Global ETD Search

101	Nouvelles architectures de polymères à base de poly(2-méthyl-2-oxazoline) pour l'élaboration de nanoparticules destinées à la vectorisation / New architectures of polymers based on Poly(2-methyl-2-oxazoline) for the development of nanoparticles suitable for drug delivery Le fer, Gaëlle 03 December 2015 (has links) Ce sujet s'inscrit dans le domaine de la vectorisation de médicaments et de la nanomédecine, un domaine en pleine expansion. Les nanovecteurs destinés à la santé doivent être stables, non-toxiques et furtifs vis-à-vis du système immunitaire pour pouvoir circuler librement dans le sang. C'est pourquoi il est nécessaire d'élaborer des polymères pouvant former des nanoparticules possédant un caractère furtif. Le poly(acide lactique) (PLA) est un polyester hydrophobe et biodégradable couramment utilisé pour former des nanoparticules (NPs) capables d'encapsuler des composés apolaires. Le poly(2-méthyl-2-oxazoline) (PMeOx) est un polymère hydrophile, biocompatible et non toxique. Il peut être synthétisé par polymérisation cationique par ouverture de cycle (CROP), ce qui permet la préparation de polymères avec un bon contrôle de la masse molaire et une faible polymolécularité. Différentes architectures de copolymères PMeOx-co-PLA (di-,triblocs ou greffés) ont été développées en couplant la CROP et la chimie « clic ». Des NPs sont obtenues par nanoprécipitation de ces copolymères et caractérisées par un large éventail de techniques expérimentales dont, notamment, la diffusion dynamique de la lumière, la cryo-microscopie électronique à transmission, et la diffusion de neutrons aux petits angles. Ces techniques complémentaires ont permis de mettre en évidence l'obtention de NPs possédant des structures internes variées, telles que des polymersomes, des nanoparticules cœur-couronne ou multicouches. L'évaluation de la furtivité a été menée par l'étude de l'adsorption d'une protéine modèle, l'albumine de sérum bovin (BSA), sur la surface des nanoparticules. Enfin l'encapsulation de l'α-tocophérol et de quantum dots a démontré les nombreuses possibilités d'application de ces nouvelles NPs / This subject falls within the fields of drug delivery and nanomedecine, a topic of growing interest over the last years. Nanosystems dedicated to health must be stable, non-toxic and stealthy in the immune system in order to move freely in the blood. For this purpose, the design of elaborate polymers that can form stealthy nanoparticles is required. Poly(lactic acid) (PLA) is a hydrophobic and biodegradable polyester usually used to form nanoparticles able to encapsulate apolar compounds. Poly(2-methyl-2-oxazoline) (PMeOx) is a hydrophilic, biocompatible and non toxic polymer. PMeOx can be synthesized via cationic ring opening polymerization (CROP), which allows the design of polymers with a good control of the molecular weights and a low dispersity. Thus, in this context, we have developed several strategies to design different architectures of amphiphilic PMeOx-co-PLA copolymers such as di-, triblock or graft copolymers. Such strategies relied on the combined use of CROP and « click »chemistry ». Nanoparticles were obtained by nanoprecipitation, and characterized by a wide range of experimental techniques including dynamic light scattering, cryogenic transmission electron microscopy and small angle neutron scattering. These complementary approaches evidenced that nanoparticles could be obtained with a large variety of internal structure, such as polymersomes, core-shell or multilayer nanoparticles. The evaluation of the stealthiness was performed by considering the adsorption behavior of a model protein, bovin serum albumine (BSA), on the surface of the nanoparticles. The encapsulation of α-tocopherol and quantum dots demonstrated the numerous applicative possibilities offered by these new NPs Poly(oxazoline) Copolymères amphiphiles Polymérisation cationique Chimie Nanoparticules furtives Encapsulation Poly(oxazoline) Amphiphilic copolymers Cationic polymerization Stealthy nanoparticles Encapsulation
