INVESTIGATIONS TOWARDS THE PREPARATION OF PHOTORESPONSIVE POLYMERS BASED ON PHOTOCLEAVABLE TELLURIUM-CONTAINING CROSS-LINKS

Gendy, Chris

10 1900

<p>The goal of this research project is to synthesize, characterize, and examine the properties of a material that undergoes a decrease in refractive index upon exposure to light. It is anticipated that such photoresponses could elicit previously unknown nonlinear phenomena including self-trapped black beams. An appropriate material for these investigations would be a polymer cross-linked by photocleavable groups causing a Δ<em>n</em> < 0. Organo-ditellurides, molecules that contain a Te-Te bond, would be appropriate for the crosslinks as their σ*_Te-Te ← n_Te transition usually absorbs light between 400 and 500 nm, and can lead to photodissociation of the chalcogen-chalcogen bond.</p> <p>Initial attempts to directly functionalize a polymer (polystyrene) resulted in intractable solids. A more promising approach relies on the preparation of cross-linking agents followed by co-polymerization. Despite literature claims, to date, there is no structurally authenticated photoresponsive molecule that simultaneously contains vinyl (CH=CH) and telluride (-Te-) functional groups. The work in this thesis has yielded what would be the first example, in addition to a crystal structure obtained by X-ray diffraction, the compound has been characterized by multinuclear NMR (¹H, ¹³C, ¹²⁵Te) and vibrational spectroscopy with the support of DFT calculations.</p> / Master of Science (MSc)

tellurium compounds

functionalized polymers

photocleavable molecules

polymer cross-linkers

photorefractive materials

main group chemistry

photosensitive materials

multinuclear NMR

Inorganic Chemistry

Materials Chemistry

Polymer Chemistry

Inorganic Chemistry

Lichtinduzierte Generierung von optisch anisotropen Filmen auf der Basis von multi-funktionalen Polymeren

Rosenhauer, Regina

January 2004

Gegenstand der Arbeit ist die lichtinduzierte Orientierung von multifunktionalen Polymeren, die u.a. für die Herstellung von optischen Schichten in Flüssigkristalldisplays verwendet werden können. Dafür wurden Polymere entwickelt, die wenigstens eine mesogene und eine lichtsensitive Gruppe enthalten. Diese Gruppen zeigen Eigenschaften, die für die Orientierung der kompletten Polymerfilme verantwortlich sind. Das Material wird dafür zunächst in einem ersten Schritt kurz mit linear polarisiertem Licht bestrahlt, wobei richtungsabhängig eine photochemische Reaktion an der lichtsensitiven Gruppe erfolgt und dadurch ein "Orientierungskeim" gelegt wird. Durch die thermische Ausrichtung der mesogenen Gruppen an den photochemisch generierten "Orientierungskeimen" erfolgt die komplette Orientierung des Filmes in einem zweiten Schritt. Dadurch wird eine hohe optische Anisotropie erhalten. Dieses Verfahren wurde als Zwei-Stufen-Bulk-Orientierungsprozess bezeichnet. <br><br> In der vorliegenden Arbeit wurden die Photoreaktionen verschiedener lichtsensitiver Gruppen, wie z. B. Azobenzen, Stilben und Zimtsäureester und deren Orientierungsfähigkeit in flüssigkristallinen Polymeren untersucht. Der Orientierungsprozess wurde durch die Wahl geeigneter Bestrahlungsbedingungen optimiert. Die Effizienz der Orientierung wurde anhand der sich verändernden winkelabhängigen Absorptionseigenschaften und der Doppelbrechung des Materials analysiert. Es wurde gezeigt, dass eine effiziente lichtinduzierte Orientierung bei einer Vielzahl von flüssigkristallinen Polymeren realisierbar ist. So wurde z. B. erstmalig gefunden, dass durch eine Photo-Fries-Orientierung eine hohe optische Anisotropie erhalten werden kann. Außerdem wurde eine neue lichtsensitive Gruppe auf der Basis von Donor-Akzeptor-substituiertem Ethen entwickelt, die farbneutral ist und durch polarisiertes UV-Licht sowohl orientiert als auch re-orientiert werden kann. <br><br> Es wurden weiterhin Polymere entwickelt, die zusätzlich zu den photosensitiven und flüssigkristallinen Einheiten, fluoreszierende Gruppen enthalten. Die Auswahl geeigneter Fluoreszenzverbindungen erfolgte aufgrund ihrer anisometrischen Form, ihrer Ordnungsparameter in einer niedermolekularen Flüssigkristallmischung und ihrer Photostabilität. Das Orientierungsverhalten von ausgewählten Fluorophoren wurde in sechs Ter- und zwei Copolymeren untersucht. Das Prinzip der Orientierung beruht auf einer kooperativen Ausrichtung der Seitengruppen. Aus diesem Grund kommt dem Nachweis der Kooperativität in der vorliegenden Arbeit eine besondere Stellung zu. <br><br> Durch lichtinduzierte Bulk-Orientierung wurden Filme erhalten, welche durch eine richtungsabhängige Fluoreszenz und Absorption im sichtbaren- oder UV-Bereich charakterisiert sind. Die Fluoreszenz wird durch einige lichtsensitive Verbindungen komplett gelöscht. Die wahlweise erhaltenen anisotropen Filme von farbigen, fluoreszierenden oder farbneutralen Verbindungen, die zudem in kleinen Pixeln von wenigen Mikrometern orientiert werden können, eröffnen vielfältige Möglichkeiten für den Einsatz von multi-funktionalen Polymeren als optische Schichten in Flüssigkristalldisplays. / The work presents the light-induced orientation of multifunctional polymers, which can be used for the preparation of optical films in liquid crystal displays (LCDs). Polymers which contain at least one mesogenic and one photosensitive side group were developed for this approach. The side groups of the specially designed polymers show properties which allow for the orientation of the whole polymer film. Isotropic films of the polymeric material were shortly irradiated with linearly polarised light in a first step. So, a photochemical reaction on the light-sensitive group takes place and results in the generation of "orientational seeds". The complete orientation of the polymer film takes place applying a secondary thermal step which aligns the mesogenic groups near to these "orientational seeds". In this way highly anisotropic films are generated. This method was called two-step-bulk-orientation process. <br><br> The photoreaction of different light-sensitive groups, such as azobenzene, stilbene, cinnamic ester and their ability to orient liquid crystalline polymers were investigated in this thesis. The orientation process was optimised using suitable irradiation conditions. The efficiency of the orientation was analysed measuring the angular dependent absorbance and the birefringence of the material due to the ordering procedure. It was shown, that a light-induced orientation is practicable in a high amount of different liquid crystalline polymers. So, for the first time it was found, that the generation of a high optical anisotropy is achieved as result of the rearrangement of the Photo-Fries-Reaction. Moreover, a new light-sensitive group based on donor-acceptor substituted ethylene was developed, which is colourless and allow the orientation and reorientation using polarised UV light. <br><br> Moreover, polymers were developed, which contain fluorescent groups in addition to the photo-sensitive and mesogenic units. The selection of suitable fluorophores was carried out with respect to their anisometric shape, their order parameter in a low molecular liquid crystalline mixture and their photostability. The orientational behaviour of selected fluorophores in six terpolymers and in two copolymers were investigated. The principle of the ordering is based on the cooperative orientation of the side groups. In this way the verification of the cooperativity of the process plays an important role in this work. <br><br> It was shown, that films can be fabricated by means of the light-induced bulk-orientation, which is characterised by an angular selective fluorescence and absorption in the UV or visible region. The fluorescence was completely quenched by some light-sensitive groups. In this way the anisotropic films became optional coloured, fluorescent or colourless and can be patterned in small anisotropic pixels of some micrometers. So, the developed multifunctional materials and the ordering method open new possibilities for the generation of different types of optical films in LCDs.

