry and traditional esterification reactions. Furthermore, linear dendritic hybrids were synthesized, merging the properties of linear and dendritic macromolecules. The dendritic frameworks were tailored towards the production of bone fracture adhesives, novel biofunctional dendritic hydrogels, biosensors and micellar drug delivery vehicles. / Utveckling av material för avancerade applikationer kräver innovativa makromolekyler med väldefinierade strukturer och som kan skräddarsys på ett enkelt sätt. Dendrimerer är en undergrupp av dendritiska polymerer vars egenskaper uppfyller dessa krav. De har en mycket förgrenad arkitektur med många funktionella grupper och är en av de mest väldefinierade befintliga syntetiska makromolekylerna. Trots dess väldefinierade karaktär och höga funktionalitet saknar ofta traditionella dendrimerer multipla kemiska funktionaliteter. Denna avhandling fokuserar därför på syntesen av mer komplexa dendritiska material för att förbättra deras kapacitet att skräddarsys, detta görs genom att introducera fler funktionaliteter som kan utnyttjas för multipla ändamål . Avhandlingen redogör för syntesen av difunktionella dendrimerer, dendritiska modifikationer av polyetylenglykol och cellulosaytor samt syntes av traditionella dendritiska hybrider. Byggstenarna som möjliggör syntesen, AB2C monomerer, framställdes också under detta arbete. Den ortogonala karaktären mellan klick grupper (azid, alkyn och alkene) och hydroxylgrupper har utnyttjats effektivt för funktionaliseringar genom användande av robust ”Click”-kemi och traditionella esterifikationsreaktioner. Vidare tillverkades de linjära dendritiska hybrider för att kombinera egenskaperna hos både linjära och traditionella dendritiska polymerer i en och samma makromolekyl. Samtliga dendritiska strukturer skräddarsyddes för applikationer så som benlimmer, biofunktionella dendritiska hydrogeler, biosensorer och läkemedels-bärande miceller. / <p>QC 20130830</p> Dendrimer AB2C monomer Click chemistry CuAAC thiol-ene coupling chemistry TEC linear dendritic hybrids micelle hydrogel bone adhesive
122	Synthesen und Reaktionen von organischen Polyaziden Joo, Young-Hyuk 23 July 2007 (has links) (PDF) In der vorliegenden Arbeit wird die Darstellung neuer organischer Polyazide dokumentiert, die durch einfache nucleophile Substitution mittels NaN3 dargestellt werden können. Organische Azide mit der Formel RN3 können sich unter Stickstoff-Abspaltung in exothermen, teilweise explosionsartigen Reaktionen zersetzen. Sie sind daher prinzipiell als energiereiche Materialien (HEDM) für entsprechende Anwendungen geeignet. Die als Treibladungsmaterialien potentiell geeignetsten, handhabungssicheren, dendritischen Polyazide werden unter anderem mittels Thermogravimetrie und Differenzkalorimetrie analysiert. In einer neuen Synthesemethode können die wenig bekannten Heteroazidomethane aus Tris(azidomethyl)amin erzeugt werden. Von besonderem Interesse ist dabei die Synthese neuartiger Azidohalogenmethane. Diese können durch analytische Gas-Chromatographie charakterisiert und mittels präparativer Gas-Chromatographie isoliert werden. Durch die 1,3-dipolare Cycloaddition mit Cyclooctin konnten einige Heteroazidomethane zu Triazolen abgefangen und so einer Einkristall-Röntgen-Strukturanalyse zugeführt werden. Als letztes in der homologen Reihe der Azidomethane noch fehlendes Azid konnte Tetraazidomethan synthetisiert werden. Das Perazidomethan besitzt mit 93.3% den für organische Azide höchstmöglichen Stickstoffgehalt. Seine Existenz wurde bislang lediglich durch molekültheoretische Berechnungen nahegelegt. Die Synthese dieses homoleptischen Kohlenstoffazides gelang durch die Behandlung von Trichloracetonitril mit Natriumazid. Es ließ sich durch präparative GC als extrem explosive, farblose Flüssigkeit isolieren. Mit Hilfe der analytischen GC konnten sowohl der Siedepunkt als auch die Polarität von C(N3)4 abgeschätzt werden. C(N3)4 wird desweiteren durch IR, MS, 13C-NMR und 15N-NMR-Spektroskopie sowie durch Einkristall-Röntgen-Strukturanalysen seiner Abfangprodukte mit Cyclooctin charakterisiert. Mit Wasser zeigt C(N3)4 eine quantitative Hydrolyse unter Bildung von Carbonyldiazid. Durch Austauschprozesse mit Na15N3 konnte die mögliche Dissoziation von C(N3)4 nachgewiesen werden. Reaktionen von C(N3)4 mit Phosphinen führen zu Cyanamidderivaten, mit Norbornen sowie Norbornadien wurden über vielstufige Reaktionsmechanismen Aminotetraazole erhalten. 1 3-dipolare Cycloadditionen 15N-NMR Dendrimer Heteroazidomethan High Energy Density Materials (HEDM) Tetraazidomethan nucleophile Substitutionen ddc:540 Photolyse Triazole