102	Synthèse et caractérisation de copolymères amphiphiles à base de poly(acide lactique) et de poly(éthylène glycol) pour la délivrance de principes actifs / Synthesis and characterization of amphiphilic copolymers based on poly(lactic acid) and poly(ethylene glycol) towards drug delivery system Coumes, Fanny 18 December 2014 (has links) Ce travail avait pour but de synthétiser et caractériser des copolymères amphiphiles à base de poly(éthylène glycol) (PEG) et de poly(acide lactique) (PLA) pour la confection de systèmes de délivrance de principes actifs (PA). Les polymères ont été choisis pour leur biocompatibilité et de leur biorésorbabilité. Plusieurs architectures de copolymères amphiphiles ont été créées et leur comportement auto-associatif en milieu aqueux ainsi que leur capacité à encapsuler des principes actifs ont été étudiés. Tout d'abord, un copolymère greffé a été synthétisé par copolymérisation d'un monomère fonctionnel, le glycolide monopropargylé, avec du L-lactide pour obtenir un squelette polyester fonctionnel sur lequel des branches hydrophiles de PEG ont été greffés avec plusieurs degrés de substitution. Ensuite, un copolymère peigne tribloc a été synthétisé à partir d'un bloc central PLA dont les extrémités de chaînes ont été modifiées pour permettre l'amorçage de la polymérisation de méthacrylate d'oligo(éthylène glycol) avec des taux de substitution variables. L'étude de l'auto-assemblage et de la capacité à encapsuler des PA a révélé que l'architecture et la balance hydrophile/hydrophobe sont des facteurs déterminants pour la nature des objets formés et leur potentiel d'encapsulation. Enfin, des stratégies de fonctionnalisation ont été mises en place afin d'augmenter et de moduler l'efficacité des PA encapsulés. Ceci est illustré par le couplage d'une molécule fluorescente modèle et, dans le cadre d'une collaboration, par la conjugaison d'un peptide immunostimulateur sur un système dibloc amphiphile. La comparaison à d'autres formulations a montré que le conjugué permettait de moduler et renforcer l'efficacité du PA utilisé. / The objective of this work was to synthesize and characterize amphiphilic copolymers based on poly(ethylene glycol) (PEG) and poly(lactic acid) (PLA) intended for drug delivery applications. The polymers were chosen regarding to their biocompatibility and bioresorbability. Different architectures of amphiphilic copolymers were prepared, and their behavior in aqueous media, as well as their abilities to encapsulate drugs were studied. First, a graft copolymer was synthesized through copolymerization of a functional monomer, monopropargylated glycolide, with L-lactide to yield a functionalized polyester backbone. The latter was then grafted with different densities of hydrophilic branches of PEG. Then, a brush-like triblock copolymer was synthesized through ROP and ATRP. To this end, chain ends of a telechelic block of PLA were modified to yield a macroinitiator able to initiate oligo(ethylene glycol) methacrylate polymerization with variable substitution degrees. Self-assembly and drug loading studies revealed that architecture and hydrophobic/hydrophilic balance played a major role on the nature of the formed objects and on their encapsulation potential. Finally, to modulate and increase the efficacy of encapsulated drugs, functionalization strategies were realized. This is illustrated by the linking of a fluorescent model molecule on a triblock brush-like copolymer and, in a collaboration project, the linking of an immunostimulant peptide on an amphiphilic diblock system. Comparison with other formulations revealed that the conjugate allowed modulating and reinforcing the drug's efficacy. Synthèse Polymère Polyester Amphiphile Auto-Assemblage Chimie clic Synthesis Polymer Polyester Amphiphilic Self-Assembly Click chemistry 577
103	Poliuretanas segmentadas multicomponentes / Multicomponent segmented polyurethanes Trinca, Rafael Bergamo, 1987- 26 August 2018 (has links) Orientador: Maria Isabel Felisberti / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-26T18:00:04Z (GMT). No. of bitstreams: 1 Trinca_RafaelBergamo_D.pdf: 7109183 bytes, checksum: 36f8cbad69a4e17b2adb60ccbc082e94 (MD5) Previous issue date: 2015 / Resumo: Este trabalho teve como objetivo a síntese e a caracterização de poliuretanas segmentadas (SPUs), baseadas em macrodióis de baixa massa molar (2 kDa) ¿ poli(etileno glicol), poli(L-lactídeo) e poli(carbonato de trimetileno) (PEG, PLLA e PTMC, respecti- vamente) ¿ e diferentes diisocianatos (2,4-diisocianato-tolueno e 1,6-diisocianato-hexano, 2,4-TDI e HDI, respectivamente) e extensores de cadeia (1,4-butanodiol e ácido-2,2-bis(hidroximetil)-propanóico BDO e DMPA, respectivamente). Os macrodióis PLLA e PTMC foram sintetizados por polimerização por abertura de anel (ROP). As SPUs foram obtidas por uma rota de duas etapas: pré-polimerização dos macrodióis com diisocianatos e extensão de cadeia. Estudou-se