Latenciação de hidroximetilnitrofural com derivados de quitosana, potencialmente ativos em leishmaniose e doença de Chagas / Latentiation of hidroximetilnitrofural derivative chitosan, potentially active in leishmaniasis and Chagas disease

Santos, Katia Solange Cardoso Rodrigues dos

16 May 2005

Leishmaniose e doença de Chagas são parasitoses endêmicas causadas, respectivamente, pelos protozoários Leishmania spp. e Trypanosoma cruzi. Ante à escassez de quimioterápicos, à elevada toxicidade dos fármacos disponíveis e à baixa eficácia destes no combate às formas intracelulares, replicantes, dos parasitos há necessidade de buscar novas alternativas quimioterápicas. A atividade tripanomicida do hidroximetilnitrofural, base de Mannich do nitrofural, já era conhecida. O presente trabalho mostra que este derivado também apresenta atividade leishmanicida, quando ensaiado em formas promastigotas de L. amazonensis, L. chagasi e L. baziliensis. Com o objetivo de obter pró-fármacos potencialmente ativos em doença de Chagas e leishmanioses visceral e mucocutânea, planejaram-se e foram sintetizados derivados hidrossolúveis de hidroximetilnitrofural e quitosana, polissacarídeo que apresenta, também, atividade imunomoduladora. Para a aplicação tópica em leishmaniose cutânea sintetizaram-se membranas de quitosana ligada ao hidroximetilnitrofural. Membranas de quitosana copolimerizadas com enxertos de ácido acrílico e metacrilato de hidroxietila foram sintetizadas e avaliadas quanto à biocompatibilidade - trombogenicidade, citotoxicidade e potencial hemolítico. Aquelas com maior teor em metacrilato de hidroxietila não se mostraram citotóxicas, tampouco hemolíticas; aquelas com maior proporção em ácido acrílico, por sua vez, apresentaram excelentes características de intumescimento, mas certo grau de citotoxicidade e hemólise, possivelmente devido à presença de monômeros que não reagiram no material. A ligação do hidroximetilnitrofural à quitosana, por meio de espaçante succínico, produziu prófármaco com propriedades filmogênicas para a aplicação tópica. Os derivados obtidos pró-fármacos e transportadores (quitosanas modificadas) - foram analisados no infravermelho, por ressonância magnética nuclear (RMN 1H e RMN 13C) e por análise térmica - OMTA, TG, OSC. Ensaios de atividade tripanomicida e leishmanicida dos pró-fármacos poliméricos e membranas serão posteriormente efetuados. / Leishmaniasis and Chagas\' disease are endemic parasitosis provoked by the protozoa Leishmania spp and Trypanosoma cruzi, respectively. Due to the scarce chemotherapy, to the high toxicity of the available drugs and to their low effectiveness, mainly in the treatment of intracellular replicant forms of those parasites, the search for new chemotherapeutic alternatives is extremely important. Hydroxymethylnitrofurazone, a nitrofurazone Mannich basis, has proven to be active against trypanomicide before and its activity in cultures of L. amazonensis, L. chagasi and L. braziliensis promastigotes was determined in this work. With the purpose of obtaining prodrugs potentially active in Chagas\' disease and visceral and mucocutaneous leishmaniases, hydrosoluble hydroxymethylnitrofurazone prodrugs have been designed and synthesized using chitosan, a polysaccharide showing immunomudulatory activity, as the carrier. Membranes from chitosan linked with hydroxymethylnitrofurazone have been synthesized for topical administration in cutaneous leishmaniasis. Membranes were obtained by graft copolymerization of hydroxyethy/methacrylate and acrylic acid onto chitosan and their biocompatibility - trombogenicity, citotoxicity and hemolysis potential - was evaluated. Those membranes with higher content of hydroxyethylmethacrylate showed to be neither cytotoxic nor hemolytic; those with higher content of acrylic acid showed good swelling properties, although a certain level of cytotoxicity and haemolysis has been detected, due to the presence of non-reacted monomers. The linkage of hydroxymethylnitrofurazone to chitosan by a succinyl spacer group led to a prodrug with filmogenic properties for topic administration. The derivatives obtained - prodrugs and carriers (modified chitosans) - were analyzed by infrared, nuclear magnetic resonance (1H NMR and 13C NMR) and by thermal analysis - DMTA, TG and DSC. Tests of trypanomicide and leishmanicide activity with polymer prodrugs and membranes will be further developed.