multifunktionale Polymere

Anisotropie

Chemistry and allied sciences

Synthèse et caractérisation de verres d’oxyde d’argent : évolution sous rayonnements ionisants et structuration multi-échelle par laser femtoseconde / Synthesis and characterization of silver-containing glasses : evolution under ionizing irradiation and femtosecond laser multiscale structuring

Desmoulin, Jean-Charles

02 December 2016

Les verres de phosphates de zinc et gallium contenant de l’argent ont permis des développements originauxau travers de la structuration d’architectures photoniques multi-échelles innovantes en volume, en surfaceou sur fibre, et également à travers l’ingénierie de composition chimique du matériau. Un taux accru d’oxyded’argent permet de maximiser la quantité de paires au sein de la matrice vitreuse lors de la synthèse dumatériau. Ce dimère favorise les processus d’agrégation conduisant à la formation d’espèces lors del’interaction locale entre le verre et le laser femtoseconde infrarouge. Une étude par spectroscopie RPEmenée sur des échantillons irradiés par des sources ionisantes a permis de montrer que le débit de dose estprépondérant quant au contrôle des processus chimiques. Des centres à électron et à trou sont les espècesmajoritairement stabilisées à faible débit de dose, alors que la formation d’agrégats d’argent luminescentsintervient pour des puissances crête élevées typiques des lasers ultra-courts. Le caractère local de lastructuration par Direct Laser Writing a permis de créer des objets 3D originaux. L’analyse fine de ladistribution chimique au sein d’objets fluorescents a permis de montrer clairement une zone de déplétion enions argent au centre. Les effets de migration d’ions depuis le centre du faisceau laser vers le bord externea ainsi été mis en évidence. Le dopage des verres photosensibles par des ions europium a permis de montrerdes effets de synergie entre agrégats d’argent photo-inscrits et lanthanides trivalent. En effet, une exaltationde l’émission de luminescence de ces derniers à l’endroit des structurations laser a été mesurée. / The silver-containing phosphate glasses allowed original developments throughout the microstructuring ofarchitectures for innovative photonic in the volume, at the surface or in the fibered material. The chemicalengineering of the material plays an important role from this point of view. An increasing silver oxide ratioleads to an important quantity of pairs in the pristine glass matrix. This dimer in favor of the aggregationprocess bringing to the production of species during the interaction between the glass and the infraredfemtosecond laser. A study conducted by EPR spectroscopy on irradiated samples (ionizing sources)demonstrated that the dose rate is predominant for the control of the involved chemical process. Mainly,electron and holes are stabilized at low dose rate whereas the formation of luminescent silver clusters occursfor high peak power typical of ultra-short lasers. The Direct Laser Writing process allows local structuring ofthe matter and resulted in original tridimensional patterns. The fine chemical distribution analysis insideannular fluorescent objects clearly showed a depletion zone of the silver concentration in the center. Ionicmigration effects from the center towards the edges of the laser beam are then highlighted. The Eu3+-dopedphotosensitive glasses emphasized a synergy between photo-induced silver clusters and trivalentlanthanides. Indeed, a luminescence exaltation associated to the europium emission is measured.

Verre photosensible

Phosphate

Argent

Agrégat

Europium trivalent

Interaction lase rmatière

Laser femtoseconde

Spectroscopie vibrationnelle

Spectroscopie optique

Spectroscopie magnétique

Photosensitive glass

Phosphate

Silver

Cluster

Trivalent Europium

Laser-matter interaction

Femtosecond laser

Vibrational spectroscopy

Optical spectroscopy

Magnetic spectroscopy

661.43

From photosensitive glycopolymers to smart drug delivery systems / Des glycopolymères photosensibles aux systèmes de libération stimulable de principes actifs

