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Investigação computacional das propriedades estruturais, termodinâmicas e dinâmicas do polímero termossensível poli(N-isopropilacrilamida) em solução aquosaOliveira, Tiago Espinosa de January 2016 (has links)
Polímeros termossensíveis apresentam grandes alterações em suas propriedades quando submetidos a pequenas mudanças de temperatura (T) próximas à temperatura de solução crítica inferior (LCST) ou superior (UCST). Um dos polímeros termossensíveis mais estudados é o Poli(N-isopropilacrilamida) (PNIPAm) porque ele apresenta a LCST, aproximadamente, 32 oC ( 305 K), próxima à temperatura do corpo humano. Em temperatura abaixo da LCST o polímero apresenta-se solúvel devido um grande número de interações hidrofílicas (ligações de hidrogênio polímero-água), entretanto quando a temperatura é elevada acima da LCST ocorre a precipitação do polímero devido a um aumento de interações polímero-polímero e uma diminuição brusca nas interações polímero-água. Com essas características o PNIPAm tem despertado o interesse para aplicações em um vasto campo de pesquisas, como por exemplo na liberação controladas de fármacos. Nesse trabalho, utilizando simulações de dinâmica molecular (DM), foi proposta uma imagem microscópica do fenômeno de transição de fases apresentado por esse polímero em solução aquosa influenciado por alterações na estereoquímica do backbone (taticidade), bem como o efeito da copolimerização com Acrilamida (Am). Com base nas análises estruturais e termodinâmicas, os resultados sugerem que as diferentes estereoquímicas (isotático, atático e sindiotático) possibilitam diferentes conformações dificultando ou possibilitado um maior número de interações polímero-polímero e polímero água modificando a LCST. Já o aumento da concentração de Am (xAm) na copolimerização aumenta o número de interações polímero-água dificultando o colapso da cadeia. / Thermosensitive polymers exhibit large changes in their properties when submitted to small changes in temperature T, near the lower (LCST) or upper critical solution temperature( UCST). The most extensively studied thermosensitive polymer is PNIPAm because it has a LCST of approximately 32 oC (305 K), near human body temperature. For temperatures below the LCST the polymer is soluble due to strong hydrophilic interactions (polymer-water hydrogen bonds). However, when the temperature is raised above the LCST, the precipitation of the polymer occurs due to increased polymer-polymer interactions and a sharp decrease in polymer-water interactions. That feature makes the PNIPAm a compound widely studied and with a wide range of applications, such as for drug delivery. In this work, using molecular dynamics simulations, it was proposed a microscopic picture of the phase transition phenomenon presented by this polymer in aqueous solution influenced by changes in stereochemistry of the backbone (tacticity), as well as the effect of copolymerization with acrylamide (Am). Based on the thermodynamic and structural analysis, the results suggest that different stereochemistries (isotactic, atactic and syndiotactic) enable different conformations allowing different scenarios of polymer-polymer and polymer-water interactions, therefore modifying the LCST. The presence of the strongly polar copolymer acrylamide as the effect of maintain the high hydration even at higher temperatures, shifting in this way the LCST to higher values.