os efeitos da razão mássica entre os macrodióis sobre as propriedades físico-químicas e morfológicas de SPUs mono, bi e tricomponentes baseadas em 2,4-TDI e BDO. Análises de ¹H NMR e GPC revelaram diferenças na reatividade dos macrodióis, que resultaram em diferenças de composição das SPUs em relação ao meio reacional e na distribuição de massa molar. Análises por DSC, DMTA, AFM e ensaios de intumescimento revelaram que as propriedades intrínsecas dos precursores foram combinadas e moduladas nas SPUs. A combinação dos três macrodióis resultou em SPUs com propriedades únicas, não encontradas nas SPUs binárias e monocomponentes. Os efeitos da natureza de diisocianatos e extensores de cadeia sobre as propriedades de SPUs ternárias também foram estudados. As SPUs baseadas em diisocianatos simétricos (HDI) apresentam temperatura de transição vítrea inferior aos baseados em 2,4-TDI, além disso, essas SPUs são semicristalinas, enquanto as baseadas em 2,4-TDI são essencialmente amorfas. A morfologia das SPUs, tipicamente de fase dispersa em uma matriz, é afetada pela proporção entre os macrodióis e pela natureza dos diisocianatos e dos extensores de cadeia. A capacidade das SPUs em intumescer em água é governada pelo teor de PEG e varia com a temperatura (SPUs termo-responsivas) enquanto as SPUs baseadas em DMPA apresentaram intumescimento dependente do pH do meio (SPUs responsivas ao pH). SPUs com menor teor de PEG e ricas em PLLA foram processadas pela técnica de eletrofiação, resultando em filmes nano fibrosos e porosos com propriedades elastoméricas / Abstract: This study aimed at the synthesis and characterization of segmented polyurethanes (SPUs), based on low molecular weight (2 kDa) macrodiols ¿ poly(ethylene glycol), poly(L-lactide) and poly(trimethylene carbonate) (PEG, PLLA and PTMC, respectively) - and different diisocyanates (2,4-diisocyanato-toluene and 1,6-diisocyanato-hexane, 2,4-TDI and HDI, respectively) and chain extenders (1,4-butanediol and 2,2-bis-hydroxymethyl-propanoic acid, DMPA and BDO respectively). The PLLA and PTMC macrodiols were synthesized by ring-opening polymerization (ROP). The SPUs were obtained by a two-step route: synthesis of prepolymers from diisocyanates and macrodiols, followed by a chain extension step. The effects of the weight ratio of macrodiols on the physico-chemical and morphological properties of SPUs based on 2,4-TDI and BDO were studied. The ¹H NMR and GPC analysis revealed differences in reactivity of macrodióis, which resulted in differences in composition of the SPUs in relation to the reaction medium and in the molar mass distribution. Analysis by DSC, DMTA, AFM and swelling assays revealed that the intrinsic properties of the precursors were combined and modulated in SPUs. The combination of the three macrodiols results in SPUs with unique properties not found in binary and single component SPUs. The effects of the nature of the chain extenders and diisocyanates on the properties of ternary SPUs were also studied. The SPUs based on symmetrical diisocyanates (HDI) presents lower glass transition temperatures than those based on 2,4-TDI. Moreover, they are semi crystalline while SPUs based on 2,4-TDI are essentially amorphous. The morphology of the SPUs, typically of a dispersed phase in a matrix, is affected by the macrodiols ratio and by the nature of diisocyanates and chain extenders. The water swelling capability of the SPUs is governed by the PEG content and varies with temperature (temperature responsive SPUs) as well as with pH (pH responsive SPUs) when BDO is replaced with DMPA. SPUs with low PEG content and rich in PLLA were processed by electrospinning technique, resulting in nanofibrous porous films with elastomeric properties / Doutorado / Físico-Química / Doutor em Ciências Poliuretanas segmentadas Eletrofiação Copolímeros anfifílicos Polímeros - Caracterização Polímeros - Síntese Segmented polyurethanes Electrospinning Amphiphilic copolymers Polymer characterization Polymer synthesis