Soliman, Soliman Mehawed Abdellatif

31 October 2014

Des glycopolymères greffés et dibloc, amphiphiles et photosensibles, à base de poly(acrylate d'o-nitrobenzyle) (PNBA) hydrophobe et photoclivable et de dextrane hydrophile ont été préparés avec succès en utilisant notammennt une réaction d'Huisgen (Cycloaddition Azoture-Alcyne catalysée par le Cuivre (I) - CuAAC chimie click). Dans un premier temps, la polymérisation de l'acrylate d'o-nitrobenzyle a été contrôlée avec succès grâce aux développements récents de la polymérisation radicalaire vivante par transfert d'un seul électron (SET-LRP). Nous avons alors obtenu un PNBA fonctionnalisé à son extrémitié par un brome. Ce brome a ensuite été substitué par un groupe azido. En parallèle, le dextrane a été modifié pour y introduire plusieurs fonctions alcyne (dextrane alcyne) ou une seule sur son extrémité réductrice (dextrane α-alcyne). Nous avons ensuite fait réagir ces dérivés de dextrane avec le PNBA-N3 pour obtenir respectivement les glycopolymères greffés et dibloc. Tous les glycopolymères ont été caractérisés par chromatographie d'exclusion stérique (SEC), Résonnance Magnétique Nucléaire 1H, 13C, 2D DOSY 1H et par spectrométrie FT-IR. Dans un deuxième temps, nous avons optimisé les conditions pour obtenir des nanoparticules peu disperses à partir des précédents glycopolymères. Dans certains cas, des nanoparticules ont également été obtenues en utilisant le dextrane alcyne et le PNBA-N3 dans un procédé d'émulsion/évaporation de solvant organique. La stabilité de toutes les nanoparticules vis-à-vis de solutions aqueuses de diverses forces ioniques ou d'un tensioactif compétitif a été étudiée. Enfin, l'effet de la lumière sur ces nanoparticules photosensibles a été mis en évidence à l'aide de la lampe UV. Plus précisément, nous avons pu suivre la destruction des nanoparticules par spectroscopie de fluorescence et diffusion de lumière dynamique en encapsulant le Rouge du Nil (sonde fluorescente) au sein de ces particules / Photosensitive grafted and diblock amphiphilic glycopolymers based on hydrophobic photosensitive poly(o-nitrobenzyl acrylate) (PNBA) and hydrophilic dextran were successfully prepared via grafting onto techniques through a Huisgen-type Copper(I) catalyzed Azide-Alkyne Cycloaddition (CuAAC click chemistry). Firstly, recent developments in the single-electron transfer–living radical polymerization (SET–LRP) provided us an access to control the o-nitrobenzyl acrylate polymerization and we obtained PNBA with bromide end function. Then, this bromide end function was replaced by azido (N3) group. In a parallel way, we modified dextran by introducing several alkyne groups all long the polysaccharide chain (alkynated dextran) or only one group at the reducing end-chain (α-alkyne dextran). In the second step, alkynated dextran and α-alkyne dextran were reacted with PNBA-N3 by CuAAC to obtain grafted or diblock glycopolymers. All glycopolymers were characterized by Size Exclusion Chromatography, 1H, 13C, 2D DOSY 1H NMR and FT-IR spectroscopy. Secondly, conditions to formulate nanoparticles from the previous glycopolymers were optimized. In some case, we also carried out an emulsion/evaporation process using dextran alkynated and PNBA-N3 to produce nanoparticles. Then, stability of nanoparticles were studied over rang of ionic strengths as well as stability in presence of a competitive surfactant. Finally, the effect of light on these photosensitive nanoparticles was studied using UV-lamp. More precisely, we loaded these nanoparticules by Nile Red fluorescent dye and followed thier destruction by using fluorescence spectroscopy and Dynamic Light Scattering

Glycopolymère

Greffé

Dibloc

Photosensible

Amphiphile

Nanoparticule

Acrylate o-nitrobenzyle

SET-LRP

Dextrane

Chimie click

Glycopolymer

Grafted

Diblock

Photosensitive

Amphiphilic

Nanoparticle

O-nitrobenzyl acrylate

SET-LRP

Dextran

Click chemistry

Light-responsive polymer

547.7

668.9

Solar-driven photodegradation of ciprofloxacin and E. coli growth inhibition using a Tm3+ upconverting nanoparticle-based polymer composite

Fan, Siyuan, Inkumsah Jnr, Jabez Ebenezer, Trave, Enrico, Gigli, Matteo, Joshi, Tanmaya, Licciardello, Nadia, Sgarzi, Massimo, Cuniberti, Gianaurelio

02 May 2024

Solar-driven photocatalysis is of great interest in terms of a sustainable use of energy and its application in wastewater treatment. The UV light-driven photogeneration of H2O2 by solar irradiation is an advanced strategy for the treatment of bacteria and recalcitrant pollutants in wastewater, but suffers from low efficiencies. In this work, a solar-driven multifunctional nanocomposite consisting of Tm3+ upconverting nanoparticles, poly(vinyl alcohol), poly(acrylic acid) and hydroxylated sulfonated poly(ether ether ketone) was prepared. The components were crosslinked via a heating treatment at 170 °C, resulting in a non-leaching porous material. This nanocomposite exhibited excellent adsorption ability (89 % in 150 min) toward a 100 mg/L ciprofloxacin aqueous solution and proved to photodegrade it (50 %) upon 4 h artificial solar irradiation, exploiting photon upconversion processes. Moreover, an 80 % bactericidal effect against E. coli was registered upon sunlight irradiation. Altogether, these results suggest the feasibility of a solar-driven wastewater treatment based on upconverting nanoparticles.