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Investigação computacional das propriedades estruturais, termodinâmicas e dinâmicas do polímero termossensível poli(N-isopropilacrilamida) em solução aquosaOliveira, Tiago Espinosa de January 2016 (has links)
Polímeros termossensíveis apresentam grandes alterações em suas propriedades quando submetidos a pequenas mudanças de temperatura (T) próximas à temperatura de solução crítica inferior (LCST) ou superior (UCST). Um dos polímeros termossensíveis mais estudados é o Poli(N-isopropilacrilamida) (PNIPAm) porque ele apresenta a LCST, aproximadamente, 32 oC ( 305 K), próxima à temperatura do corpo humano. Em temperatura abaixo da LCST o polímero apresenta-se solúvel devido um grande número de interações hidrofílicas (ligações de hidrogênio polímero-água), entretanto quando a temperatura é elevada acima da LCST ocorre a precipitação do polímero devido a um aumento de interações polímero-polímero e uma diminuição brusca nas interações polímero-água. Com essas características o PNIPAm tem despertado o interesse para aplicações em um vasto campo de pesquisas, como por exemplo na liberação controladas de fármacos. Nesse trabalho, utilizando simulações de dinâmica molecular (DM), foi proposta uma imagem microscópica do fenômeno de transição de fases apresentado por esse polímero em solução aquosa influenciado por alterações na estereoquímica do backbone (taticidade), bem como o efeito da copolimerização com Acrilamida (Am). Com base nas análises estruturais e termodinâmicas, os resultados sugerem que as diferentes estereoquímicas (isotático, atático e sindiotático) possibilitam diferentes conformações dificultando ou possibilitado um maior número de interações polímero-polímero e polímero água modificando a LCST. Já o aumento da concentração de Am (xAm) na copolimerização aumenta o número de interações polímero-água dificultando o colapso da cadeia. / Thermosensitive polymers exhibit large changes in their properties when submitted to small changes in temperature T, near the lower (LCST) or upper critical solution temperature( UCST). The most extensively studied thermosensitive polymer is PNIPAm because it has a LCST of approximately 32 oC (305 K), near human body temperature. For temperatures below the LCST the polymer is soluble due to strong hydrophilic interactions (polymer-water hydrogen bonds). However, when the temperature is raised above the LCST, the precipitation of the polymer occurs due to increased polymer-polymer interactions and a sharp decrease in polymer-water interactions. That feature makes the PNIPAm a compound widely studied and with a wide range of applications, such as for drug delivery. In this work, using molecular dynamics simulations, it was proposed a microscopic picture of the phase transition phenomenon presented by this polymer in aqueous solution influenced by changes in stereochemistry of the backbone (tacticity), as well as the effect of copolymerization with acrylamide (Am). Based on the thermodynamic and structural analysis, the results suggest that different stereochemistries (isotactic, atactic and syndiotactic) enable different conformations allowing different scenarios of polymer-polymer and polymer-water interactions, therefore modifying the LCST. The presence of the strongly polar copolymer acrylamide as the effect of maintain the high hydration even at higher temperatures, shifting in this way the LCST to higher values.
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Investigação computacional das propriedades estruturais, termodinâmicas e dinâmicas do polímero termossensível poli(N-isopropilacrilamida) em solução aquosaOliveira, Tiago Espinosa de January 2016 (has links)
Polímeros termossensíveis apresentam grandes alterações em suas propriedades quando submetidos a pequenas mudanças de temperatura (T) próximas à temperatura de solução crítica inferior (LCST) ou superior (UCST). Um dos polímeros termossensíveis mais estudados é o Poli(N-isopropilacrilamida) (PNIPAm) porque ele apresenta a LCST, aproximadamente, 32 oC ( 305 K), próxima à temperatura do corpo humano. Em temperatura abaixo da LCST o polímero apresenta-se solúvel devido um grande número de interações hidrofílicas (ligações de hidrogênio polímero-água), entretanto quando a temperatura é elevada acima da LCST ocorre a precipitação do polímero devido a um aumento de interações polímero-polímero e uma diminuição brusca nas interações polímero-água. Com essas características o PNIPAm tem despertado o interesse para aplicações em um vasto campo de pesquisas, como por exemplo na liberação controladas de fármacos. Nesse trabalho, utilizando simulações de dinâmica molecular (DM), foi proposta uma imagem microscópica do fenômeno de transição de fases apresentado por esse polímero em solução aquosa influenciado por alterações na estereoquímica do backbone (taticidade), bem como o efeito da copolimerização com Acrilamida (Am). Com base nas análises estruturais e termodinâmicas, os resultados sugerem que as diferentes estereoquímicas (isotático, atático e sindiotático) possibilitam diferentes conformações dificultando ou possibilitado um maior número de interações polímero-polímero e polímero água modificando a LCST. Já o aumento da concentração de Am (xAm) na copolimerização aumenta o número de interações polímero-água dificultando o colapso da cadeia. / Thermosensitive polymers exhibit large changes in their properties when submitted to small changes in temperature T, near the lower (LCST) or upper critical solution temperature( UCST). The most extensively studied thermosensitive polymer is PNIPAm because it has a LCST of approximately 32 oC (305 K), near human body temperature. For temperatures below the LCST the polymer is soluble due to strong hydrophilic interactions (polymer-water hydrogen bonds). However, when the temperature is raised above the LCST, the precipitation of the polymer occurs due to increased polymer-polymer interactions and a sharp decrease in polymer-water interactions. That feature makes the PNIPAm a compound widely studied and with a wide range of applications, such as for drug delivery. In this work, using molecular dynamics simulations, it was proposed a microscopic picture of the phase transition phenomenon presented by this polymer in aqueous solution influenced by changes in stereochemistry of the backbone (tacticity), as well as the effect of copolymerization with acrylamide (Am). Based on the thermodynamic and structural analysis, the results suggest that different stereochemistries (isotactic, atactic and syndiotactic) enable different conformations allowing different scenarios of polymer-polymer and polymer-water interactions, therefore modifying the LCST. The presence of the strongly polar copolymer acrylamide as the effect of maintain the high hydration even at higher temperatures, shifting in this way the LCST to higher values.