104	Příprava a charakterizace magnetoreologických suspenzí s vysokou sedimentační stabilitou / Preparation and characterization of magnetorheological suspensions with high sedimentation stability Oharek, Lukáš January 2020 (has links) The introduced diploma thesis focuses on the preparation of magnetorheological suspensions with high sedimentation stability. The theoretical part generally describes these suspensions and their properties, it also focuses on the possibilities of improving sedimentation stability, for example by modifying the surface of the particles or adding additives. A research based on the topic of preparation of sedimentation stable magnetorheological suspensions was also carried out. The experimental part focuses on two types of magnetorheological suspensions. The first type of suspension consisted of a water-in-oil emulsion and carbonyl iron particles that were modified by chemisorption of the surfactant Tween 80. Another type of suspension contained thixotropic organoclay along with untreated iron particles. In both types of magnetorheological suspensions, the process of their preparation was optimized, together with the composition of carrier fluids for the preparation of the most sedimentation-stable magnetorheological suspension. The measurement of sedimentation stability by a dispersion analyser confirmed the positive effect of particle modification and the addition of thixotropic agent on the sedimentation stability of suspensions.
105	Combating Multidrug Resistant Reservoirs in HIV and Bacterial Pathogens Moises Morales Padiilla (8766684) 21 June 2022 (has links) <p>Multidrug resistance is a major issue in treatment and eradication of diseases. There are many mechanisms by which pathogens develop multi drug resistance. Here we focus on the ability of pathogens to evade drug treatment by establishing multi drug resistant reservoirs. In the case of HIV, the virus is able to evade drug treatment and forms both latent and active replicating reservoirs throughout the body. In the case of many bacterial pathogens, multidrug resistance reservoirs are established within mammalian cells, such as macrophages. Many classes of antibiotics are unable to penetrate mammalian cells, making intracellular bacteria difficult to clear</p><p>Previously our research group has developed a Trojan horse strategy to deliver antivirals to HIV cellular reservoirs. Ester based prodrug dimers of abacavir, a reverse transcriptase inhibitor, acted to both inhibit efflux transporters at the BBB and revert to the monomeric therapy in the reducing environments of the cell. Herein we present a new group of sterically hindered carbonate based disulfide linkers that shows improved payload delivery of abacavir and maintain the stability of prodrug molecules towards hydrolysis. We employed these linker molecules to synthesize prodrug dimers of the HIV latency reversal agent prostratin with the hope of targeting latent HIV reservoirs. Payload release studies as well as latency reversal experiments with a latently infected T-helper cell model confirmed that the prostratin carbonate homodimers (<b>ProS<sub>2</sub>Me<sub>2</sub></b> and <b>ProS<sub>2</sub>Me<sub>4</sub></b>) were able to revert to monomeric prostratin and reverse HIV latency. We next sought to synthesize a prostrain-protease inhibitor heterodimer. While our initial study of a prostratin-lopinavir heterodimer employing this linker strategy (<b>ProLpvS<sub>2</sub>Me<sub>2</sub></b>) did not show significant HIV latency reversal activity, we hope to expand our heterodimer studies to achieve dual therapeutic molecules that can both reverse HIV latency and deliver antivirals to HIV reservoirs.</p><p>In order to combat intracellular bacteria our group has focused on development of a novel class of cell penetrating peptides with intrinsic broad spectrum antimicrobial activity that are based on a repeating amino acid triad which forms a cationic amphiphilic polyproline helix (CAPH) scaffold. <sup> </sup>The first member of this class, <b>P14LRR</b>, exhibited clearance of intracellular bacteria and concentration dependent co-localization within mammalian cells. In efforts to optimize antimicrobial activity we have expanded the CAPHs library by adjusting the chain length between the proline backbone and the guanadinium groups of the cationic amino acids. The first peptide from this expanded library, <b>P14GAP</b> showed much greater cell penetration and antimicrobial activity against a wide range of pathogenic bacteria. However, <b>P14GAP</b> also showed greater toxicity towards mammalian cells, increased hemolysis, and greater membrane binding with mammalian cells as compared to <b>P14LRR</b>. Here we describe the design and synthesis of <b>P14GAP-C1</b>, which contains a methylene between the proline backbone and the guanadinium group. This new analogue decreased the hemolysis activity as compared to <b>P14GAP</b>, although similar membrane binding with mammalian cells was observed. This improvement in hemolysis activity and a slight improvement in cell viability may allow us to use higher concentrations of peptide to treat multidrug resistant bacterial infections.</p><p> </p> HIV multidrug resistance P-glycoprotein prodrugs Latent HIV antibacterial Peptide Cationic Amphiphilic Peptides Organic Chemistry