Chagas disease (Chemotherapy)

Chitosan

Doença de Chagas (Quimioterapia)

Doenças parasitárias (Quimioterapia)

Drugs planning

Hidroximetilnitrofural

hydroxymethylnitrofurazone

Leishmaniasis

Leishmaniose

Parasitic diseases (Chemotherapy)

Planejamento de fármacos

Polímeros sintéticos (Quimioterapia)

Pró-Fármaco

Prodrugs

Quitosana

Síntese

Synthesis

Synthetic polymers (Chemotherapy)

Latenciação de hidroximetilnitrofural com derivados de quitosana, potencialmente ativos em leishmaniose e doença de Chagas / Latentiation of hidroximetilnitrofural derivative chitosan, potentially active in leishmaniasis and Chagas disease

Katia Solange Cardoso Rodrigues dos Santos

16 May 2005

Leishmaniose e doença de Chagas são parasitoses endêmicas causadas, respectivamente, pelos protozoários Leishmania spp. e Trypanosoma cruzi. Ante à escassez de quimioterápicos, à elevada toxicidade dos fármacos disponíveis e à baixa eficácia destes no combate às formas intracelulares, replicantes, dos parasitos há necessidade de buscar novas alternativas quimioterápicas. A atividade tripanomicida do hidroximetilnitrofural, base de Mannich do nitrofural, já era conhecida. O presente trabalho mostra que este derivado também apresenta atividade leishmanicida, quando ensaiado em formas promastigotas de L. amazonensis, L. chagasi e L. baziliensis. Com o objetivo de obter pró-fármacos potencialmente ativos em doença de Chagas e leishmanioses visceral e mucocutânea, planejaram-se e foram sintetizados derivados hidrossolúveis de hidroximetilnitrofural e quitosana, polissacarídeo que apresenta, também, atividade imunomoduladora. Para a aplicação tópica em leishmaniose cutânea sintetizaram-se membranas de quitosana ligada ao hidroximetilnitrofural. Membranas de quitosana copolimerizadas com enxertos de ácido acrílico e metacrilato de hidroxietila foram sintetizadas e avaliadas quanto à biocompatibilidade - trombogenicidade, citotoxicidade e potencial hemolítico. Aquelas com maior teor em metacrilato de hidroxietila não se mostraram citotóxicas, tampouco hemolíticas; aquelas com maior proporção em ácido acrílico, por sua vez, apresentaram excelentes características de intumescimento, mas certo grau de citotoxicidade e hemólise, possivelmente devido à presença de monômeros que não reagiram no material. A ligação do hidroximetilnitrofural à quitosana, por meio de espaçante succínico, produziu prófármaco com propriedades filmogênicas para a aplicação tópica. Os derivados obtidos pró-fármacos e transportadores (quitosanas modificadas) - foram analisados no infravermelho, por ressonância magnética nuclear (RMN 1H e RMN 13C) e por análise térmica - OMTA, TG, OSC. Ensaios de atividade tripanomicida e leishmanicida dos pró-fármacos poliméricos e membranas serão posteriormente efetuados. / Leishmaniasis and Chagas\' disease are endemic parasitosis provoked by the protozoa Leishmania spp and Trypanosoma cruzi, respectively. Due to the scarce chemotherapy, to the high toxicity of the available drugs and to their low effectiveness, mainly in the treatment of intracellular replicant forms of those parasites, the search for new chemotherapeutic alternatives is extremely important. Hydroxymethylnitrofurazone, a nitrofurazone Mannich basis, has proven to be active against trypanomicide before and its activity in cultures of L. amazonensis, L. chagasi and L. braziliensis promastigotes was determined in this work. With the purpose of obtaining prodrugs potentially active in Chagas\' disease and visceral and mucocutaneous leishmaniases, hydrosoluble hydroxymethylnitrofurazone prodrugs have been designed and synthesized using chitosan, a polysaccharide showing immunomudulatory activity, as the carrier. Membranes from chitosan linked with hydroxymethylnitrofurazone have been synthesized for topical administration in cutaneous leishmaniasis. Membranes were obtained by graft copolymerization of hydroxyethy/methacrylate and acrylic acid onto chitosan and their biocompatibility - trombogenicity, citotoxicity and hemolysis potential - was evaluated. Those membranes with higher content of hydroxyethylmethacrylate showed to be neither cytotoxic nor hemolytic; those with higher content of acrylic acid showed good swelling properties, although a certain level of cytotoxicity and haemolysis has been detected, due to the presence of non-reacted monomers. The linkage of hydroxymethylnitrofurazone to chitosan by a succinyl spacer group led to a prodrug with filmogenic properties for topic administration. The derivatives obtained - prodrugs and carriers (modified chitosans) - were analyzed by infrared, nuclear magnetic resonance (1H NMR and 13C NMR) and by thermal analysis - DMTA, TG and DSC. Tests of trypanomicide and leishmanicide activity with polymer prodrugs and membranes will be further developed.