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Synthèse et caractérisation de copolymères thermosensibles phosphonés : évaluation de leurs propriétés de sorption et séparation au sein d’un nouveau procédé de traitement d’effluents aqueux chargés en métaux / Synthesis and caracterization of thermosensitive copolymers bearing phosphonated moieties : Evaluation of sorption and separation properties for an innovative process targeting the removal of metals from wastewaterGraillot, Alain 07 November 2013 (has links)
Le travail de thèse présenté dans ce manuscrit a pour objectif la synthèse de copolymères thermosensibles complexants innovants pour la mise en place d'un nouveau procédé de traitement des effluents aqueux chargés en métaux. Ce procédé original est en effet basé sur l'utilisation de copolymères porteurs de groupements phosphonés permettant la sorption des métaux en solution aqueuse et possédant un caractère thermosensible de sorte à contrôler la solubilité du copolymère et à faciliter les étapes de sorption et de séparation. Dans un premier temps, la synthèse de copolymères thermosensibles phosphonés a été réalisée par polymérisation radicalaire conventionnelle puis par polymérisation radicalaire contrôlée (PRC) ce qui a conduit à différentes architectures. Parmi les composés préparés, le P(NnPAAm-stat-hMAPC1) a été sélectionné car il présente une basse température critique de solution proche de la température des effluents industriels chargés en métaux. Les propriétés de sorption de ces copolymères ont ensuite été déterminées en réacteur statique afin de mettre en évidence les facteurs influents (temps de contact, température, pH, composition de l'effluent). Ces différents essais ont également permis d'étudier les mécanismes de sorption intervenant entre les groupements acide phosphonique et les différents cations métalliques évalués (Ni2+, Ca2+, Cd2+, Al3+). Enfin, les étapes de séparation post-sorption et de régénération ont également fait l'objet d'études approfondies, permettant de proposer à l'issue de ce travail un procédé innovant de traitement de la pollution métallique, appelé procédé TEMF (Thermosensitive polymer Enhanced Microfiltration). L'efficacité des différentes étapes constituant ce procédé a été évaluée en batch à l'échelle du laboratoire et en semi-continu sur un pilote de laboratoire conçu dans le cadre du projet. / This Ph-D work aims at synthetizing thermosensitive and complexing polymers for the implementation of an innovative process targeting the removal of metallic cations from wastewater. This process is based on the use of copolymers bearing phosphonic acid groups as sorption moieties whereas thermoresponsiveness allows adjusting the solubility of the polymeric sorbent according to the process step considered. First, the synthesis of various thermosensitive copolymers bearing phosphonated moieties is reported. The use of free radical polymerization or Reversible Addition Fragmentation Transfer (RAFT) polymerization allowed synthesizing copolymers with different architectures. Among all macromolecular compounds, the P(NnPAAm-stat-hMAPC1) copolymer was chosen as the most relevant polymeric sorbent for the process. Sorption properties of this copolymer were then evaluated and results highlighted that the contact time, the temperature, the pH and more generally the effluent composition were the main influencing parameters. These studies also enable to figure out the sorption mechanisms involved between phosphonic acid and the cationic metals studied (Ni2+, Ca2+, Cd2+, Al3+).The studies carried on the separation and regeneration steps of the process allowed the development of an innovative process for the removal of metallic pollution from wastewaters named Thermosensitive polymer Enhanced Microfiltration (TEMF) process. Finally, the conception of a pilot plant permitted the study of the TEMF process at larger scale.