106	Modificări chimice ale polizaharidelor şi ale hidrogelurilor lor prin procedeul "click chemistry" / Chemical modifications of polysaccharides and their hydrogels by “click chemistry” / Modifications chimiques de polysaccharides et de leurs hydrogels par "click chemistry" Uliniuc, Ancuta 18 November 2011 (has links) Ce travail a pour objet l'obtention et la caractérisation de nouveaux copolymères amphiphiles et d'hydrogels à hydrophilie contrôlée, à partir de polymères naturels, avec comme utilisations potentielles la vectorisation de principes actifs. En conséquence, il est donc nécessaire que les polymères utilisés pour l’obtention de ces architectures répondent à un certain nombre de contraintes, notamment être non-toxiques, biocompatibles et biodégradables. Pour ces raisons, on retient le plus souvent comme matériaux de départ des polymères naturels, en particulier les polysaccharides. Quelques polymères synthétiques répondent aussi à ces contraintes, telle que la polycaprolactone. Ainsi, le matériau de base utilisé dans ce travail est l'amidon sur lequel a été greffé soit la poly (ε-caprolactone), soit une chaîne grasse. La thèse est structurée en cinq chapitres consacrés d'une part au greffage de structures hydrophobes sur l'amidon et la formation d'hydrogels à hydrophobie modulable, d'autre part à la vectorisation de la lévofloxacine par ces composés. La première partie traite du greffage de la polycaprolactone sur l'amidon par "click chemistry" (CuAAC) entre l’amidon fonctionnalisé par des fonctions alcynes et des polycaprolactones à fonction azoture en bout de chaîne, ces dernières étant préalablement obtenues par POC de la caprolactone. Les réactions de CuAAC ont été effectuées non seulement selon les protocoles habituels, mais aussi par micro ondes. Par ailleurs, l'amidon a aussi été hydrophobisé par les méthodes usuelles d'estérification par une chaîne grasse via le chlorure de l’acide palmitoique. Les produits ainsi obtenus ont été caractérisés par RMN, IR, XPS et leur comportement dans différents solvants (solubilité, gonflement) a été étudié. Une seconde partie est consacrée à l'élaboration d'hydrogels à base d’amidon et d’amidon modifié avec des chaînes d’acides gras et de PCL par réticulation avec l’acide citrique. Afin d'atteindre les objectifs, une stratégie multifactorielle expérimentale avec deux variables indépendantes a été utilisée. La modélisation mathématique des données expérimentales permet de remonter aux paramètres physico-chimiques pertinents, montre les effets de synergie et établit les conditions d'optimisation. Une dernière partie a permis d'évaluer les cinétiques de libération de la lévofloxacine, un antibiotique de dernière génération, par les hydrogels obtenus. Les matériaux obtenus ont montré des propriétés de libération contrôlée potentiellement intéressantes. Les résultats obtenus au cours de cette thèse ont été évalués par la publication de trois articles et par dissémination des résultats au six conférences internationales. / This work is part of a current field that has grown steadily in recent years and aims to obtain and characterize amphiphilic polymers and hydrogels with controlled hydrophilicity, derived from natural polymers, with potential use as controlled drug delivery systems. Acting in contact with the body or inside it, it is necessary that the polymers used to obtain these architectures meet a number of constraints to be non-toxic, biocompatible and biodegradable. For these reasons, most of the time natural polymers are chosen, especially those from the class of polysaccharides, but there are also synthetic polymers that meet these requirements. Thus, the materials considered were: starch, poly (ε-caprolactone), palmitoyl chloride, citric acid, their by-products of degradation being non toxic. The thesis is divided into two parts, one theoretical and one experimental, and structured into five chapters, wherein: the first chapter is the theoretical and the others, the original, experimental part. In a first time, starch was hydrophobized by grafting poly-caprolactone using "click chemistry" (CuAAC) (using the traditional way and the one using the microwaves) between