Doença de Chagas (Quimioterapia)

Doenças parasitárias (Quimioterapia)

Hidroximetilnitrofural

Leishmaniose

Planejamento de fármacos

Polímeros sintéticos (Quimioterapia)

Pró-Fármaco

Quitosana

Síntese

Chagas disease (Chemotherapy)

Chitosan

Drugs planning

hydroxymethylnitrofurazone

Leishmaniasis

Parasitic diseases (Chemotherapy)

Prodrugs

Synthesis

Synthetic polymers (Chemotherapy)

Approche multidimensionnelle en spectrométrie de masse MALDI pour la caractérisation des polymères synthétiques / Multidimensional approach in MALDI mass spectrometry to characterize synthetic polymers synthesized by controlled radical polymerization

Chendo, Christophe

15 December 2016

Ce mémoire de thèse décrit des développements de méthodes MALDI-MS pour la caractérisation de polymères synthétiques, ainsi que les études plus fondamentales menées pour rationaliser des résultats inattendus et contribuant à une meilleure compréhension du processus d’ionisation MALDI. Synthétisés par polymérisation radicalaire contrôlée, les polymères étudiés ont des terminaisons fragiles qui ne survivent pas à l’étape d’ionisation. Une approche multidimensionnelle, combinant la spectrométrie de masse (MS et MS/MS haute résolution) et la spectrométrie de mobilité ionique, a permis de caractériser les nouveaux bouts de chaînes générés en source dans le cas du polystyrène. Dans le cas du poly(4-vinylpyridine) (P4VP), un protocole expérimental plus spécifique a dû être développé pour s’affranchir de la propension des unités monomériques à interagir avec la matrice. Ces fortes interactions se manifestent par la détection de complexes P4VP/matrice au sein desquels la nature des liaisons (covalentes vs non covalentes) change en fonction de la pression régnant dans la source MALDI. Dans une source opérant à une pression relativement élevée, ces interactions sont à l’origine de l’incorporation d’une molécule de matrice au bout des chaînes de P4VP. Ce cas de MALDI réactif a été rationalisé par un modèle basé sur un couplage radicalaire. Dans cette source d’ionisation, la forte densité de la plume MALDI serait également à l’origine de la production atypique d’espèces doublement chargées à partir de polymères synthétiques de faible taille (Mn < 5 kDa). Ces résultats suggèrent que la cationisation des polymères synthétiques en MALDI résulte de transferts de charges en phase gazeuse. / This thesis manuscript describes methodological developments in MALDI-MS to characterize synthetic polymers, as well as associated fundamental studies carried out to rationalize unexpected results, allowing new insights in the MALDI process. Studied samples were synthesized by controlled radical polymerization and contained fragile end-groups that do not survive the ionization step. A multidimensional approach, combining high resolution mass spectrometry (MS and MS/MS) with ion mobility spectrometry, allowed a full characterization of in-source newly formed terminations in the case of polystyrene. For poly(4-vinylpyridine), a more specific experimental protocol was required to overcome the propensity of monomeric units to interact with matrix molecules. These strong interactions were revealed by P4VP/matrix complexes in which the type of bonds (covalent vs non covalent) changes with the MALDI source pressure. Using a source operated at quite high pressure, a reactive MALDI phenomenon was evidenced to generate a new P4VP species in which one matrix molecule was incorporated in the chain end. A model involving a radical coupling process was proposed to account for the formation of these covalent adducts. The high density of the MALDI plume in such "high pressure" source would also be responsible for the unexpected formation of doubly charged species for small synthetic polymers (Mn < 5 kDa). These results are consistent with charge transfers in the gas phase as the process for cation adduction of synthetic polymers in MALDI.

Spectrométrie de masse

Maldi

Polymères synthétiques

Polymérisation radicalaire contrôlée

Ms/ms

Spectrométrie de mobilité ionique

MALDI réactif

Préparation des échantillons

Mass spectrometry

Maldi

Synthetic polymers

Controlled radical polymerization

Ms/ms

Ion mobility spectrometry

Reactive MALDI

Sample preparation

AN UNDERSTANDING OF MUSSEL ADHESION TO INFLUENCE MATERIALS DEVELOPMENT

Samuel L Huntington (8983913)