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Amphiphilic BAB-triblock copolymers bearing fluorocarbon groups : synthesis and self-organization in aqueous mediaKristen, Juliane Ute January 2011 (has links)
In this work new fluorinated and non-fluorinated mono- and bifunctional trithiocarbonates of the structure Z-C(=S)-S-R and Z-C(=S)-S-R-S-C(=S)-Z were synthesized for the use as chain transfer agents (CTAs) in the RAFT-process. All newly synthesized CTAs were tested for their efficiency to moderate the free radical polymerization process by polymerizing styrene (M3). Besides characterization of the homopolymers by GPC measurements, end- group analysis of the synthesized block copolymers via 1H-, 19F-NMR, and in some cases also UV-vis spectroscopy, were performed attaching suitable fluorinated moieties to the Z- and/or R-groups of the CTAs.
Symmetric triblock copolymers of type BAB and non-symmetric fluorine end- capped polymers were accessible using the RAFT process in just two or one polymerization step. In particular, the RAFT-process enabled the controlled polymerization of hydrophilic monomers such as N-isopropylacrylamide (NIPAM) (M1) as well as N-acryloylpyrrolidine (NAP) (M2) for the A-blocks and of the hydrophobic monomers styrene (M3), 2-fluorostyrene (M4), 3-fluorostyrene (M5), 4-fluorostyrene (M6) and 2,3,4,5,6-pentafluorostyrene (M7) for the B-blocks.
The properties of the BAB-triblock copolymers were investigated in dilute, concentrated and highly concentrated aqueous solutions using DLS, turbidimetry, 1H- and 19F-NMR, rheology, determination of the CMC, foam height- and surface tension measurements and microscopy. Furthermore, their ability to stabilize emulsions and microemulsions and the wetting behaviour of their aqueous solutions on different substrates was investigated. The behaviour of the fluorine end-functionalized polymers to form micelles was studied applying DLS measurements in diluted organic solution.
All investigated BAB-triblock copolymers were able to form micelles and show surface activity at room temperature in dilute aqueous solution. The aqueous solutions displayed moderate foam formation. With different types and concentrations of oils, the formation of emulsions could be detected using a light microscope. A boosting effect in microemulsions could not be found adding BAB-triblock copolymers. At elevated polymer concentrations, the formation of hydrogels was proved applying rheology measurements. / Im Rahmen dieser Arbeit wurden neue fluorierte und unfluorierte mono- und bifunktionelle Trithiocarbonate der Typen Z-C(=S)-S-R und Z-C(=S)-S-R-S-C(=S)-Z zur Anwendung als CTAs (chain- transfer agents) im RAFT-Polymerisationsverfahren hergestellt. Alle CTAs wurden erfolgreich auf ihre Effizienz zur Steuerung des radikalischen Polymerisationsverfahrens hin durch Polymerisation von Styrol (M3) getestet. Neben GPC-Messungen wurden Endgruppenanalysen der synthetisierten Blockcopolymere mittels 1H-, 19F-NMR und in manchen Fällen auch UV-Vis Spektroskopie durchgeführt. Dazu wurden die Z- und/oder R-Gruppen der CTAs mit geeigneten fluorierten Gruppen versehen.
Durch Anwendung des RAFT Verfahrens konnten symmetrische Triblockcopolymere vom Typ BAB bzw. mit einer Fluoralkylgruppe endgecappte unsymmetrische Polymere in nur zwei bzw. einem Polymerisationsschritt hergestellt werden. Das RAFT- Polymerisationsverfahren ermöglicht sowohl die Polymerisation hydrophiler Monomere wie N-Isopropylacrylamid (NIPAM) (M1) oder N-Acryloylpyrrolidin (NAP) (M2) für die A-Blöcke als auch der hydropoben Monomere Styrol (M3), 2-Fluorostyrol (M4), 3-Fluorostyrol (M5), 4- Fluorostyrol (M6) und 2,3,4,5,6- Pentafluorostyrol (M7) für die B-Blöcke.
Die Eigenschaften der Blockcopolymere in verdünnten, konzentrierten und hochkonzentrierten wässrigen Lösungen wurden mittels DLS, Trübungsphotometrie, 1H- und 19F-NMR, Rheologie, CMC- sowie Schaumhöhen- und Oberflächenspannungsmessungen und Lichtmikroskopie untersucht. Weiterhin wurden ihre Eigenschaften als Emulgatoren und in Mikroemulsion untersucht. Das Micellbildungsverhalten der hydrophob endfunktionalisierten Polymere wurde mittels DLS Messungen in verdünnter organischer Lösung untersucht.