info:eu-repo/classification/ddc/660

ddc:660

Films minces de copolymères à blocs supramoléculaires et photosensibles

Grosrenaud, Josué

08 1900

La technique de trempage («dip-coating») est un procédé rapide et efficace pour former des films minces de copolymères à blocs (CPB) d’épaisseur et de nano-morphologies variées. Très peu d’études ont toutefois porté sur le trempage des CPB supramoléculaires et/ou photosensibles. Le trempage du CPB poly(styrène-b-4-vinyl pyridine) (PS-P4VP) a premièrement été étudié avec des petites molécules (PM) d’acide 1-naphtoïque (NCOOH) et de 1-naphtol (NOH) capables de former des ponts hydrogène (ponts H) avec le bloc P4VP dans 4 solvants (tétrahydrofurane (THF), p-dioxane, toluène et chloroforme). Le ratio d’incorporation (RI) molaire PM/VP dans les films trempés augmente avec la vitesse de retrait mais sa variation dépend fortement du solvant et de la PM utilisés. Le RI et la morphologie des films minces dépendent de la possibilité (ou non) du solvant à former des ponts H avec la PM et de sa sélectivité au bloc de PS menant (ou non) à des micelles de P4VP/PM en solution dont la rigidité influence l’état cinétique du système en film mince. La dépendance en une courbe en V de l’épaisseur des films en fonction la vitesse de retrait définit deux régimes, nommés régimes capillaire et de drainage. Ces régimes influencent différemment le RI et la morphologie finale. Nous nous sommes ensuite intéressés aux complexes de PS-P4VP avec des azobenzènes (AB) photosensibles, le 4-hydroxy-4’-butyl-azobenzène (BHAB) et le 4-hydroxy-4’-cyano-azobenzène (CHAB). Ces AB peuvent non seulement former des ponts H avec le bloc P4VP mais aussi s'isomériser entre les formes trans et cis sous illumination. Les expériences avec PS-P4VP/BHAB dans le THF et le toluène ont révélé que l'irradiation pendant le trempage permet de provoquer une transition entre les morphologies sphérique et cylindrique à basses vitesses de retrait. Ces transitions sont expliquées par l’augmentation du ratio molaire BHAB/VP pris dans les films sous illumination et par le plus grand volume des isomères BHAB-cis par rapport aux BHAB-trans. L'irradiation permet également de moduler l'épaisseur des films sans égard à la présence des AB. Finalement, des solutions de PS-P4VP/CHAB et PS-P4VP/BHAB dans le THF avec un CPB de masse molaire plus élevée ont été étudiées afin de comprendre l’effet d'un temps de demi-vie plus court de l’AB et de la présence de micelles en solution. Le photocontrôle morphologique perd de son efficacité avec le CHAB car l’augmentation du RI de CHAB dans les films illuminés par rapport aux films non irradiés est moins prononcée que pour les complexes de BHAB. Le choix du PS-P4VP est également important puisque la présence de micelles dans les solutions de THF du PS-P4VP(36,5k-16k), même si elle n’influence pas les RI BHAB/VP, fige davantage la morphologie sphérique en solution par rapport à une solution non-micellaire de PS-P4VP(24k-9,5k), limitant les possibilités de transition morphologique. / Dip-coating is a rapid and efficient method for forming thin films of block copolymers (BCPs) of various thicknesses and nano-morphologies. However, very few studies focused on dip-coating of supramolecular and/or photosensitive BCPs. Dip-coating of poly(styrene-b-4-vinyl pyridine) (PS-P4VP) BCPs was first studied using the small molecules (SM), 1-naphthoic acid (NCOOH) and 1-naphthol (NOH), which can form hydrogen bonds with the P4VP block, in four different solvents [tetrahydrofuran (THF), p-dioxane, toluene and chloroform]. The uptake molar ratio, SM/VP, in the thin films generally increases with the dip-coating rate, but its variation is strongly dependent on the solvent and the PM used. More specifically, the uptake ratio as well as the morphology of the dip-coated thin films depend on the ability (or lack thereof) of the solvent to form hydrogen bonds with the SM and its selectivity towards the PS block, which leads (or does not lead) to micellar P4VP/PM solutions, where the rigidity of the micellar cores influences the kinetic state of the dried thin film. The dependence of film thickness on the dip-coating rate, which is V-shaped, defines two regimes, termed capillarity and draining. These regimes influence the uptake ratio and final morphologies differently. Subsequently, we investigated a relatively low molecular weight PS-P4VP (24k-9,5k), which does not form micellar solutions in THF, complexed with two photosensitive azobenzene (AB) small molecules, namely 4-hydroxy-4'-butyl-azobenzene (BHAB) and 4-hydroxy-4'-cyano-azobenzene (CHAB). These ABs not only can form hydrogen bonds with the P4VP block but can also isomerize between trans and cis forms under illumination. Experiments with PS-P4VP/BHAB in THF (non-micellar) and toluene (micellar) showed that irradiation during dip-coating provokes a transition from spherical to cylindrical morphology at low dip-coating rates not observed in the dark. This transition is explained by the increase in the BHAB/VP uptake ratio under illumination and by the larger volume of the BHAB cis form relative to BHAB trans isomers. Irradiation also increases the film thickness, even without AB present, which is attributed to a heating effect. Thus, the combination of in-situ irradiation with dip-coating has been shown to be a useful and simple method for external control of photosensitive thin film patterns. Finally, THF solutions of PS-P4VP/CHAB and PS-P4VP/BHAB with the low molecular weight BCP (non-micellar) and a BCP of higher molecular weight (36,5k-16k, micellar) were investigated to understand the effect of shorter (CHAB) vs. longer (BHAB) AB half-life and the presence or not of micelles in solution. The morphological photocontrol loses some of its effectiveness with CHAB, as shown by the less pronounced increase in uptake ratio of CHAB compared to BHAB in the illuminated films relative to non-irradiated films dip-coated from THF solutions. The presence of micelles does not influence the (BHAB/VP) uptake ratio, but it slows down the morphological evolution in the drying films, as shown by the freezing in of greater spherical morphological character compared to the non-micellar solution, thereby limiting the possibilities of a morphological transition.

Trempage

Films minces

Auto-assemblage

Poly(styrène-b-4-vinyl pyridine)

Copolymères à blocs supramoléculaires

Azobenzènes

Copolymères à blocs photosensibles

Dip-coating

Thin films

Self-assembly

Azobenzene

Photosensitive block copolymers

Estudo da resposta da melanopsina na neuropatia óptica e no distúrbio de sono através do reflexo pupilar à luz / Study of melanopsin responses in optic neuropathy and sleep disturbance by means of the pupillary light reflex