12 October 2021

<p>The development of new materials has been inspired by lessons learned from natural systems. In the area of underwater adhesion and adhesives, inspiration has come from the complex protein adhesives generated by marine organism such as barnacle and mussels. These protein systems have a high incorporation of a unique amino acid, dihydroxyphenylalanine, and provides the unique adhesive qualities synthetic systems strive to emulate.</p> <p>By understanding how marine mussels stick to a variety of surfaces, new strategies can be explored for preventing the adhesion of biological organisms to various substrates. A continuous concern for marine vessels is the detrimental impact caused by biofouling on the hull of the ship. Fuel consumption can increase as the vessel’s drag increasing fuel consumption and non-native species can be introduced into new environments. Taking inspiration from catechol curing, new oxidative surfaces were investigated as potential antifouling coatings.</p> <p>Further insight into the marine mussels ability to apply and cure its adhesive on a variety of substrate has also inspired various synthetic polymers. The catechol moiety can be incorporated into a polymer backbone to give a new solvent based adhesive. Further investigation of the poly(styrene-co-(3,4-dihydroxystyrene)) adhesive system was done to formulate an underwater adhesive for unique use cases. A terpolymer was also explored as an ideal adhesive taking inspiration from the mussels by incorporating flexible, stiff, and sticky components to give a tunable adhesive.</p> <p>Having a strong bonding synthetic adhesive that can be used on a laboratory scale is good for academic investigation, but not of use outside the lab if it cannot easily be produced on a commercial scale. With the goal of large scale synthesis, a new polymerization method was introduced addressing some of the issues currently preventing commercial scale production.</p><br>

Bioinorganic Chemistry

Chemical Characterisation of Materials

Polymerisation Mechanisms

Industrial Chemistry

Underwater Adhesion

Underwater Adhesive

bio-inspired materials

Biomimicry

Synthetic Polymers

Formulation

Mussel Adhesion

Catechol Groups

Lämpliga material för textila kärlimplantat : Kartläggning av kliniskt dokumenterade alternativ

Ljungberg, Ida, Martvall, Amanda

January 2020

En tredjedel av alla bypass-operationer leder till att kärlimplantaten slutar fungerar inom ettårs tid. En anledning till detta är bildandet av ogynnsam vävnad som sker i form av ärrbildning efter implantationen. Ärrvävnaden orsakar nya förträngningar vilket leder till ett försämrat blodflöde. Kärlimplantatet Y-graft har genom sin design som följer Murray´s lag, en naturlig blodflödesfördelning. Designen i form av ett Y har kunnat bekräftas vara fördelaktig då geometrin vid utflödet minskar risken för ärrbildning. Vad som saknas för att Y-graft ska kunna komma ut på marknaden är ett lämpligt material. Med detta som bakgrund uppkom syftet med litteraturstudien att undersöka vilka material meddokumenterad klinisk historik som är möjliga att använda vid textil tillverkning av Y-graft. Genom en gedigen litteratursökning med hjälp av sökverktyg som U.S. Food and Drug Administration (FDA) tillsammans med andra databaser inom de medicinska och materialtekniska områdena, har en förståelse skapats kring vilka material som används i medicintekniska produkter och som är möjliga kandidater till Y-graft. Litteraturstudien resulterade i att materialen polyetentereftalat, polybutentereftalat, polybutester polytetrafluoreten, polyester-, polyeter- och polykarbonatbaserade polyuretaner samt polypropen, polyeten, alfatisk polyamid och silke finns i godkända medicintekniska produkter på den amerikanska marknaden. De presenterade materialen har på så visdokumenterad klinisk historik och är lämpliga kandidater att använda vid textil tillverkning av Y-graft. De godkända materialkandidaterna som presenteras kan även beläggas medbiologiska polymerer för förbättrad biokompatibilitet. Materialkandidaterna har godkänts i medicintekniska produkter av U.S. Food and Drug Administration (FDA). Genom godkännandet har alla de presenterade materialen dokumenterad klinisk historik och är där med lämpliga kandidater att använda vid textiltillverkning av Y-graft. / One third of all bypass surgeries causes vascular implants to stop working within a year. A reason for this is the formation of unfavorable tissue that occurs in the form of scarring after implantation. The scar tissue causes new constrictions, which leads to impaired blood flow. The vascular implant Y-graft, by design follows Murray's law and therefore has a natural blood flow distribution. The design in the form of a Y has been confirmed to be advantageous. The Y geometry at the outflow reduces the risk of scarring. What is missing for Y-graft to be able to enter the market is a suitable material. With this as a background, the purpose of the literature study was to investigate which materials with documented clinical history can be used in textile production of Y-graft. Through a thorough literature search, using search tools like the U.S. Food and Drug Administration (FDA) together with other databases in the medical and material engineering fields, an understanding has been created about which materials are used in medical technology products and which are potential candidates for Y-graft. The literature study concluded that the materials polyethylene terephthalate, polybutheneterephthalate, polybutester polytetrafluoroethylene are found in approved medical technology products in the United States. Polyester, polyether and polycarbonate based polyurethanes and polypropylene, polyethylene, alphatic polyamide and silk are also found in the United States medical market. These presented materials thus have documented clinical history and are suitable candidates for use in textile manufacturing of Y-graft. The approved material candidates presented can also be coated with biological polymers for improved biocompatibility. The material candidates have been approved in medical technology products by the U.S. Food and Drug Administration (FDA). With this approval, all the presented materials have documented clinical history and are therefore suitable candidates to use when manufacturing Y-graft.

blood vessels

biocompatibility

FDA

compliance

vascular implants

synthetic polymers

U.S. Food and Drug Administration

Y-graft

blodkärl

biokompatibilitet

FDA

komplians

kärlimplantat

syntetiska polymerer

U.S. Food and Drug Administration

Y-graft

Engineering and Technology

Teknik och teknologier

Química da parte úmida em processo de fabricação de papel - interações em interfaces sólido-líquido. / Wet end chemistry in papermaking - interactions in solid-liquid interfaces.