123	Studies of multicomponent assemblies Long, Samuel Reid 03 March 2014 (has links) This dissertation is divided into three major sections (one on dendrimers, one on tripodal metal ligands and one on a research oriented chemistry curricula) with a primary focus on different types of multicomponent assemblies. In the first chapter, a system is described that used a multicomponent assembly of AT-PAMAM dendrimers and an indicator, carboxyfluorescein, to detect and identify various polyanions at a low micromolar concentration. The system was able to successfully differentiate twelve anions, many of biological interest, including three tricarboxylates. The tricarboxylates were differentiated based primarily on the regiochemistry of the anionic groups. In the second chapter, further studies with AT-PAMAM dendrimers were carried out to provide some understanding of the thermodynamic origins of binding. Utilizing isothermal titration calorimetry, the binding of the dendrimers to large polyanionic dendrons with increasing numbers of charges was studied. Through these studies, the thermodynamic values of the binding events were obtained allowing us to explore the properties of the dendrimers. The cooperativity of the system was measured, and primarily negative cooperativity determined by the entropic contributions was uncovered. As the dendrimers increased in size, the thermodynamic origins of binding were determined to a greater extent by the entropy of binding. In the third chapter, a novel dynamic ligand system for metal binding is described. In the presence of a metal salt, a heterocyclic aldehyde and a secondary amine with two heterocyclic arms reversibly condense to form a hemiaminal with a tripodal metal binding site. This chapter describes studies on the metal binding ability, the variety of metals that will lead to this formation, the effects of anions and the range of aldehydes that can be used are described. Furthermore, the system’s reversibility was explored. Finally, the use of a bistriazole secondary amine was explored. The modular nature of triazole formation could lead to the introduction of additional functionalities. The fourth chapter discusses how the novel ligand system could be used to study the enantiomeric excess (ee) of chiral thiols. Based upon the system’s ability to form a stable hemiaminal thioether, a CD signal could be generated that is proportional to the amount of a particular enantiomer in solution. Using this system, a calibration curve relating CD signal and ee can be generated giving the ee of an unknown solution. In the final chapter, a look at the Freshman Research Initiative will be carried out with a focus on the ability to teach basic skills in an introductory laboratory through research. Four different skills or techniques will be explored through three different FRI streams,x and how they teach the four skills. Finally, analysis of the success of the program, particularly students’ success in the next laboratory course in the sequence, is discussed, and a model for adopting this type of teaching at other universities is given. / text Multicomponent assemblies Cooperativity PAMAM dendrimer Reversible covalent bond formation Teaching through research Sensing Research oriented labs FRI
124	Conception, synthèse et étude de dérivés de C60 fonctionnalisés : applications biologiques et développement méthodologique / Design, synthesis and study of functionalized C60 : biological applications and methodological development Sigwalt, David 26 March 2013 (has links) Notre équipe a récemment développé une méthode polyvalente permettant de préparer des dérivés complexes de C60 hexa-adduits fonctionnalisés. Cette méthodologie permet d’obtenir des produits aux caractéristiques originales. Le C60 central agit comme un support central peu réactif, autour duquel des fonctionnalités sont réparties dans un espace octaédrique parfaitement défini. La première partie de ce travail de thèse a consisté à exploiter cette méthodologie pour créer des C60 hexa-adduits polycationiques aux propriétés de transfection remarquables. Dans un second temps, les dendrons polyamines synthétisés ont été mis à profit pour créer des structures supramoléculaires de C60 hexa-adduits, sous forme micellaire. Par la suite, l’étude de ces assemblages a orienté nos investigations vers l’élaboration de dérivés de C60 hexa-adduits mannosylés multivalents résultant d’un assemblage supramoléculaire, dont leurs possibles applications biologiques sont actuellement à l’étude. En parallèle une synthèse covalente a permis d’obtenir un «équivalent dendritique» de C60 hexa-adduit multimannosylé. Partant du constat que notre méthodologie est efficace principalement pour des dérivés de C60 hexa-adduits qui ont une régio-sélectivité particulière, la dernière partie a été consacrée au développement de nouvelles voies de synthèses qui pourront permettre de créer des dérivés de C60 avec un contrôle régio-sélectif original. / Our team has recently built a polyvalent method that gives complex functionalized C60 hexa-adducts. This methodology permits to obtain products with original features. C60 acts as an inert scaffold, around which functionnalities are distributed in a well-defined octahedral space. The first part of this thesis describes exploitation of this methodology to create polycationics C60 hexa-adducts, which have shown remarkable gene delivery capabilities. Next, the synthetized polyamine dendrons were used to build supramolecular structure of C60 hexa-adducts, as micellar forms. The study of these self-assembled structures has guided us to design micelles of mannosylated C60 hexa-adducts, which biological applications are under investigation. In parallel a covalent synthesis has furnished a dendrimers-like multimannosylated C60 hexa-adduct. Based on the observation that our methodology to create C60 hexa-adduct is efficient only for a specific regio-selectivity, the last part of this thesis was devoted to the development of new synthetic routes to obtain C60 derivates with an original regio-selective control. C60 Dendrimer Amphiphile Micelles Polydiacétylènes Transfection Auto-assemblages C60 Dendrimers Amphiphiles Micelles Polydiacetylenes Transfection Self-assembling 547.2