Duque-Chica, Gloria Liliana

24 September 2015

Dentre as células ganglionares da retina existe uma pequena população de células que contem melanopsina e respondem diretamente à luz. Estas são as células ganglionares intrinsecamente fotossensíveis (ipRGCs), cujas funções são principalmente não visuais. Dentre as funções não visuais das ipRGCs sua influência na resposta pupilar dependente da luz foi o objeto central desta tese. Tanto a retina interna, através das ipRGCs, quanto a retina externa, através dos bastonetes e cones, fornecem uma informação neural que regula a resposta pupilar à luz (RPL). Este estudo avaliou a integridade das ipRGCs através do RPL em pacientes com glaucoma primário de ângulo aberto (GPAA), leve, moderado e avançado, e em pacientes com síndrome da apnéia obstrutiva do sono (SAOS), moderada e grave. Também foi avaliada a discriminação cromática e a sensibilidade ao contraste espacial de luminância (SC), a perimetria visual e a espessura da retina avaliada por tomografia de coerência óptica (OCT). Foram avaliados 98 participantes: 45 pacientes com GPAA ( 27, 18; idade média = 65,84 + 10,20), 28 pacientes com SAOS ( 14, 14; idade média = 52,93 + 7,13), e 25 controles ( 17, 8; idade média = 54,27 + 8,88). Após o exame oftalmológico foram avaliadas a SC de grades e a discriminação de cores através do Cambridge Colour Test (CCT). A avaliação do RPL foi feita apresentando-se flashes de 470 e 640 nm, de 1s de duração, em 7 luminâncias desde -3 até 2.4 log cd/m2 em um Ganzfeld Q450 SC (Roland Consult). O RPL foi registrado pelo sistema de eye tracker View Point System (Arrington Research Inc.). Os testes foram realizados em ambos os olhos, de forma monocular e no escuro. Para a comparação dos dados entre os grupos, utilizou-se um modelo de equações de estimação generalizada (GEE), para correção da dependência entre os dois olhos. O RPL dos pacientes com GPAA moderado e avançado apresentou redução significativa na amplitude do pico, dependente da severidade do glaucoma, nas diferentes luminâncias tanto para 470 nm quanto para 640 nm, evidenciando redução das contribuições dos cones e bastonetes ao RPL. As contribuições das ipRGCs ao RPL (avaliadas pela amplitude da resposta sustentada entre 6-8 s) foram também significativamente menores em GPAA moderado e avançado. No estado inicial do GPAA as contribuições das ipRGCs para o RPL encontram-se preservadas. No entanto, o GPAA parece afetar o processamento espacial desde o inicio da doença. Nos pacientes com GPAA leve foi observada uma perda acentuada nas faixas baixas de frequência espacial, compatível com prejuízo seletivo das células ganglionares do tipo M. A SC de pacientes com GPAA moderado e avançado mostrou perdas nas faixas baixas e altas de frequência espacial, apontando um prejuízo nas vias parvo- e margnocelulares. Uma perda significativa da discriminação de cores no eixo azul-amarelo foi observada em todos os estágios do GPAA. O RPL nos pacientes com SAOS está parcialmente preservado, não obstante, as respostas da amplitude do pico para o flash de 470 nm diminuem conforme aumenta a severidade da SAOS. As contribuições dos fotorreceptores da retina externa ao RPL, foram significativamente menores em algumas das luminâncias. Não foram observadas diferenças significativas de SC ou discriminação de cores nos pacientes com SAOS. Em conclusão, no estágio moderado e avançado do glaucoma tanto as contribuições das ipRGCs ao RPL quanto as vias M e P, se encontram mais afetadas do que no inicio do GPAA, quando a via parvocelular e as contribuições das ipRGCs ao RPL parecem estar mais preservadas / Among the retina ganglion cells there are a small population of cells containing melanopsin and which respond directly to light. They are the intrinsically photosensitive ganglion cells (ipRGCs), whose functions are mainly non-visual. Among these non-visual functions of the ipRGCs, their influence on the pupillary response as a function of light was the central subject of this thesis. Both the inner retina through the ipRGCs and the outer retina through the rods and cones, provide neural information that regulates the pupillary light response (PLR) to light. This study evaluated the integrity of ipRGCs through PLR in patients with Primary Open Angle Glaucoma (POAG), mild, moderate and advanced, and in patients with Obstructive Sleep Apnea Syndrome (OSAS), moderate and severe. We evaluated also the color discrimination and achromatic spatial contrast sensitivity (CS), visual perimetry and retinal thickness evaluated by Optical Coherence Tomography (OCT). 98 participants were evaluated, 45 patients with POAG ( 27 18; mean age = 65.84 + 10.20), 28 with OSAS ( 14 14; mean age = 52.93 + 7.13) and 25 controls ( 17 8; mean age = 54.27 + 8.88). After the ophthalmological exam it was evaluated the contrast sensitivity and color discrimination measures using the Cambridge Colour Test (CCT). Pupil responses were elicited by Ganzfeld (Q450 SC, Roland Consult) presentation of 1-sec flashes of 470- and 640-nm at 7 luminance from -3 to 2.4 log cd/m2. PLR was measured with the eye tracker system View Point (Arrington Research Inc.). The tests were performed monocularly, on both eyes, in a darkened room. In order to compare data across groups, we used a General Estimating Equations (GEE) to adjust for within subject inter-eye correlations. Patients with moderate and advanced POAG had a significantly decreased PLR that depends on the severity of the glaucoma, for both the 470- and 640-nm stimuli, making evident the reduction of the contributions of the cones and rods to the PLR. The contributions of ipRGCs to PLR (assessed by the amplitude of the sustained response between 6 8 sec) were also significantly lower in patients with moderate and advanced POAG. In the initial and mild stages of POAG the contribution of ipRGCs to the PLR is preserved. However, POAG appears to affect spatial processing from the early stages of the disease. Mild-POAG patients showed a marked loss in the low spatial frequency bands, compatible with selective loss of magnocellular ganglion cells. The CS of patients with moderate and advanced POAG showed losses at both low and high spatial frequencies, suggesting a loss in both parvo- and margnocellular channels. A significant loss of color discrimination along the blue-yellow axis was observed in all stages of POAG. The PLR in patients with OSAS is partially preserved, however the peak amplitude responses for the 470-nm flash decreased with increased severity of OSAS. The contributions of the photoreceptors of the outer retina to the PLR were significantly lower at some of the luminance. Significant differences in CS or color discrimination were not observed in patients with OSAS. In conclusion, in moderate and advanced stages of glaucoma, both the contributions of ipRGCs to PLR as well as the M- and P channels, were found more affected than at the beginning of POAG, in contrast the parvocellular channel and the contributions of ipRGCs on the PLR would be more preserved

Apnéia obstrutiva do sono

Color vision

Glaucomatous optic neuropathy

Melanopsina

Melanopsina

Neuropatia óptica glaucomatosa

Obstructive sleep apnea

Pupillary light reflex (PLR)

Reflexo pupilar à luz (RPL)