Silva, Deusanilde de Jesus

02 March 2010

Um polieletrólito catiônico (poliamina), com baixo peso molecular e elevada densidade de carga, normalmente aplicado como agente coagulante do lixo aniônico, foi usado para estudos de retenção e drenagem na fabricação de papel. O uso do carboximentil celulose de sódio para simulação do teor de lixo aniônico e seu efeito na retenção de cargas minerais foi uma característica importante para este trabalho. Pode ser observado que o aumento da dosagem do polímero catiônico tanto melhora a retenção de cargas minerais, avaliada pela turbidez do filtrado, quanto melhora a drenagem do sistema, avaliada pela velocidade de escoamento. Entretanto, elevadas dosagens deste polímero comprometeram os resultados destes parâmetros devido à inversão de carga do sistema. Pode também ser confirmado que forças de cisalhamento excessivas prejudicam a retenção de cargas minerais. Ademais, um polianfótero, com peso molecular e densidade de carga elevados, contendo grupos positivo (N-[3-(N,N-dimetilamino)propil]acrilamida), negativo (ácido metileno butanodióico) e nulo (acrilamida) na mesma cadeia, foi testado como agente de resistência a seco do papel. Todos os estudos em nível molecular sobre o comportamento do polianfótero em solução e o seu comportamento de adsorção sobre superfícies modelos carregadas, em diferentes condições de pH e de força iônica, foram importantes para explicar tanto dos fenômenos de adsorção, envolvendo fibras celulósicas e polianfótero, quanto o seu efeito na resistência mecânica do papel. Foi observado que a solubilidade do polímero aumenta à medida que o pH se distancia do seu ponto isoelétrico, pHPIE 7,3, e reduz para valores de pH próximos ao pHPIE. O tamanho das estruturas do polianfótero depende do pH do meio de dispersão. As características de tamanho do polianfótero tanto sob a forma de cadeias individuais ou quanto sob a forma de agregados, foram medidas através da técnica de espalhamento dinâmico de luz. As propriedades viscoelásticas das camadas adsorvidas e a quantidade de polímero adsorvida foram medidas através da técnica da balança microgravimétrica com dissipação de energia. Estas duas determinações, associadas às imagens no microscópio de força atômica, foram importantes para o entendimento dos resultados práticos do uso do polianfótero como agente de resistência a seco do papel. Maiores resultados de resistência do papel, avaliada através da resistência à tração, foram alcançados para valores de pH próximos ao ponto isoelétrico onde foram encontrados o seguinte: (1) maiores tamanhos para as estruturas do polímero em solução, (2) maior quantidade de massa nas camadas adsorvidas e (3) a formação de camadas mais viscoelásticas. O fenômeno de separação de fases, associado à mudança da solubilidade do polímero em solução devido ao balanço dos grupos positivos e negativos ionizados ao longo da faixa de pH estudada, foi considerado o principal aspecto para a variação em tamanho dos agregados. Embora este polímero tenha apresentado comportamento antipolieletrólito devido à expansão da sua cadeia e ao aumento da densidade de carga com o aumento da força iônica, considerando o efeito da força iônica para pH 4,3, o comportamento de adsorção do polianfótero foi avaliado como o comportamento de um polieletrólito monocarregado de alta densidade de carga. Maiores e menores quantidades de massas adsorvidas foram encontradas para valores intermediários e extremos de força iônica, respectivamente. As interações eletrostáticas foram consideradas as principais responsáveis pela adsorção do polímero sobre superfícies carregadas. Entretanto, a blindagem de cargas foi considerada a explicação para os baixos valores de massa adsorvida para valores mais elevados de força iônica. / A cationic polyelectrolyte (polyamine), with low molecular weight and high charge density, usually applied as anionic trash coagulant, was used for the retention and drainage studies in the papermaking. The use of sodium carboxymethyl cellulose to simulate the anionic trash content and its effect on the filler retention was an important feature of the work. It could be noted that the increasing of the cationic polymer dosage improves both the filler retention, evaluated by the turbidity of the filtrate, and the system drainage, evaluated by the flow speed. However, high dosages of this polymer compromised the results of these parameters due to the reversal of the system charge. It can also be confirmed that excessive shear forces affect the filler retention. Furthermore, a polyampholyte, with high molecular weight and charge density, containing positive (N-[3-(N,N- dimethylamino)propyl]acrylamide), negative (methylene butanedioic acid), and neutral (acrylamide) groups in the same chain, was tested as a dry strength agent. All of the studies at molecular level concerning to the polyampholyte behavior in the solution and its adsorption behavior on charged model surfaces at different conditions of pH and ionic strength, were important to explain both the adsorption phenomena, involving cellulosic fibers and polyampholyte, and its impact on the paper strength. It was observed that the polymer solubility increases as the pH moves away from its isoelectric point, pHIEP 7.3, and decreases when the pH approaches close to pHIEP. The sizes of the structures of the polyampholytes depend on the pH of the dispersion medium. Also the size characteristics of polyampholyte, both in individual and aggregated forms, were measured by dynamic light scattering technique. The viscoelastic properties of adsorbed layers, as well as the amount of the adsorbed polymer, were measured by quartz crystal microbalance technique with energy dissipation. These two measurements, associated with the atomic force microscopy images, were important to understand the practical results of polyampholyte usage as a dry strength agent. Best results of paper strength, evaluated by paper strength index, were achieved at pH close to the isoelectric point on which one were found the following features: (1) larger sizes of the polymer structures in solution, (2) higher amount of mass in the adsorbed layers, and (3) the formation of more viscoelastic layers. The phase separation phenomenon, associated with the change in the solubility of the polymer due to the balance of the positive and negative groups throughout the studied pH range, was considered the main aspect for the variation in size of the aggregates. Although this polymer shows antipolyelectrolyte behavior due to the expansion of the its chain and the increasing in charge density with the ionic strength, considering the effect of ionic strength at pH 4.3, the adsorption behavior of polyampholyte was evaluated as a monocharged polyelectrolyte behavior with high charge density. Major and minor amounts of adsorbed masses were found for intermediates and extremes values of ionic strength, respectively. The electrostatic interactions were considered the main cause of the adsorption on charged surfaces. However, the electrostatic screening was considered the explanation for the low values of adsorbed mass at higher values of ionic strength.