Alle untersuchten BAB-Triblöcke bildeten Micellen und zeigten Oberflächenaktivität bei Raumtemperatur in verdünnter, wässriger Lösung. Weiterhin zeigen die wässrigen Lösungen der Polymere mäßige Schaumbildung. Mit verschiedenen Öltypen und Ölkonzentrationen wurden Emulsionen bzw. Mikroemulsionen gebildet. In Mikroemulsion wurde durch Zugabe von BAB-Triblockopolymeren kein Boosting-Effekt erzielt werden. Bei Untersuchung höherer Polymerkonzentrationen wurde die Bildung von Hydrogelen mittels rheologischer Messungen nachgewiesen. Verschiedene Substrate konnten benetzt werden. Die hydrophob endgecappten Polymere bilden in verdünnter organischer Lösung Micellen, die mittels DLS untersucht wurden, und zeigen somit Tensidverhalten in nichtwässriger Lösung.
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Hydrogels multi-fonctionnels à base d'acide hyaluronique pour le contrôle de l'adhésion, la prolifération et la différentiation de cellules souches neuronales / Multi-functional hydrogels based on hyaluronic acid to control adhesion, growth and differentiation of neural stem cellsTarus, Dominte 29 November 2016 (has links)
RésuméLes lésions du cerveau sont un problème médical majeur, celui-ci possédant des ressources limitées pour la guérison. Les patients souffrent souvent des déficiences graves et durables, dégradant leur qualité de vie et imposant des couts importants. Des thérapies qui visent l'implantation des cellules souches neurales supportées par un biomatériau qui imite la matrice extracellulaire du cerveau sont en développement. L’ECM du cerveau a une teneur élevée en acide hyaluronique (HA). Ce glycosaminoglycane possède la biocompatibilité et l'activité biologique requises par les applications avec des cellules souches neurales.Nous avons développé des hydrogels à base de HA, possédant des propriétés mécaniques et des densités en peptide d’adhésion cellulaire (GRGDS) contrôlées, pour l'étude in vitro de la différenciation de cellules souches neurales en neurones. L'analyse de neurites en 3-D par microscopie biphotonique a montré une excroissance accrue et une densité élevée des neurites dans les hydrogels les plus élastiques (G '= 400 Pa), combinées avec l'existence d'un optimum dans l'extension des neurites en fonction de la densité des ligands dans le cas des hydrogels contenant des GRGDS. La croissance des neurites relève vraisemblablement d’une combinaison d’interactions adhésives cellule-HA, cellule-GRGDS, et cellule-molécules extracellulaires secrétées.Par la suite la dégradabilité enzymatique des hydrogels de HA a été étudiée. Les hydrogels de HA se dégradent sous l'effet de l'enzyme hyaluronidase suivant un modèle mono-exponentiel, ce qui correspond à une population homogène de chaînes de HA clivables. Les hydrogels avec des modules d'élasticité plus élevés, montrent des vitesses de dégradation enzymatique plus faibles. Le remplacement de l'agent de réticulation PEG-bis(thiol) pour un polymère HA-(SH)3 clivable par voie enzymatique conduit à une réduction du temps nécessaire à la dégradation complète des hydrogels.Dans un troisième temps, nous avons développé des gels de héparosane sans activité biologique qui pourraient révéler une meilleure compréhension du rôle joué par le HA dans la différentiation des NSCs et dans l’extension des neurites. Nous avons montré que le CD44 joue un rôle mesurable dans le processus d'adhésion des cellules MEF. Il existe d'autres procédés par lesquels ces cellules peuvent adhérer sur les hydrogels d’héparosane, cependant la force de ces interactions est plus faible. / AbstractDamage caused to the central nervous system (CNS) is a major medical concern. As the CNS has limited ability to regenerate its damaged cells, patients can suffer from serious and long-term disabilities and impairments, which put strains on public healthcare systems. Therapies that aim to implant neural stem cells together scaffolds that mimic the extracellular matrix of the brain are being developed. Hyaluronic acid is an important component of the brain ECM. This glycosaminoglycan possesses the required biocompatibility and bioactivity for use in neural stem cells applications.We have developed HA-based hydrogels with controlled mechanical properties and cell adhesion peptide (GRGDS) densities for the in vitro study of neural precursor cells’ differentiation into neurons. The analysis of neurite outgrowth in 3-D by two-photon microscopy showed an increased outgrowth and density of neurites in the softest hydrogels (G’ = 400 Pa), combined with the existence of an optimum in neurite outgrowth as a function of ligand density in the case of hydrogels containing GRGDS. Neurite outgrowth in these hydrogels most likely involves a combination of adhesive interactions between cell-HA, cell-GRGDS moieties, and cell-secreted extracellular molecules.The enzymatic degradability of HA hydrogels was then investigated. The HA hydrogels degrade under the effect of the Hyaluronidase enzyme following a mono-exponential model, corresponding to a homogenous population of cleavable HA