125	Síntese de pró-fármacos dendriméricos potencialmente antichagásicos e leishmanicidas derivados de hidroximetilnitrofural, 3-hidroxiflavona e quercetina / Synthesis of dendrimer prodrugs potentially antichagasic and antileishmanial derivatives from hydroxymethylnitrofurazone, 3-hydroxyflavone and quercetin Jeanine Giarolla 25 May 2012 (has links) O Trypanosoma cruzi é o agente etiológico da tripanossomíase americana ou doença de Chagas. A infecção ocorre desde o sul dos EUA até o sul da Argentina e cerca de 20 milhões de pessoas da América Latina correm o risco de adquirir a doença. Já a leishmaniose é causada por aproximadamente 17 diferentes espécies de protozoários unicelulares pertencentes à família Trypanosomatidae. Aproximadamente 350 milhões de pessoas correm o risco de contrair a infecção e estimam-se que existam 12 milhões de pessoas infectadas. A quimioterapia para estas duas doenças negligenciadas é limitada e os fármacos disponíveis na terapêutica são tóxicos, com eficácia discutível, podem causar resitência e, ocasionalmente, a administração parenteral é necessária. Frente ao exposto, a pesquisa e desenvolvimento de novos fármacos é necessária. À vista de tais fatos e utilizando-se o método de modificação molecular latenciação, o objetivo deste trabalho é a síntese e caracterização de pró-fármacos dendriméricos de primeira geração de hidroximetilnitrofural, 3-hidroxiflavona e quercetina. O hidroximetilnitrofural tem mostrado atividade contra as formas amastigotas e tripomastigotas do T. cruzi in vitro e in vivo. Os flavonóides 3-hidroxiflavona e quercetina mostraram-se mais ativos que o padrão miltefosina em ensaios in vitro para leishmaniose. Já os dendrímeros são novas arquiteturas moleculares com estruturas nanoscópicas, extremamente organizadas e apresentam massa molecular definida. As aplicações incluem, por exemplo, a atuação como agentes transportadores de fármacos. Diversas metodologias sintéticas foram desenvolvidas na tentativa de se obter os pró-fármacos dendriméricos. Um das maiores dificuldades encontradas foi a purificação dos compostos sintetizados. Adicionalmente, foram realizados estudos de modelagem molecular para auxiliar a compreensão sobre a liberação das substâncias ativas da malha dendrimérica. Experimentos sobre hidrólise enzimática do pró-fármaco composto por PAMAM (geração 1) e 3-hidroxiflavona também foram desenvolvidos. / Trypanosoma cruzi is the etiological agent of American trypanosomiasis or Chagas\' disease. The infection occurs from the southern USA to southern Argentina and about 20 million people in Latin America are at risk of acquiring the disease. Leishmaniasis is caused by approximately 17 different species of unicellular protozoa belonging to the family Trypanosomatidae. Approximately 350 million people are at risk of acquiring the infection and it is estimated that there are 12 million people infected. Chemotherapy for these two neglected diseases is limited and the drugs available on therapy are toxic, with uncertain efficacy, may cause resistance and, occasionally, intravenous administration is required. Based on these facts, research and development for new drugs is needed. Considering that and using the method of molecular modification prodrug design, the purpose of this work is the synthesis and characterization of first generation dendrimer prodrug of hydroxymethylnitrofurazone (NFOH), quercetin and 3-hydroxyflavone. The NFOH has shown activity against amastigotes and trypomastigotes of T. cruzi, in vitro and in vivo. The flavonoids quercetin and 3-hydroxyflavone were more active than miltefosine in in vitro assays for leishmaniasis. Dendrimers are new molecular architectures with nanoscopic structures, extremely organized and it has defined molecular weight. The applications include, for instance, working as drugs carriers. A range of synthetic methodologies have been developed in an attempt to synthesize the dendrimers prodrugs. A major difficulty was the purification of the compounds. Additionally, molecular modeling studies were performed to assist understanding the release of active agents from dendrimers. Experiments concerning the enzymatic hydrolysis of the dendrimer prodrug composed by PAMAM (generation 1) and 3-hydroxyflavone were also made. 3-hidroxiflavona Fármacos (Síntese) Hidroximetilnitrofural Latenciação Pró-fármacos dendriméricos Quercetina 3-hydroxyflavone Dendrimer prodrugs Drugs (Synthesis) Hydroxymethylnitrofurazone Latentiation Quercetin