Agente de resistência a seco do papel

Atomic force microscopy

Colloidal chemistry

Dynamic light scattering

Electrostatic interactions

Espalhamento dinâmico de luz

Interações eletrostáticas

Microscopia de força atômica

Nanotechnology

Nanotecnologia

Paper dry strength agent

Polianfótero

Polieletrólito

Polímeros sintéticos

Polyampholyte

Polyelectrolyte

Química coloidal

Retenção e drenagem

Retention and drainage

Synthetic polymers

Química da parte úmida em processo de fabricação de papel - interações em interfaces sólido-líquido. / Wet end chemistry in papermaking - interactions in solid-liquid interfaces.

Deusanilde de Jesus Silva

02 March 2010

Um polieletrólito catiônico (poliamina), com baixo peso molecular e elevada densidade de carga, normalmente aplicado como agente coagulante do lixo aniônico, foi usado para estudos de retenção e drenagem na fabricação de papel. O uso do carboximentil celulose de sódio para simulação do teor de lixo aniônico e seu efeito na retenção de cargas minerais foi uma característica importante para este trabalho. Pode ser observado que o aumento da dosagem do polímero catiônico tanto melhora a retenção de cargas minerais, avaliada pela turbidez do filtrado, quanto melhora a drenagem do sistema, avaliada pela velocidade de escoamento. Entretanto, elevadas dosagens deste polímero comprometeram os resultados destes parâmetros devido à inversão de carga do sistema. Pode também ser confirmado que forças de cisalhamento excessivas prejudicam a retenção de cargas minerais. Ademais, um polianfótero, com peso molecular e densidade de carga elevados, contendo grupos positivo (N-[3-(N,N-dimetilamino)propil]acrilamida), negativo (ácido metileno butanodióico) e nulo (acrilamida) na mesma cadeia, foi testado como agente de resistência a seco do papel. Todos os estudos em nível molecular sobre o comportamento do polianfótero em solução e o seu comportamento de adsorção sobre superfícies modelos carregadas, em diferentes condições de pH e de força iônica, foram importantes para explicar tanto dos fenômenos de adsorção, envolvendo fibras celulósicas e polianfótero, quanto o seu efeito na resistência mecânica do papel. Foi observado que a solubilidade do polímero aumenta à medida que o pH se distancia do seu ponto isoelétrico, pHPIE 7,3, e reduz para valores de pH próximos ao pHPIE. O tamanho das estruturas do polianfótero depende do pH do meio de dispersão. As características de tamanho do polianfótero tanto sob a forma de cadeias individuais ou quanto sob a forma de agregados, foram medidas através da técnica de espalhamento dinâmico de luz. As propriedades viscoelásticas das camadas adsorvidas e a quantidade de polímero adsorvida foram medidas através da técnica da balança microgravimétrica com dissipação de energia. Estas duas determinações, associadas às imagens no microscópio de força atômica, foram importantes para o entendimento dos resultados práticos do uso do polianfótero como agente de resistência a seco do papel. Maiores resultados de resistência do papel, avaliada através da resistência à tração, foram alcançados para valores de pH próximos ao ponto isoelétrico onde foram encontrados o seguinte: (1) maiores tamanhos para as estruturas do polímero em solução, (2) maior quantidade de massa nas camadas adsorvidas e (3) a formação de camadas mais viscoelásticas. O fenômeno de separação de fases, associado à mudança da solubilidade do polímero em solução devido ao balanço dos grupos positivos e negativos ionizados ao longo da faixa de pH estudada, foi considerado o principal aspecto para a variação em tamanho dos agregados. Embora este polímero tenha apresentado comportamento antipolieletrólito devido à expansão da sua cadeia e ao aumento da densidade de carga com o aumento da força iônica, considerando o efeito da força iônica para pH 4,3, o comportamento de adsorção do polianfótero foi avaliado como o comportamento de um polieletrólito monocarregado de alta densidade de carga. Maiores e menores quantidades de massas adsorvidas foram encontradas para valores intermediários e extremos de força iônica, respectivamente. As interações eletrostáticas foram consideradas as principais responsáveis pela adsorção