Spatial luminance contrast sensitivity

Visão de cores

??tude de micelles de copolym??res ?? blocs r??pondants ?? deux stimuli

Xuan, Juan

January 2014

R??sum?? : Les copolym??res ?? blocs sensibles aux stimuli (SR-BCPs) et leurs assemblages, tels que les micelles, les v??sicules et les hydrogels, peuvent subir des changements physiques ou chimiques en r??ponse ?? l'??volution des conditions environnementales. Pour un excellent SR-BCP, habituellement, de l??g??res modifications de l'environnement sont suffisantes pour induire des modifications relativement drastiques dans la conformation, la structure ou les propri??t??s du polym??re. Ces polym??res sont aussi appel??s polym??res stimuli-r??actifs ou polym??res intelligents et ils ont un grand potentiel d'application dans de nombreux domaines. Au cours des deux derni??res d??cennies, un int??r??t de recherche et d??veloppement particulier a ??t?? port?? sur l'exploitation des SR-BCPs pour utilisation comme syst??mes de relargage de m??dicaments. Dans de nombreux cas, les changements induits par des stimuli dans la structure ou la morphologie des assemblages de BCPs peuvent entra??ner la lib??ration de l'esp??ce encapsul??e, parfois d'une mani??re contr??lable spatialement et temporellement par le choix d'un stimulus appropri?? et en ajustant les param??tres de la m??thode de stimulation utilis??e. De fa??on g??n??rale, le fait d???avoir un certain type de groupements r??actifs ?? un stimulus donn?? dans la structure permet aux SR-BCPs de reconna??tre et r??agir ?? ce stimulus. Malgr?? les ??normes progr??s r??alis??s sur les SR-BCPs, un certain nombre de questions fondamentales restent ?? r??soudre afin de leur permettre de se trouver dans des applications pratiques. Pour y arriver, la cl?? ou le d??fi r??side dans l???am??lioration du niveau et de la complexit?? de contr??le sur les SR-BCPs ainsi que la sensibilit?? avec laquelle ces polym??res r??agissent ?? des stimuli. G??n??ralement, il est souhaitable d'obtenir une r??action rapide sous l'action d'une stimulation mod??r??e. A cette fin, il est n??cessaire d???effectuer des recherches fondamentales sur la conception rationnelle de nouveaux SR-BCPs ainsi que sur le d??veloppement de m??thodes de stimulation qui peuvent amplifier l'effet d'un stimulus. Les travaux de recherche pr??sent??s dans cette th??se s'inscrivent dans ce domaine de recherche. Plus sp??cifiquement, nous avons ??tudi?? des micelles de BCPs qui r??pondent ?? deux types de stimuli. D'une part, nous avons ??tudi?? un m??canisme d'amplification bas?? sur l???effet des ultrasons combin?? ?? la thermosensibilit?? de BCPs. D'autre part, nous avons d??velopp?? une nouvelle conception de BCPs qui permet aux micelles d?????tre d??truites soit de mani??re photochimique, soit par des r??actions d'oxydo-r??duction, tout en ayant le nombre minimum des groupes stimuli-r??actifs dans la structure du polym??re. Notre recherche a g??n??r?? de nouvelles connaissances dans ce domaine et sugg??re de nouveaux moyens sur la fa??on dont les questions de sensibilit?? et de contr??le complexe des micelles SR-BCPs peuvent ??tre abord??es, contribuant ainsi ?? l'avancement des connaissances fondamentales. Le c??ur de cette th??se est compos?? de trois publications r??sultant des projets r??alis??s. Dans le premier projet, afin de coupler la sensibilit?? aux ultrasons et la thermosensibilit??, nous avons men?? une ??tude ayant pour but de trouver des structures possibles de polym??res qui sont susceptibles d'??tre affect??es par les ultrasons. Nous avons effectu?? une ??tude comparative sur la destruction des micelles form??es par divers BCPs et la lib??ration concomitante d'un colorant hydrophobe encapsul?? (rouge du Nil) par les ultrasons focalis??s de haute intensit?? (HIFU). Nous avons constat?? que toutes les micelles form??es par les quatre copolym??res diblocs synth??tis??s, ??tant constitu??s d'un m??me bloc du polyoxyde d'??thyl??ne (PEO) hydrophile et d???un bloc de polym??thacrylate hydrophobe diff??rent, peuvent ??tre perturb??es par les ultrasons. Toutefois, l'ampleur de la perturbation et la lib??ration du colorant encapsul?? dans la micelle est influenc??e par la structure chimique du block hydrophobe. En particulier, les micelles du PEO-b-PIBMA (poly(1-isobutoxym??thacrylate d'??thyle)) et du PEO-b-PTHPMA (poly(m??thacrylate de 2-t??trahydropyrannyle)), qui poss??dent une unit?? ac??tal labile dans le groupe lat??ral, subissent des perturbations plus importantes en raison, probablement, d???une r??action d???hydrolyse de l???ester induite par les ultrasons, donnant lieu ?? une lib??ration plus rapide du colorant. En revanche, les micelles du PEO-b-PMMA (poly(m??thacrylate de m??thyle)), dont le bloc polym??thacrylate est plus stable, sont plus r??sistantes aux ultrasons et pr??sentent une cin??tique de lib??ration du colorant plus lente que les autres micelles. De plus, l???analyse des spectres infrarouges des solutions micellaires, enregistr??s avant et apr??s l???exposition aux ultrasons, sugg??re une r??action d???hydrolyses pour le PEO-b-PIBMA et le PEO-b-PTHPMA, mais montre l'absence d???une quelconque r??action chimique pour le PEO-b-PMMA. L'effet de la structure de copolym??re ?? blocs sur la r??activit?? des micelles ?? l'irradiation HIFU ?? hautes fr??quences permet de mieux comprendre comment des micelles de BCPs sensibles aux ultrasons peuvent ??tre con??ues. Sur la base du premier projet, dans le deuxi??me projet, nous avons d??montr?? une nouvelle approche pouvant amplifier l'effet de HIFU sur la destruction des micelles de BCPs en solution aqueuse. L???id??e est d???introduire une petite quantit?? des unit??s comonom??res sensibles aux ultrasons dans le bloc thermosensible et initialement hydrophobe. On peut alors former une micelle dont le noyau est compos?? du polym??re sensible aux ultrasons. Si la r??action induite par les ultrasons sur le noyau permet d???augmenter la temp??rature de solution critique inf??rieure (LCST) du polym??re thermosensible au-dessus de la temp??rature de la solution micellaire, la micelle doit ??tre dissolue car tout le BCP est devenu soluble dans l???eau. Pour tester la validit?? de ce nouveau m??canisme, nous avons synth??tis?? et ??tudi?? un copolym??re dibloc de PEO-b-P(MEO[indice inf??rieur 2]MA-co-THPMA) (MEO[indice inf??rieur 2]MA repr??sente 2-(2-m??thoxy??thoxy) m??thacrylate d'??thyle), dans lequel le bloc thermosensible P(MEO[indice inf??rieur 2]MA-co-THPMA) est hydrophobe ?? T>LCST. Le THPMA a ??t?? choisi en raison de sa plus grande r??activit?? vis-??