126	Pró-fármacos dendriméricos potencialmente cardiovasculares derivados de rosuvastatina e ácido acetilsalicílico: síntese dos respectivos dendrons / Dendrimeric prodrugs derived from rosuvastatin and acetylsalicylic acid: synthesis of the respective dendrons Rodrigo Vieira Gonzaga 21 September 2017 (has links) As doenças cardiovasculares são as principais causas de morte no Brasil e no mundo e constituem problema de saúde médico-social, de grande impacto econômico. As alterações no perfil lipídico e hematológico são fundamentais na formação da aterosclerose, considerando que o LDL (do inglês Low-Density Lipoprotein) e a agregação plaquetária estão envolvidos na formação dos trombos e, consequentemente, em eventos vaso-oclusivos. Entre os fármacos utilizados, encontram-se as estatinas. A rosuvastatina, um dos fármacos utilizados, é inibidora da hidroximetilglutaril coenzima A (HMG CoA) redutase e possui melhor perfil farmacodinâmico entre as estatinas, com maior potência e seletividade. O ácido acetilsalicílico, anti-inflamatório não-esteroide com atividade antiplaquetária mais difundido na terapia, é utilizado, por esse efeito, em associação com estatinas. Fatores limitantes para o uso da rosuvastatina e o ácido acetilsalicílico são: a baixa permeabilidade da rosuvastatina cálcica, e consequente baixa biodisponibilidade (biodisponibilidade absoluta 20%), e tempo de meia-vida do ácido acetilsalicílico de 6-7 h, o que leva à necessidade de elevadas doses e maior frequência de administração de ambos os fármacos. Visto que a associação das estatinas e do ácido acetilsalicílico promove melhor eficácia na prevenção e tratamento de doenças cardiovasculares, o objetivo foi aumentar a solubilidade da estatina e, consequentemente, a sua biodisponibilidade, e a meia-vida do ácido acetilsalicílico, juntamente com a diminuição da toxicidade desse último.. Por outro lado, considerando-se a importância dos dendrímeros como transportadores de fármacos na latenciação, propôs-se o planejamento e a síntese de pró-fármacos dendriméricos, potencialmente cardiovasculares, derivados da associação de rosuvastatina e ácido acetilsalicílico, utilizando etilenoglicol e pentaeritritol como núcleos e ácido L(-)-málico, ácido 2,2-bis(hidroximetil)propiônico e etilenoglicol, como espaçantes.. Obtiveram-se dois pró-fármacos, que se constituem em dendrons como parte dos dendrímeros planejados. O primeiro foi sintetizado pelo método convergente em duplo estágio e faz parte do bloco da camada externa do dendrímero I e o segundo, pela abordagem convergente clássica, sendo este o dendron do dendrímero II. Parte limitante na obtenção desses dendrímeros, além das etapas de purificação, são as etapas de desproteção. / Cardiovascular diseases have been the main causes of death in Brazil and in the world and are medical-social health problem with great economic impact. Alterations in the lipid hematological profiles are essentials in atherosclerosis, as LDL (Low-Density Lipoprotein) and the platelet aggregation are involved in the thrombus formation and, consequently, in occlusive vessel events. Among the drugs used to overcome those alterations are the statins. Rosuvastatin, one of the drugs used, is a hydroxymethylglutaryl coenzine A (HMG CoA) reductase inhibitor and it has the best pharmacodynamics profile among the statins, with higher potency and selectivity. Acetylsalicylic acid, a non-steroid anti-inflammatory agent with antiplatelet activity most disseminated in therapeutics, has been used in combination with statins due to this effect. Limited factors for the use of rosuvastatin and acetylsalycilic acid are the low permeability of the former, and consequently a low bioavailability (20% absolute bioavailability), and a 6 to 7 h half-life time of acetylsalycilic acid. Those factors lead to the need of high doses and higher frequency of administration of both drugs. Considering the combination of statins and acetylsalycilic acid promotes a better efficacy in either prevention or in the treatment of cardiovascular diseases, the objective of this work was to increase the rosuvastatin solubility and, consequently, its bioavailability, and the half-life time of acetylsalicylic acid, together with the decrease of its toxicity. On the other hand, considering the importance of dendrimers as drug carriers in prodrug approach, the design and synthesis of potentially cardiovascular dendrimer prodrugs derived from de combination of rosuvastatin and acetylsalicylic acid was proposed. With this goal, ethylene glycol and pentaerytritol were used as core and L(-)malic acid, 2,2-bis(hydroxymethyl)propionic acid and ethylene glycol were used as spacer groups. Two prodrug dendrons were obtained as part of the designed dendrimers. The first one was synthesized by two-step convergent method and it is part of the external layer block of dendrimer I. The second was obtained through classical convergent synthesis as the dendron of dendrimer II. The purification and deprotection steps showed to be the greatest obstacles for obtaining the proposed compounds. Ácido acetilsalicílico Dendrímeros Dendrons Doenças cardiovasculares Latenciação Rosuvastatina Acetylsalicylic acid Cardiovascular diseases Dendrimer prodrugs Dendrons Prodrug design Rosuvastatin