do polímero sobre superfícies carregadas. Entretanto, a blindagem de cargas foi considerada a explicação para os baixos valores de massa adsorvida para valores mais elevados de força iônica. / A cationic polyelectrolyte (polyamine), with low molecular weight and high charge density, usually applied as anionic trash coagulant, was used for the retention and drainage studies in the papermaking. The use of sodium carboxymethyl cellulose to simulate the anionic trash content and its effect on the filler retention was an important feature of the work. It could be noted that the increasing of the cationic polymer dosage improves both the filler retention, evaluated by the turbidity of the filtrate, and the system drainage, evaluated by the flow speed. However, high dosages of this polymer compromised the results of these parameters due to the reversal of the system charge. It can also be confirmed that excessive shear forces affect the filler retention. Furthermore, a polyampholyte, with high molecular weight and charge density, containing positive (N-[3-(N,N- dimethylamino)propyl]acrylamide), negative (methylene butanedioic acid), and neutral (acrylamide) groups in the same chain, was tested as a dry strength agent. All of the studies at molecular level concerning to the polyampholyte behavior in the solution and its adsorption behavior on charged model surfaces at different conditions of pH and ionic strength, were important to explain both the adsorption phenomena, involving cellulosic fibers and polyampholyte, and its impact on the paper strength. It was observed that the polymer solubility increases as the pH moves away from its isoelectric point, pHIEP 7.3, and decreases when the pH approaches close to pHIEP. The sizes of the structures of the polyampholytes depend on the pH of the dispersion medium. Also the size characteristics of polyampholyte, both in individual and aggregated forms, were measured by dynamic light scattering technique. The viscoelastic properties of adsorbed layers, as well as the amount of the adsorbed polymer, were measured by quartz crystal microbalance technique with energy dissipation. These two measurements, associated with the atomic force microscopy images, were important to understand the practical results of polyampholyte usage as a dry strength agent. Best results of paper strength, evaluated by paper strength index, were achieved at pH close to the isoelectric point on which one were found the following features: (1) larger sizes of the polymer structures in solution, (2) higher amount of mass in the adsorbed layers, and (3) the formation of more viscoelastic layers. The phase separation phenomenon, associated with the change in the solubility of the polymer due to the balance of the positive and negative groups throughout the studied pH range, was considered the main aspect for the variation in size of the aggregates. Although this polymer shows antipolyelectrolyte behavior due to the expansion of the its chain and the increasing in charge density with the ionic strength, considering the effect of ionic strength at pH 4.3, the adsorption behavior of polyampholyte was evaluated as a monocharged polyelectrolyte behavior with high charge density. Major and minor amounts of adsorbed masses were found for intermediates and extremes values of ionic strength, respectively. The electrostatic interactions were considered the main cause of the adsorption on charged surfaces. However, the electrostatic screening was considered the explanation for the low values of adsorbed mass at higher values of ionic strength.

Agente de resistência a seco do papel

Espalhamento dinâmico de luz

Interações eletrostáticas

Microscopia de força atômica

Nanotecnologia

Polianfótero

Polieletrólito

Polímeros sintéticos

Química coloidal

Retenção e drenagem

Atomic force microscopy

Colloidal chemistry

Dynamic light scattering

Electrostatic interactions

Nanotechnology

Paper dry strength agent

Polyampholyte

Polyelectrolyte

Retention and drainage

Synthetic polymers

Biocompatible polymer coatings for implants in the peripheral nervous system : in vivo study of polymer-coated microbeads in the rat sciatic model

Cheung, Vincent W.