polymer chains. Hydrogels with higher elastic moduli have progressively lower enzymatic degradation rates. The substitution of the PEG-bis(thiol) crosslinker by an enzymatically cleavable HA-(SH)3 polymer led to a reduction in the time required for the complete degradation of the hydrogels.Finally we developed heparosan hydrogels that are devoid of biological functions and thus provide better insight into the role of HA in NSCs differentiation and neurite outgrowth. We showed that CD44 plays a measurable role in the adhesion process of MEF cells. There are alternative processes through which cells can attach to the heparosan hydrogels however the strength of these adhesions is weaker. Heparosan is a viable biomaterial for hydrogel synthesis that does not interact with the CD44 receptor, resulting in lower cellular adhesions.
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Synthesis of magnetic and thermosensitive iron oxide based nanoparticles for biomedical applications / Synthèse de nanoparticules magnétiques et thermosensibles à base d'oxyde de fer pour des applications biomédicalesHemery, Gauvin 10 November 2017 (has links)
Cette thèse présente le développement de nanoparticules hybrides avec un coeur inorganique et une couronne organique pour des applications médicales. Des nanoparticules d’oxyde de fer ont été obtenues par synthèse polyol, en contrôlant leurs cristallinités, leurs morphologies (monocoeur ou multicoeur) et leurs tailles (de 4 à 37 nm). Leurs propriétés ont été évaluées et comparées pour de possibles applications théranostiques : en thérapie pour le traitement du cancer par hyperthermie magnétique, pour le diagnostic en tant qu’agents de contraste pour l’IRM. Les surfaces des nanoparticules ont été modifiées par greffage de polymères/polypeptides pour apporter de la stabilité en milieux biologiques et de nouvelles fonctionnalités. Le poly(éthylène glycol) (PEG) a été greffé pour ses propriétés de furtivité, le poly(2-dimethylaminoethyl methacrylate) (PDMAEMA) et des polypeptides dérivés de l’élastine (ELPs) pour leurs propriétés thermosensibles, et la sonde fluorescente DY700 pour permettre le suivi des nanoparticules in vitro et in vivo. Les propriétés magnétiques et thermosensibles de ces nanoparticules coeur-couronne ont été étudiées avec un instrument unique combinant l’hyperthermie magnétique et un système de diffusion dynamique de la lumière. Ainsi, les variations de température, de diamètre et d’intensité diffusée ont pu être mesurées simultanément. Les propriétés de nanoparticules monocoeur et multicoeur greffées avec du PEG, et des nanoparticules monocoeur greffées avec un ELP contenant un peptide pénétrant ont d’abord été évaluées in vitro. Leurs internalisations dans des cellules de tumeur cérébrale humaine (glioblastome) ont permis d’étudier leurs cytotoxicités après traitement par hyperthermie magnétique, et ont montré une baisse de viabilité cellulaire jusqu’à 90 %. In vivo, l’injection intraveineuse de ces nanoparticules dans des souris a abouti à une accumulation dans les tumeurs. L’injection intratumorale suivie du traitement par hyperthermie magnétique a conduit à des élévations de température locales d’environ 10 °C, avec un effet significatif sur l’activité des tumeurs. / This thesis reports the development of hybrid nanoparticles made of an inorganic iron oxide core and an organic shell for medical applications. Iron oxide nanoparticles (IONPs) were produced by the polyol pathway, leading to a good control over their crystallinity and morphology (monocore or multicore). IONPs with diameters in the range of 4 to 37 nm were produced. Their properties as MRI contrast agents were assessed and compared, for possible theranostic applications. They can be used for treating cancer by magnetic hyperthermia, and as contrast agents for MR imaging. The surface of the IONPs was modified to bring stability in biological conditions, as well as new functionalities. Poly(ethylene glycol) was grafted for its stealth property, poly(2-dimethylaminoethyl methacrylate) (PDMAEMA) and elastin-like polypeptides (ELPs) for their thermosensitive capabilities, and a DY700 fluorescent probe was grafted for tracking nanoparticles in vitro and in vivo. The magnetic and thermosensitive properties of the nanoparticles were studied using a unique set-up combining magnetic hyperthermia with dynamic-light scattering. This set-up allowed measuring the elevations of temperature of the samples as well as variations in diameter and backscattered intensity. Monocore and multicore IONPs grafted with PEG, and monore IONPs grafted with a diblock ELP were tested in vitro. Their interactions with glioblastoma cells were studied, from the internalization pathway inside the cells to their cytotoxic effect (up to 90 %) under magnetic hyperthermia. In vivo, nanoparticles intravenously injected in mice accumulated in the tumors. Intratumoral administration followed by magnetic hyperthermia treatment led to elevations of temperature of up to 10 °C, with a significant effect on the tumor activity.