127	Influência de dendrímeros e da iontoforese na penetração da protoporfirina IX em tumores cutâneos / Influence of dendrimers and iontophoresis in protoporphyrin IX penetration into skin tumors Laura Freire Cardoso Pimenta 27 November 2013 (has links) A terapia fotodinâmica (TFD) associada à administração tópica de agentes fotossensibilizantes é uma terapia promissora para o tratamento tópico do câncer de pele. A protoporfirina IX (PpIX) é uma substância fotodinamicamente ativa usada na TFD, entretanto, devido a sua alta lipofilia ela forma agregados em meio aquoso, o que diminui sua atividade fotodinâmica e dificulta sua administração na pele. Assim, sistemas de liberação nanoparticulados vêm sendo investigados para melhorar a distribuição da PpIX na pele e facilitar sua penetração até as células tumorais. Os dendrímeros de poliamidoamina (PAMAM) representam uma nova geração de nanosistemas que tem despertado grande interesse nos últimos anos. Eles são uma classe especial de polímeros que apresentam estrutura muito ramificada e regular e que interagem com a PpIX formando complexos (nanopartículas dendriméricas de PpIX-PAMAM). A aplicação de uma corrente elétrica de baixa intensidade, conhecida como iontoforese, pode influenciar na penetração cutânea dessas nanopartículas, direcionando-as para o interior das células. Desta forma, o objetivo deste trabalho foi avaliar a influência da iontoforese e de nanopartículas de PAMAM de geração 4 hidroxilado (PAMAM G4-OH) com a PpIX na localização subcelular e penetração deste agente fotossensibilizante em tumores cutâneos. Assim foram preparados complexos de PpIX-PAMAM, os quais foram caracterizados em função do tamanho de partículas e potencial zeta. A localização subcelular da PpIX a partir dos complexos foi investigada em carcinoma de células escamosas. A influência dos complexos na geração de oxigênio singleto quando a PpIX sofre irradiação também foi avaliada. Por fim, a penetração da PpIX a partir dos complexos PpIX-PAMAM foi avaliada, in vivo, em pele sadia e em tumores induzidos em camundongos Nude BalbC, com e sem aplicação da iontoforese. O tamanho médio das nanopartículas dendriméricas contendo a PpIX dispersas em meio aquoso foi de aproximadamente 220 nm. Quando avaliadas em função do tempo, este tamanho sofreu um aumento de apenas 5% depois de 24 h, permanecendo constante por 7 dias. O potencial zeta das dispersões foi de 10 mV, em pH 7, e de 30 mV, em pH 5,5, possibilitando a contribuição da eletromigração durante a iontoforese. Nos estudos em cultura de células tumorais observou-se que a complexação com o PAMAM aumentou 30 vezes a localização da PpIX na mitocôndria quando comparada a PpIX livre. Além disso, a quantidade de oxigênio singleto gerada foi semelhante para a PpIX livre não agregada e complexada, 4,3 x 10-3 e 4,6 x 10-3 , respectivamente, sugerindo que o PAMAM manteve a atividade fotodinâmica da PpIX. Nos experimentos in vivo, em pele sadia, verificou-se que a PpIX administrada a partir do complexo com o PAMAM se distribuiu homogeneamente pela pele, enquanto que a PpIX livre apresentou uma fluorescência localizada em apenas algumas área da superfície da pele. A iontoforese facilitou a penetração da PpIX para as camadas mais profundas da pele. Finalmente, no tratamento dos tumores cutâneos, a administração tópica dos complexos por apenas 30 min possibilitou a penetração da PpIX até os tumores localizados abaixo da pele, em concentrações semelhantes para a aplicação passiva e iontoforética. Portanto, a complexação da PpIX com o PAMAM é um sistema de liberação nanoparticulado promissor para o tratamento tópico de tumores cutâneos por TFD. / Photodynamic therapy (PDT) associated with topical administration of photosensitizer agents is a promising therapy for topical treatment of skin cancer. Protoporphyrin IX (PpIX) is a photosensitizer commonly used in PDT; however, due to its high lipophilicity it aggregates in aqueous medium, which decreases its photodynamic activity and hinders its penetration through the skin. In this way, nanoparticles have been designed to improve the distribution of PpIX in the skin and enhance its tumor cell penetration. The polyamidoamine dendrimers (PAMAM) represent a new generation of nanosystems that has aroused great interest in recent years. They are hyberbranched polymers capable to form complexes with PpIX (PpIX-PAMAM), increasing PpIX aqueous solubility. The application of a low intensity electrical current, known as iontophoresis, may influence the nanoparticles skin penetration, directing them to the tumor cells. Therefore, the aim of this study was to evaluate the influence of iontophoresis and PpIX-PAMAM G4-OH complexes in PpIX subcellular localization and penetration into skin tumors. The complexes were prepared and characterized as a function of particle size and zeta potential. The subcellular localization of PpIX from the complexes was investigated in squamous cell carcinoma. The influence of PpIX-PAMAM on the generation of singlet oxygen after irradiation was also evaluated. Finally, the penetration of PpIX from the PpIX-PAMAM complexes was evaluated in vivo in healthy skin and in tumors induced in BalbC nude mice with and without application of iontophoresis. The average size of PpIX-PAMAM nanoparticles dispersed in aqueous medium was approximately 220 nm. When evaluated as a function of time, this size was increased only 5% after 24 h and remained constant for 7 days. The zeta potential of the dispersions was 10 mV at pH 7 and 30 mV at pH 5.5, allowing the contribution of electromigration during iontophoresis. In studies in culture tumor cells it was observed that complexation with PAMAM increased 30 times the