08 1900

Introduction: Les implants dans le système nerveux périphérique (SNP) peuvent potentiellement restaurer les capacités sensorielles et motrices chez les patients avec des amputations des membres supérieures. Cependant, la réaction à un corps étrangers affecte significativement la fonction à long-terme et la biocompatibilité de ces systèmes avec le temps. Le dendrimère (DND) et la Poly-D-Lysine (PDL) sont deux polymères synthétiques qui peuvent potentiellement améliorer la performance de ces implants. Pour cette étude, notre objectif est de déterminer si ces polymères peuvent promouvoir la formation d’éléments présynaptiques sur des surfaces synthétiques in vivo dans un modèle animal. Méthodes: Pour l’étude in vivo, nous avons utilisé un modèle d’écrasement du nerf sciatique chez le rat. Des billes enduites de DND et PDL et contrôle ont été injectées dans le nerf sciatique aux sites d’écrasement et 5 mm distaux au site d’écrasement. Après 4, 6 et 8 semaines, les nerfs ont été retirés et marqués avec des anticorps spécifiques au neurofilament et à la synaptophysine. Nous avons ensuite compté le nombre d’éléments présynaptiques retrouvant sur la surface de chaque bille pour toutes les conditions. Pour l’étude de l’électrode, deux électrodes ont été implantées dans le nerf sciatique du rat. Nous avons ensuite effectué des enregistrements nerveux à chaque semaine, et le potentiel d’action dans le nerf a été mesuré en variant uniquement la largeur de l’impulsion. Résultats: L’étude in vivo a démontré que les billes enduites de DND pouvaient promouvoir une accumulation significative de synaptophysine sur leurs surfaces comparé aux billes contrôles de 4 à 8 semaines. À 4 semaines, les billes dans la condition DND avaient également une accumulation de synaptophysine significativement supérieure à celles dans la condition PDL pour le site distal à l’écrasement. L’étude de l’électrode a démontré que les deux électrodes pouvaient stimuler et acquérir des signaux nerveux du nerf sciatique jusqu’à 1 et 2 semaines respectivement avant de ne plus fonctionner. Conclusion: Les résultats de notre étude suggèrent que DND possède une propriété à promouvoir la synaptogenèse qui est supérieure à PDL in vivo et que notre modèle d’électrode peut être utilisé pour évaluer la stabilité du signal des implants SNP. / Background: Implants in the peripheral nervous system (PNS) can potentially restore sensory feedback, improve motor control and alleviate phantom-limb pain in upper-limb amputees. However, nervous system implants have poor long-term function and biocompatibility when implanted into the body due to foreign body reaction. Dendrimer (DND) and Poly-D-Lysine (PDL) are two synthetic polymers with properties that could improve the performance of these interfaces. In my masters’ research, my objective is to determine whether these synthetic polymers could promote the formation of presynaptic elements on artificial surfaces in vivo making intraneural implants more biocompatible and long-lasting. Methods: In the coated microsphere in vivo experiment, a nerve crush injury model in the rat was used for the study. PDL-coated, DND-coated and uncoated beads were injected into the rat sciatic nerve at the crush site and 5 mm distal to the crush site. The nerves were then harvested after 4, 6 and 8 weeks and stained for neurofilament and synaptophysin. Synaptophysin puncta were then counted on the bead surface for each group. Additionally, in a proof-of-concept experiment, two uncoated electrodes were implanted into the rat sciatic nerve. Nerve recordings were then performed every week, and the threshold nerve potential in the sciatic nerve was measured by only varying the pulse duration of the stimulation. Results: The coated microsphere in vivo experiment demonstrated that DND-coated microspheres had a significantly higher number of synaptophysin puncta around their surface from 4 to 8 weeks compared to uncoated beads. At 4 weeks, the DND condition also showed a significantly higher number of synaptophysin puncta around its microbeads vs. the PDL condition for the distal site. In the uncoated electrode in vivo experiment, the results showed that the two implants could stimulate and record threshold nerve potentials in the rat sciatic nerve for one week and two weeks respectively before being non-functional. Conclusion: Our study showed for the first time that DND has a stable synapse-promoting property that is superior to PDL in vivo and that our electrode design can be used to assess the long-term signal stability of peripheral nerve implants.

Polymères synthétiques

Dendrimères

Réaction à corps étranger

Synaptophysine

Écrasement nerveux

Amputés

Lésions nerveuses périphériques

Électrodes

Lysine

Microsphères

Synthetic Polymers

Dendrimers

Foreign Body Reaction

Microspheres

Synaptophysin

Nerve Crush

Amputees

Peripheral Nervous Injuries

Intraneural Electrodes