starch chains bearing alkyne side functions and polycaprolactone chains with azide chain end function, these latter being synthesized by ROP of caprolactone. Another way consists in the esterification with long fatty acid chains. Physico-chemical analysis, morphological and the behavior in different solutions have been made to obtain information about both the structure and the characteristics of the products. in a second part, hydrogels based on starch and modified starch with fatty acid chains or PCL and crosslinked with citric acid have been obtained. To achieve the objectives, a strategy with two experimental independent variables was used, the mathematical modeling of experimental data giving information on the existing phenomena, and showing the synergistic effects and at the same time establishing the conditions for optimization. After evaluation of the kinetics of controlled release of levofloxacin, an antibiotic, from the synthesized hydrogels, the materials based on modified starch have shown to present sustained release properties superior in terms of slowing release, a feature that recommends them successfully in the pharmaceutical and cosmetics applications. The results obtained in this thesis have been evaluated by the publication of three articles and dissemination of results at six international conferences. Copolymères amphiphiles Click chemistry Amidon Polycaprolactone Hydrogels Vectorisation Amphiphilic polymers Click chemistry Starch Polycaprolactone Hydrogels Vectorization 546.3
107	The Amphiphilicity of ACP Helices: A Means of Macromolecular Interaction? Ernst-Fonberg, Mary L., Tucker, Margie Mc, Fonberg, Ignacy B. 11 May 1987 (has links) ACP interacts with diverse proteins in an unknown way. Possibly there is a similar mode of interaction between ACP and all ACP-binding proteins, the amphiphilic helix. The hydrophobicities of helices from 4 different ACPs were compared. Hydrophobic moment plots were prepared for ACP helices and those of many EF hand calcium-binding proteins. Both groups of proteins occupied the same region of the plot. acyl carrier protein amphiphilic helix Ca -binding protein 2+ hydrophobic moment plot hydrophobicity projection protein interaction Biomedical Sciences
108	Microgels as drug carriers : Relationship between release kinetics and self-aggregation of the amphiphilic drugs adiphenine, pavatrine and diphenhydramine. Ali Mohsen, Lobna January 2021 (has links) Abstract There has been great interest in microgels as drug carriers within the pharmaceutical industry. This includes the use of amphiphilic drugs for treating conditions such as depression, allergies, and cancer. By loading adiphenine (ADP), pavatrine (PVT), and diphenhydramine (DPH) into macrogels and observing the release, this study seeks to investigate how amphiphilic drugs can be released from microgels. There is also an interest in how aggregation behavior may vary depending on the structural components. This study utilized small angle x-ray scattering (SAXS) along with UV analysis and the measuring of the binding isotherm to investigate micelle aggregation and aggregation number. Two of the drugs adiphenine and pavatrine, have similar structures with only one bond that differentiated them. The difference in rigidity provided different results in SAXS. Adiphenine has an aggregation number of 12, diphenhydramine has a number of 13, and pavatrine has a number of 37. In contrast to pavatrine, which did not exhibit a correlation peak, adiphenine and diphenhydramine showed correlation peaks. This indicates that none of them had an ordered phase structure but pavatrine displayed an even more disordered phase structure. Nevertheless, all three drugs were in equilibrium, and so a difference between adiphenine and pavatrine could be clearly distinguished. There were significant divergences between pavatrine and adiphenine despite not being able to determine binding isotherms for all three drugs. Based on this, they should be less stable than diphenhydramine. They have an ester linkage, while diphenhydramine doesn't. As a result, it was not possible to confirm how self-aggregation of adiphenine, pavatrine, and diphenhydramine impacts drug release. Despite this, differences in the rigidity of the structural form may lead amphiphilic drugs to exhibit different behaviour in gels. Keywords: Amphiphilic drugs, small angle x-ray scattering, macrogels, binding isotherm, CMC, self-aggregation, phase structure, micelles. Amphiphilic drugs small angle x-ray scattering macrogels binding isotherm CMC self-aggregation phase structure micelles. Chemical Engineering Kemiteknik