localization of PpIX in the mitochondria compared to free PpIX. Furthermore, the amount of singlet oxygen generated when PpIX-PAMAM was irradiated was similar to that generated by the irradiation of the non-aggregated free PpIX, 4.6 x 10-3 and 4.3 x 10-3, respectively, suggesting that PAMAM did not modify the photodynamic activity of PpIX. In vivo experiments on healthy skin have shown that PpIX from the PpIX-PAMAM was homogeneously distributed throughout the skin, whereas free PpIX fluorescence was visualized only in some restricted areas of the skin surface. Iontophoresis facilitated PpIX diffusion to deep layers of the skin. Finally, the treatment of skin tumors have shown that the topical administration of the PpIX-PAMAM for only 30 min, passively or by iontophoresis, allowed the penetration of PpIX into the tumors located below the skin. Therefore, the PpIX complexation with PAMAM is a promising nanoparticle delivery system for the topical treatment of skin tumors by PDT. Câncer de pele Dendrímero Iontoforese PAMAM Protoporfirina IX Terapia fotodinâmica Dendrimer Iontophorese PAMAM Photodynamic therapy Protoporphyrin IX Skin cancer
128	Dendrímeros como carreadores da protoporfirina IX para a terapia fotodinâmica tópica do câncer de pele / Dendrimers as drug carriers for protoporphyrin IX to topical photodynamic therapy of skin cancer. Luciana Mattoso Pires de Campos Araujo 07 February 2011 (has links) A protoporfirina IX (PpIX) é uma substância fotodinâmicamente ativa, entretanto, devido a sua alta lipofilia apresenta dificuldades para penetrar nas camadas mais profundas da pele, não sendo administrada topicamente. Assim, o objetivo deste trabalho é estudar a influência de diferentes tipos de dendrímeros de poliamidoamina (PAMAM) na solubilidade, penetração cutânea e penetração celular da PpIX com o intuito de melhorar a terapia fotodinâmica tópica (TFD) com esta substância. Os estudos de solubilidade da PpIX na presença dos dendrímeros PAMAM G4, G4.5 e G4-OH mostraram que o dendrímero PAMAM G4.5, foi o que solubilizou a maior quantidade de PpIX seguido do PAMAM-OH G4> PAMAM G4 > tampão HEPES. A partir dos estudos de solubilidade foi possível identificar que a PpIX na presença dos dendrímeros PAMAM G-4.5 e G4-OH apresentam diagramas de solubilidade tipo BS, e BI quando na presença do PAMAM G4. Os estudos de varredura em espectroscopia UV-VIS e fluorescência indicaram a presença de agregados principalmente nos complexos PpIX-PAMAM G-4.5 obtidos. Os complexos solúveis PpIX-PAMAM G4-OH apresentaram tamanho médio de 13,2 nm, e potencial zeta de -3,41. Já os complexos com o dendrímero PAMAM G-4.5 apresentaram uma população bidispersa, com tamanhos de 31 e 391 nm e um potencial zeta de -17,3. A análise de DSC e espectroscopia de infravermelho com transformada de Fourrier mostraram alterações nas características da PpIX em solução e quando complexada com os dendrímeros. Nos estudos de permeação e retenção cutânea passiva com os complexos contendo 0,006 mg/mL de PpIX, estes não aumentaram a penetração cutânea do fármaco. No entanto, a complexação permitiu que maiores quantidades de PpIX ficassem disponíveis na solução doadora, e um aumento significativo na penetração da PpIX foi observado quando experimentos com 1 mg/mL de PpIX complexada foram conduzidos; ademais notou-se uma possível ação promotora do dendrímero PAMAM G4-OH. Nos estudos de iontoforese verificou-se que a corrente elétrica não aumentou a penetração da PpIX em relação aos experimentos passivos quando o complexo PpIX-PAMAM G4.5 foi estudado, provavelmente devido a maior liberação da PpIX do complexo na presença da corrente elétrica, aumentando os agregados que são grandes o suficientes para não penetrar na pele. Por outro lado, a iontoforese anódica aumentou a penetração do complexo PpIX-PAMAM G4-OH por eletrosmose até as camadas mais profundas da pele, levando a PpIX inclusive até a solução receptora. Os estudos de cultura de células tumorais confirmaram a capacidade dos dendrímeros em aumentar a penetração da PpIX através de membrana. A complexação melhorou a distribuição da PpIX no interior das células e aumentou significativamente a fotocitotoxicidade desta porfirina. / Protoporphyrin IX (PpIX) is a photodynamic active drug that is not topically administered due to its high lipophilicity and consequent low penetration in deep skin layers. The aim of this work is to study the influence of different types of polyamidoamine dendrimers (PAMAM) in PpIX solubility, skin and cell penetration to enhance topical photodynamic therapy (PDT). The solubility studies of PpIX in the presence of PAMAM dendrimers G4, G4.5 and G4-OH demonstrated that the G4.5 solubilized the greatest amount of PpIX, followed by PAMAM G4-OH> PAMAM G4> HEPES buffer. Solubility studies showed that the PpIX in the presence of PAMAM dendrimers G-4.5 and G4-OH presented solubility diagrams of BS type, and BI type in the presence of PAMAM G4. Studies of scanning UV-VIS and fluorescence indicated the presence of aggregates mainly in PpIX-PAMAM G-4.5 solution. The PpIX-PAMAM G4-OH complexes showed a mean size of 13.2 nm and zeta potential of -3.41; the complexes with PAMAM dendrimer G-4.5 had a bi-dispersed population, with sizes of 31 and 391 nm and a zeta potential of -17.3. The analysis of DSC and Fourier transform infrared Fourier showed changes in the characteristics of PpIX when it was complexed with the dendrimers. Passive skin permeation and retention studies with the complexes containing 0.006 mg/ml PpIX had not increased PpIX penetration, however, the complexation allowed greater amounts of PpIX to become available in the donor solution, and experiments with 1 mg/mL of PpIX increased significantly the penetration of the drug. Moreover, dendrimer PAMAM G4-OH seemed to act as a penetration enhancer. Iontophoresis did not increase skin penetration of PpIX compared to passive studies when the PpIX-PAMAM G4.5 was studied, likely because the electric current increased PpIX release from the complexes, forming aggregates large enough to not penetrate through the skin. On the other hand, anodic iontophoresis increased significantly the penetration of the PpIX-PAMAM G4-OH by eletrosmosis, spreading the drug to deep skins layers, also reaching the receiver solution. Studies in cell culture confirmed the ability of dendrimers to increase the penetration of PpIX through the membrane. The complexation improved the distribution of PpIX within the cells and significantly increased photocytotoxic of the porphyrin. dendrímero iontoforese protoporfirina IX sistema de liberação terapia fotodinâmica tópica delivery system dendrimer iontophoresis protoporphyrin IX topical photodynamic therapy
129	Avaliação do potencial da associação de dendrímeros e iontoforese para a administração ocular de fármacos / Evaluation of the combination of dendrimers and iontophoresis for ocular drug administration Joel Gonçalves de Souza 22 September 2014 (has links) A administração tópica de colírios é a maneira mais conveniente de se tratar doenças oculares. O grande desafio para a tecnologia farmacêutica é garantir que o fármaco administrado nessa forma farmacêutica chegue ao local de ação em concentrações adequadas, com efeitos adversos reduzidos, tempo de ação prolongado e dose única. Para tanto, o desenvolvimento de sistemas de liberação e de estratégias adequadas de administração tornam-se necessários. Assim, o objetivo deste trabalho foi avaliar a influência da iontoforese na penetração ocular de dendrímeros de poliamidoamina (PAMAM) de geração 4, com diferentes grupos superficiais (PAMAM G4, catiônico e PAMAM G3.5, aniônico), preparar complexos desses dendrímeros com um anti-inflamatório modelo, a dexametasona (Dexa), e avaliar a influência da associação de dendrímeros e iontoforese na penetração corneal da Dexa em modelos ex vivo e in vivo. Complexos Dexa-PAMAM foram obtidos e caracterizados por espectroscopia de infravermelho e ressonância magnética nuclear (H1-RMN, 13C-RMN e DOSY), espalhamento dinâmico de luz e espectroscopia UV/vis para avaliar a formação dos complexos, seu tamanho e potencial zeta, além de alterações na solubilidade da Dexa. A velocidade de liberação da Dexa dos complexos foi verificada por estudos de liberação in vitro utilizando membrana sintética. A penetração e distribuição dos PAMAMs na córnea e sua influência na penetração da Dexa foi avaliada ex vivo utilizando córnea de porco, microscopia confocal de varredura a laser (MCVL) e cromatografia de ultra performance aliada a um detector de massas para quantificação do fármaco permeado. A citotoxicidade dos PAMAMs foi avaliada em cultura de células epiteliais da retina e células epiteliais da córnea. Por fim, verificou-se in vivo a influência da iontoforese e dos PAMAMs sobre a quantidade de Dexa no humor aquoso de olhos de coelhos. Os estudos de caracterização indicaram que a Dexa foi incorporada aos PAMAMs e que esses complexos apresentaram cerca de 50 nm de tamanho médio pela técnica de NTA, com a presença de partículas pequenas e agregadas quando dispersos em meio fisiológico e potencial zeta de + 6,4 mV e -18,5 mV para Dexa-PAMAM G4 e Dexa-PAMAM G3.5, respectivamente. A solubilidade aparente da Dexa aumentou 3,9 e 10,3 vezes nos complexos com PAMAM G4 e PAMAM G3.5, respectivamente. O PAMAM G3.5 e PAMAM G4 diminuiram 82 e 1,7 vezes, respectivamente, o coeficiente de difusão da Dexa. Os estudos ex vivo indicaram que a iontoforese foi capaz de direcionar os dendrímeros para dentro da córnea, além de aumentar 2,9, 5,6 e 3,0 vezes a quantidade de Dexa permeada a partir das formulações que continham Dexa livre, Dexa-PAMAM G4 e Dexa-PAMAM G3.5, respectivamente. Aumentou também a quantidade de Dexa retida na córnea em aproximadamente 2 vezes para todas as formulações. Os experimentos de citotoxicidade evidenciaram a maior toxicidade do PAMAM G4 e sua dependência da concentração e tempo de incubação. Por fim, os experimentos in vivo mostraram que a iontoforese aumentou a concentração de Dexa no humor aquoso cerca de 2, 2,5 e 6,6 para a Dexa livre, Dexa-PAMAM G4 e Dexa-PAMAM G3.5, respectivamente. Portanto, a associação de dendrímeros PAMAM com a iontoforese representa uma estratégia promissora para a administração tópica direcionada e sustentada de fármacos na córnea. / Topical administration of eye drops is the most convenient way for treatment of eye diseases. The challenge for the pharmaceutical technology is to ensure that the drug administered in the eye drops reaches the site of action in appropriate