-vis des faisceaux HIFU que les autres monom??res ??tudi??s dans le premier projet. Les r??sultats montrent que les HIFU peuvent effectivement augmenter la LCST du bloc P(MEO[indice inf??rieur 2]MA-co-THPMA) et, par cons??quent, induire la dissociation des micelles ?? une temp??rature constante de la solution. Une analyse spectrale en RMN [indice sup??rieur 13]C a fourni des preuves montrant que l'hydrolyse des groupes THPMA se produit sous l???irradiation HIFU et que la destruction des micelles provient d'une augmentation de la LCST en raison de la conversion des motifs hydrophobes THPMA en motifs acides m??thacryliques (MAA) hydrophiles. Cette m??thode de modifier la LCST par une irradiation des ultrasons est g??n??rale et peut ??tre appliqu??e aux autres groupements sensibles aux ultrasons dans la conception de ce type de SR-BCPs. Cette ??tude a ainsi d??montr?? un nouveau m??canisme d'amplification et de contr??le des micelles de BCPs via la modification induite par les ultrasons de la temp??rature de transition de phase (LCST) du bloc constituant le noyau micellaire. Le troisi??me projet pr??sent?? dans cette th??se portait sur une conception rationnelle de BCPs ayant un but pr??cis: permettre aux micelles d?????tre perturb??es par deux types de stimuli en utilisant le nombre minimal des unit??s sensibles ?? des stimuli dans la structure de BCPs. Pour ce faire, nous avons con??u et synth??tis?? un nouveau copolym??re tribloc amphiphile de type ABC, soit le poly(oxyde d'??thyl??ne) - disulfure ??? polystyrene - o-nitrobenzyle - poly(2-(dim??thylamino) ??thylm??thacrylate) (PEO-S-S-PS-ONB-PDMAEMA). Il dispose d'une liaison disulfure redox-clivable entre les blocs PEO et PS ainsi que d'un groupe o-nitrobenzyle (ONB) photoclivable ?? la jonction des blocs PS et PDMAEMA. Nous avons montr?? que ce mod??le est une strat??gie utile pour permettre aux micelles de BCPs de r??pondre soit ?? un agent r??ducteur comme le dithiothr??itol (DTT) dans une solution, soit ?? l'exposition ?? la lumi??re UV, tout en ayant le nombre minimum des groups stimuli-r??actifs dans la structure du copolym??re (deux unit??s par cha??ne). Nos investigations ont r??v??l?? que les micelles de ce copolym??re tribloc peuvent ??tre perturb??es de diff??rentes fa??ons. Lorsqu'un seul stimulus est appliqu??, l'enl??vement d'un type des cha??nes de polym??re hydrophile ?? partir de la couronne de micelles, soit le PEO par clivage par oxydo-r??duction ou le PDMAEMA par photoclivage, entra??ne un effet limit?? de d??stabilisation sur la dispersion des micelles. L'agglom??ration de quelques micelles appara??t mais la dispersion reste essentiellement stable. En revanche, en cas d'utilisation combin??e des deux stimuli qui clivent ?? la fois le PEO et le PDMAEMA, une agr??gation importante du polym??re se produit ?? la suite de l'??limination de l'amphiphilicit?? du polym??re. // Abstract : Stimuli-responsive block copolymers (SR-BCPs) and their assemblies, such as micelles, vesicles and hydrogels, can undergo physical or chemical changes in response to changing environmental conditions. For an excellent SR-BCP, usually, slight changes in the environment are sufficient to induce relatively drastic changes in either the conformation or structure or properties of the polymer. Stimuli-reactive polymers are often referred to as smart polymers and they have great application potential in many fields. Over the past two decades, particular research and development interest has been focused on exploiting SR-BCP assemblies as drug delivery systems (DDSs). In many cases, stimuli-induced changes in the structure or morphology of BCP assemblies (drug carriers) can result in the release of loaded species, sometimes in a spatially and temporally controllable manner by choosing an appropriate stimulus and adjusting the parameters of the used stimulating method. Generally speaking, by having a certain type of stimuli-reactive moieties in the structure, SR-BCP assemblies have an ability to recognize a specific stimulus and react to its presence accordingly. Despite the tremendous progress achieved on SR-BCPs, a number of fundamental issues remain to be addressed in order to enable real-life applications of these smart polymers. Of them, an increasing level and complexity of control on SR-BCPs as well as the sensitivity with which these polymers react to stimuli are key and challenging. It is highly desirable to obtain a fast reaction under the action of a modest stimulation. To this end, fundamental research is necessary on rational and creative BCP structural design as well as on development of stimulation methods that can amplify the effect of a stimulus. The research work presented in this thesis falls into this important topic. More specifically, we studied BCP micelles that are responsive to two types of stimuli. On the one hand, we investigated an amplification mechanism based on coupling the ultrasound reactivity with the thermosensitivity of BCPs. On the other hand, we developed a BCP structural design that allows micelles to be disrupted by either light or redox agents while having the minimum number of stimuli-reactive moieties in the polymer structure. Our research provided new insights into and suggested new means on how the issues of sensitivity and complex control of SR-BCP micelles can be tackled, thus contributing to the advancement of fundamental knowledge. The core of this thesis is comprised of three publications resulting from the projects realized in our research work. In order to couple the ultrasound sensitivity and thermosensitivity, in the first project, we carried out studies to find possible polymer structures that are susceptible to be affected by ultrasound. We conducted a comparative study on the disruption of the micelles formed by various BCPs and the concomitant release of an encapsulated hydrophobic dye (Nile Red) by high-intensity focused ultrasound (HIFU). It was found that all micelles formed by the four synthesized diblock copolymers, being composed of a hydrophilic poly(ethylene oxide) (PEO) block and a different polymethacrylate hydrophobic block, could be disrupted by ultrasound. However, the extent of the micellar disruption and dye release was found to be influenced by the chemical structure of the micelle-core-forming hydrophobic polymethacrylate. In particular, micelles of PEO-b-PIBMA (poly(1-(isobutoxy)ethyl methacrylate)) and PEO-b-PTHPMA (poly(2-tetrahydropyranyl methacrylate)), whose hydrophobic blocks have a labile acetal unit in the side group and are more likely to undergo ester hydrolysis, could be disrupted more severely by ultrasound, giving rise to a faster release of Nile Red. By contrast, micelles of PEO-b-PMMA (poly(methyl methacrylate)), whose polymethacrylate block is more stable, appear to be more resistant to ultrasound irradiation and exhibit a slower rate of dye release than other BCPs. Moreover, infrared spectra recorded with micelles before and after ultrasound irradiation of the aqueous solution of the micelles give evidence for the occurrence of chemical reactions, most likely hydrolysis, for PEO-b-PIBMA and PEO-b-PTHPMA, but absence of chemical reactions for PEO-b-PMMA. The effect of BCP chemical structure on the reaction of micelles to high-frequency HIFU irradiation shows the perspective of designing and developing ultrasound-sensitive BCP micelles for ultrasound-based delivery applications. On the basis of the first project, in the second project, we demonstrated a new approach that could amplify the effect of HIFU on the disassembly of BCP micelles in aqueous solution. By introducing a small amount of ultrasound-labile comonomer units into the micelle core-forming thermosensitive polymer, the ultrasound-induced reaction of the comonomer could increase the lower critical solution temperature (LCST) of the thermosensitive polymer due to a polarity change, which renders the BCP soluble in water without changing the solution temperature and, consequently, results in disassembly of BCP micelles. To prove the validity of this new mechanism, we synthesized and investigated a diblock copolymer of PEO-b-P(MEO[subscript 2]MA-co-THPMA) (MEO[subscript 2]MA stands for 2-(2-methoxyethoxy)ethyl methacrylate). In the thermosensitive random copolymer block P(MEO[subscript 2]MA-co-THPMA), which is hydrophobic at T>LCST, THPMA was chosen due to its greater reactivity under HIFU than other monomer structures investigated in the first project. We found that HIFU could indeed increase the LCST of the P(MEO[subscript 2]MA-co-THPMA) block and, as a result, dissociate the BCP micelles at a constant temperature. A [superscript 13]C NMR spectral analysis provided critical evidence that hydrolysis of the THPMA groups