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La poly(2-isopropyl-2-oxazoline) et ses dérivés en solution aqueuse et aux interfacesLafon, Adeline 08 1900 (has links)
La poly(2-isopropyl-2-oxazoline) (PIPOZ) est un polymère thermosensible qui possède une température de solution critique inférieure (LCST) autour de 40 °C en solution aqueuse. Les travaux présentés s’intéressent aux propriétés en solution aqueuse et aux interfaces, de l’homopolymère PIPOZ, d’une PIPOZ fonctionnalisée avec un groupement lipidique (lipo-PIPOZ) et de copolymères à blocs à base de poly(éthylène glycol) et de PIPOZ.
Si elle est régulièrement comparée à son isomère structurel le poly(N-isopropylacrylamide) (PNIPAM), les études sur les propriétés en solution de la PIPOZ sont cependant moins complètes que celles sur le PNIPAM. Le premier objectif des travaux présentés ici est de parfaire la connaissance du comportement en solution de la PIPOZ en présence d’additifs. Les effets de sels et de solvants hydromiscibles sur la solubilité de la PIPOZ ont été investigués par turbidimétrie et microcalorimétrie sur trois homopolymères de masses moléculaires différentes. Contrairement aux solutions de PNIPAM, l’ajout de méthanol à la solution de PIPOZ ne conduit pas au phénomène de cononsolvency où la solubilité du polymère diminue pour une certaine gamme de fractions volumiques de cosolvant. L’effet a néanmoins été observé dans le cas de système PIPOZ/Eau/THF. L’effet de sels sur la solubilité de la PIPOZ suit la série Hofmeister. La présence de sels chaotropes (NaI et NaSCN) en solution ont révélé un effet bien plus important sur la solubilité de la PIPOZ que pour son isomère. Les valeurs de point troubles de la solution de PIPOZ augmentent de plus de 30 °C pour une concentration en sel supérieure à 1 M.
L’autre objectif de cette thèse est de synthétiser un système à base de PIPOZ capable de s’auto-assembler à l’interface air-eau afin de former des films interfaciaux par la technique Langmuir-Blodgett. A cette fin, un amorceur contenant un groupement lipidique (2 chaînes alkyles et un groupement phosphate) a été synthétisé et utilisé pour la polymérisation cationique par ouverture de cycle (CROP) du monomère 2-isopropyl-2-oxazoline conduisant à l’obtention d’un lipo-PIPOZ (Mn = 10 kg.mol-1). L’effet de deux sels (NaSCN et NaCl) sur les films interfaciaux a été étudié. Malgré leur effet opposé sur la solubilité de la PIPOZ en solution, ils conduisent tous les deux à l’expansion de la monocouche de lipo-PIPOZ. Transférés sur des substrats de mica, ces films ont été visualisés par microscopie à force atomique (AFM). La
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présence de sels dans la sous-phase lors de la formation de monocouches conduit à la formation d’agrégats d’épaisseur ~ 10 nm dont le diamètre augmente avec la concentration en sel.