109	[pt] OS EFEITOS DA FUNCIONALIZAÇÃO SIMPLES, JANUS E TRIPLA DE NANOPARTÍCULAS DE OURO NA INCORPORAÇÃO CELULAR / [en] THE EFFECTS OF SIMPLE, JANUS, AND TRIPLE FUNCTIONALIZATION OF GOLD NANOPARTICLES ON CELLULAR UPTAKE LAIS HELENA MOREIRA DA COSTA 31 January 2024 (has links) [pt] Desenvolver um sistema que combine direcionamento ativo para células específicas, elevada incorporação celular, capacidade de transdução fototérmica e biocompatibilidade é um desafio para tornar nanopartículas aplicáveis na área da biomedicina. Neste estudo, realizamos a funcionalização de nanopartículas de ouro (AuNP) em algumas etapas, utilizando macromoléculas estrategicamente para conferir- lhes características-chave de agentes teranósticos. O polietileno glicol (PEG), sendo hidrofílico, melhora a estabilidade e a duração em circulação das nanopartículas. Já o poli(ácido lático) (PLA), que é um polímero hidrofóbico e biodegradável, desempenha um papel importante na interação e incorporação dessas nanopartículas através das membranas celulares. Além disso, a funcionalização com folato pode oferecer um direcionamento ativo, uma vez que as células tumorais geralmente superexpressam proteínas receptoras de folato. Através da funcionalização única, dupla, Janus e tripla de AuNP esféricas ou cilíndricas com estes ligantes, conseguimos obter diferentes propriedades relacionadas a agregação, estabilidade e ressonância de plásmons de superfície localizada (LSPR). A funcionalização tripla garante simultaneamente uma estabilidade das nanopartículas em meios aquosos e um aumento significativo na incorporação celular. Além disso, a exposição com radiação infravermelha mostra que os nanobastões conseguem elevar a temperatura mais eficientemente do que as nanoesferas devido à sua banda de ressonância plasmônica superficial longitudinal. Os resultados sugerem que essa estratégia de funcionalização pode ser utilizada para ajustar as propriedades desejadas, possibilitando aplicações práticas e eficazes das nanopartículas de ouro em imagiologia e terapia fototérmica em pesquisas na área biomédica. / [en] Developing a system that combines active targeting to specific cells, enhanced cellular uptake, photothermal transduction capacity, and biocompatibility is a challenge to make nanoparticles applicable in the field of biomedicine. In this study, we carried out the functionalization of gold nanoparticles (AuNP) in several steps strategically using macromolecules to provide key characteristics of theragnostic agents. Polyethylene glycol (PEG), being hydrophilic, enhances nanoparticle stability and circulation lifetime. Polylactic acid (PLA), which is a biodegradable hydrophobic polymer, plays an important role in the interaction and uptake of these nanoparticles through cellular membranes. Furthermore, functionalization with folate can offer active targeting, as tumor cells typically overexpress folate receptor proteins. By single, double, and triple functionalization of spherical and rod-shaped AuNP with these ligands, we obtained varying properties related to aggregation, stability, and localized surface plasmon resonance (LSPR). Triple functionalization ensured simultaneous stability of the nanoparticles in aqueous media and a significant increase in cellular uptake. Additionally, the incidence of infrared radiation reveals that nanorods can increase the temperature more effectively gold nanospheres due to their longitudinal surface plasmon resonance band. The results suggest that this functionalization strategy can be employed to fine-tune desired properties, enabling practical and effective applications of gold nanoparticles in imaging and photothermal therapy within biomedical research. [pt] PLASMONICA [pt] NANOPARTICULAS ANFIFILICAS [pt] JANUS [pt] FUNCIONALIZACAO [pt] NANOPARTICULAS METALICAS [en] PLASMONICS [en] AMPHIPHILIC NANOPARTICLES [en] JANUS [en] FUNCTIONALIZATION [en] METALLIC NANOPARTICLES
110	SYNTHESIS, EVALUATION AND MOLECULAR DYNAMIC SIMULATIONS OF NOVEL ANIONIC POLMERIC SURFACTANTS BASED ON POLYBENZOXAZINES Mahfud, Riyad Ageli Saleh 11 June 2014 (has links) No description available. Chemical Engineering Amphiphilic polybenzoxazine polymeric surfactant surface tension critical micelle concentration molecular dynamics self-assembly morphology sphere to cylinder transition

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