concentrations with reduced side effects, prolonged effect and single dose. Therefore, the development of drug delivery systems and appropriate strategies become necessary. The objective of this work was to evaluate the influence of iontophoresis in the ocular penetration of generation 4 polyamidoamine dendrimers (PAMAM) with different surface groups (PAMAM G4, cationic, and PAMAM G3.5, anionic), prepare complexes of these dendrimers with an anti-inflammatory drug model, dexamethasone (Dexa), and evaluate the influence of dendrimers and iontophoresis association on Dexa cornea penetration using ex vivo and in vivo models. Dexa-PAMAM complexes were obtained and characterized by infrared spectroscopy, nuclear magnetic resonance (H1-NMR, 13C-NMR and DOSY), dynamic light scattering and UV/VIS spectroscopy to evaluate the formation of the complexes, their size and zeta potential, as well as changes in drug solubility. Dexa release rate from complexes was determined from the in vitro release studies using synthetic membrane. The penetration and distribution of PAMAMs into the cornea and their influence in the ex vivo Dexa penetration was assessed using pig\'s cornea, confocal scanning laser microscopy (CSLM) and ultra performance chromatography coupled to a mass spectrometer for quantification of the drug permeated. PAMAMs cytotoxicity was assessed in culture of retina epithelial cells and cornea epithelial cells. Finally, the influence of iontophoresis and PAMAMs on Dexa concentration in the aqueous humor of rabbit eyes was evaluated in vivo. The characterization results showed that Dexa was incorporated to PAMAMs and that these complexes had an average size of approximately 50 nm using the NTA technique, with the distribution of small particles and aggregates when dispersed in physiological medium. The zeta potential of Dexa-PAMAM G4 and Dexa PAMAM G3.5 complexes were +6.4 mV and -18.5 mV, respectively. PAMAM G4 and G3.5 PAMAM enhanced Dexa solubility by 3.9 and 10.3-fold, respectively. PAMAM G3.5 and PAMAM G4 decreased by 82 and 1.7-fold Dexa diffusion coefficient. The ex vivo studies indicated that iontophoresis directed dendrimers into the cornea, increasing the amount of Dexa permeated by 2.9, 5.6 and 3.0-fold for the formulations containing free Dexa, Dexa-PAMAM G4 and Dexa-PAMAM G3.5, respectively. Iontophoresis also increased approximately 2-fold the amount of drug retained into the cornea for all formulations. The cytotoxicity experiments revealed that PAMAM G4 toxicity was dependent on the concentration and incubation time. Finally, the in vivo experiments showed that iontophoresis increased Dexa concentration in the aqueous humor by 2, 2.5 and 6.6-fold for free Dexa, Dexa-PAMAM G4 and Dexa-PAMAM-G3.5, respectively. Therefore, the combination of iontophoresis with PAMAM dendrimers represents a promising strategy for targeted and sustained topical drug delivery to the cornea. córnea dexametasona microscopia confocal. confocal microscopy cornea dexamethasone
130	Dendrimers as a powerful tool in theranostic applications / Potentiel des dendrimères comme outil d'applications théranostiques Liko, Flonja 16 December 2016 (has links) Une nouvelle stratégie oncologique, basée sur l’intégration de la radiothérapie nanovectorisée et l’administration loco-régionale, a été évaluée pour le traitement et l’imagerie du glioblastome, le type le plus commun des tumeurs cérébrales primaires. Les dendrimères Gallic Acid-Triethylène Glycol (GATG) sont des nanovecteurs de choix pour délivrer simultanément l’agent thérapeutique (le radioisotope 188Re par son rayonnement béta a été retenu) et l’agent diagnostique (le gadolinium est un agent paramagnétique utilisé en Imagerie par Résonance Magnétique (IRM)). Leur évaluation a été réalisée par administration locorégionale par stéréotaxie sur un modèle de rat F 98. Les données pharmaco-cinétiques ont été également obtenues après injection intraveineuse permettant d’apprécier les propriétés des différents dendrimères synthétisés. Leur apport en terme de confinement au site d’injection représente un avantage majeur de ce nouveau type de radiopharmaceutiques. / A new oncologic strategy, based on the integration of nanovectorized radiotherapy and locoregional delivery, was evaluated for the treatment and imaging of glioblastomas, the most common and lethal type of primary brain tumors. Gallic acidtriethylene glycol (GATG) dendrimers were the nanovectors of choice to deliver the radiotherapeutic 188Re and paramagnetic nuclei Gd3+, with a minimally invasive stereotactic injection, directly depositing the radiotherapeutic dose to the tumor site in a F98 rat glioma model. Intravenous injection was used to further investigate the pharmacokinetics, throughout body distribution and clearance profiles of these dendrimers. Molecular weight and architecture had an important role on the in vivo behavior of the dendrimers. Their use as nanovectors prevented the fast brain clearance of the radionuclide alone, and prolonged the confinement of the internal radiation at the tumor site. Gatg Dendrimères Radiothérapie interne Mri Glioblastoma 188Re Gd3+ 99mTc Gatg Dendrimer Internal radiotherapy Mri Glioblastoma 188Re Gd3+ 99mTc 610

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