Enfin, le dernier objectif est de caractériser les propriétés en solutions de copolymères à blocs PIPOZ-b-PEG-b-PIPOZ. La polymérisation par CROP de la 2-isopropyl-2-oxazoline a été amorcée à partir d’un PEG (Mn = 2 kg.mol-1) bifonctionnel, Le polymère synthétisé (TrOH, Mn = 11 kg.mol-1) a ensuite subit une fonctionnalisation des extrémités de chaînes par des groupements octadécyles conduisant à l’obtention d’un copolymère à blocs téléchélique amphiphile et thermosensible (TrC18). Les propriétés des copolymères en solution aqueuse ont été étudiées par turbidimétrie, diffusion dynamique de la lumière (DLS), microcalorimétrie (DSC), microscopie électronique à transmission et spectroscopie à sonde fluorescente, FT-IR et AFM. Les deux copolymères sont thermosensibles et présentent des valeurs de points troubles de ~ 48 °C pour le copolymère TrOH et de ~ 38 °C pour le copolymère amphiphile. Ce dernier s’auto-assemble à température ambiante et forme, en solution aqueuse, des micelles de type fleurs de rayon hydrodynamique RH ~ 8 nm. L’effet prolongé de la température sur la cristallisation des blocs de PIPOZ a aussi été examinée. Les deux polymères cristallisent en solution aqueuse conduisant à la formation de fibres insolubles dans l’eau.
Mots- / Poly(2-isopropyl-2-oxazoline) (PIPOZ) is a thermosensitive polymer whose lower critical solution temperature (LCST) in water is ~ 40 °C. This thesis focuses on the properties in aqueous solution and on interfaces of new poly(2-isopropyl-2-oxazoline) systems.
PIPOZ is often compared to its structural isomer, the renowned poly(N-isopropylacrylamide) (PNIPAM). If PNIPAM has been the center of thermosensitive polymer research for the last three decades, it is PIPOZ which has recently been gaining interest. The first aim of the thesis is to improve on the knowledge on PIPOZ properties in aqueous solution in the presence of water-soluble additives. Effect of salts and cosolvents were investigated by turbidimetry and microcalorimetry (DSC) on PIPOZ homopolymers of different molecular weights. Effect of salts on PIPOZ solubility follows the Hofmeister series. Chaotropic anions (SCN-, I-) induce a large increase (up to 30 °C) of the cloud point temperature of PIPOZ solution which is 10 times larger than for PNIPAM.
Adding methanol into PNIPAM aqueous solution leads to a decrease in solubility of the polymer. This phenomena is called cononsolvency. Unlike PNIPAM solutions, the addition of methanol in PIPOZ solution does not lead to a cononsolvency effect. Nevertheless, cononsolvency has been observed in the case of THF addition into PIPOZ aqueous solutions.
The second aim of this work was to design and synthesize an amphiphilic PIPOZ able to anchor itself at the air-water interface and to form stable monolayer via the Langmuir-Blodgett technique. For that purpose, a lipidic initiator containing two alkyl chains and a phosphate group, was synthesized and used to initiate the cationic ring opening polymerization (CROP) of 2-isopropyl-2-oxazoline. The obtained amphiphilic (lipo-PIPOZ, Mn = 10 kg.mol-1) forms stable monolayers at the air-water interface. The presence of salt (NaCl or NaSCN) in the sub-phase during the compression of the films leads to expansion of the monolayer even if the salts have opposite effect on PIPOZ solubility in solution. The interfacial films were then transferred onto mica substrates and captured by atomic force microscopy (AFM). The salts induced the formation of aggregates (height ~ 10 nm) whose diameter depends on the salt and its concentration.
At last, a block copolymer, TrOH, containing a central poly(ethylene glycol) (PEG) (Mn = 2 kg.mol-1) and two PIPOZ blocks was obtained by CROP of 2-isopropyl-2-oxazoline initiated
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by a bi-functionnal PEG. The total molecular weight was Mn ~ 11 kg.mol-1. Hydrophobic chain ends modification has been performed onto TrOH to bring amphiphilicity and to get a telechelic octadecyl-end capped block copolymer TrC18. The properties of these two block copolymers in water were characterized by dynamic light scattering (DLS), microcalorimetry (DSC), electronic transmission microscopy (TEM) and fluorescence spectroscopy, FT-IR and AFM. Cloud point temperature of copolymer solutions was found to be around 48 °C for TrOH and around 38°C for the amphiphilic analogue TrC18. The latter self-assembles at room temperature into flower micelles whose hydrodynamic radius is RH ~ 8 nm. Extended heating of both copolymer solutions leads to crystallization of PIPOZ block and insoluble fibers form in solution.
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