occurs under HIFU irradiation and the micellar disassembly originates from an increase in the LCST due to the ultrasound-induced conversion of hydrophobic comonomer units of THPMA onto hydrophilic methacrylic acid (MAA). This ultrasound-changeable-LCST approach is general and can be applied by exploring other ultrasound-labile moieties in the BCP design. By transducing an ultrasound-induced effect into a changing thermosensitivity of the micelle core-forming block, this study demonstrated a new amplification and control mechanism for SR-BCP micelles. The third project presented in this thesis dealt with a rational BCP design that had a specific purpose: allowing BCP micelles to be disrupted by two types of stimuli while using the minimum number of stimuli-reactive moieties in the BCP structure. The unveiling of such BCP structures provides insight into how to make BCP micelles sensitive to stimuli. To do this, we designed and synthesized a new amphiphilic ABC-type triblock copolymer, namely, poly(ethylene oxide)-disulfide-polystyrene- o-nitrobenzyl-poly(2-(dimethylamino)ethylmethacrylate) (PEO-S-S-PS-ONB-PDMAEMA), which features a redox-cleavable disulfide linkage between the PEO and PS blocks as well as a photocleavable ONB group as the junction of the PS and PDMAEMA blocks. We demonstrated that this design is a useful strategy to allow BCP micelles to respond to both a reducing agent like dithiothreitol (DTT) in solution and exposure to UV light while having the minimum number of stimuli-reactive moieties in the block copolymer structure (two units per chain). Our investigations found that the micelles of this triblock copolymer could be disrupted in different ways. When only one stimulus is applied, the removal of one type of hydrophilic polymer chains from the micelle corona, either PEO by redox-cleavage or PDMAEMA by photocleavage, results in a limited destabilization effect on the dispersion of the micelles. The agglomeration between a few micelles appears but the dispersion remains essentially stable. By contrast, under combined use of the two stimuli that cleaves both PEO and PDMAEMA, severe polymer aggregation occurs as a result of elimination of the polymer amphiphilicity. Moreover, by loading the hydrophobic Nile Red in the micelles, the fluorescence quenching of the dye by aqueous medium under the different uses of the two stimuli appears to correlate with the different extents of the micellar disruption. // ?????? : ??????????????????????????????SR-BCPs???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????SR-BCP???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????-??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????SR-BCP?????????????????????????????????DDSs???????????????????????????????????????BCP?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????-????????????????????????SR-BCP??????????????????????????????????????????????????????????????????????????? ??????SR-BCPs?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????SR-BCPs?????????????????????????????????????????????????????????????????????SR-BCPs???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????BCP???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????BCP???????????????????????????BCPs???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????-???????????????BCP???????????????????????????????????????????????????????????????????????????????????????SR-BCP???????????????????????????????????????????????????????????????????????????????????????????????????????????? ??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????BCPs????????????????????????????????????????????????HIFU?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????PEO-b-PIBMA????????? 1-????????????????????????????????????????????? ??????PEO-b-PTHPMA?????????2-???????????????????????????????????? ??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????? ??????????????????????????????????????????????????????????????????PEO-b-PMMA?????????????????????????????????????????????????????????????????????????????????????????????????????????PEO-b-PMMA????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????PEO-b-PIBMA???PEO-b-PTHPMA????????????????????????????????????????????????PEO-b-PMMA???????????????????????????????????????HIFU????????????BCP???????????????????????????????????????????????????????????????????????????-??????BCP????????????????????? ??????????????????????????????????????????????????????????????????????????????????????????????????????HIFU??????????????????BCP???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????LCST?????????????????????????????????????????????????????????BCP??????????????????????????????BCP??????????????????????????????????????????????????????????????????????????????????????????????????????PEO-b-P(MEO2MA-co-THPMA) ???MEO2MA ??????2-???2-??????????????????????????????????????????????????????T > LCST????????????????????????????????????P(MEO2MA-co-THPMA)?????????????????????THPMA?????????????????????????????????????????????????????????????????????????????????HIFU?????????????????????????????????????????????????????????????????? ??????HIFU???????????????????????????P(MEO2MA-co-THPMA)?????????LCST?????????BCP??????????????????????????????????????????13C NMR ???????????????????????????THPMA?????????????????????????????????????????????THPMA??????????????????????????????MAA?????????LCST?????????????????????????????????????????????????????????????????????LCST??????????????????????????????????????????????????????BCP???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????SR-BCP????????????????????????????????? ????????????????????????????????????????????????????????????????????????????????????????????????BCP????????????????????????????????????????????????????????????????????????BCP?????????????????????????????????????????????BCP?????????????????????????????????????????????????????????BCP????????????????????????????????????????????????????????????????????????ABC???????????????????????????????????????????????? - ???????????? - ???????????? - ??? - ???????????? - ?????? 2 - ???????????????????????????????????????????????? (PEO-S-S-PS-ONB-PDMAEMA)?????????PEO???PS???????????????????????????????????????????????????PS???PDMAEMA?????????????????????????????????ONB????????????????????????????????????????????????????????????-??????????????????????????????????????????????????????BCP????????????????????????????????????????????? ???DDT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????PEO????????????????????????PDMAEMA?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????PEO???PDMAEMA?????????????????????????????????????????????????????????????????????????????????????????????????????? ????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????

Micelles

Ultrasons focalis??s de haute intensit??

Polym??res redox-sensibles

Polym??res photosensibles

Stimuli-responsive block copolymers

Drug delivery systems

High-intensity focused ultrasound

Lower critical solution temperature

Redox-sensitive polymers

Photosensitive polymers

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Estudo da resposta da melanopsina na neuropatia óptica e no distúrbio de sono através do reflexo pupilar à luz / Study of melanopsin responses in optic neuropathy and sleep disturbance by means of the pupillary light reflex

Gloria Liliana Duque-Chica

24 September 2015

Dentre as células ganglionares da retina existe uma pequena população de células que contem melanopsina e respondem diretamente à luz. Estas são as células ganglionares intrinsecamente fotossensíveis (ipRGCs), cujas funções são principalmente não visuais. Dentre as funções não visuais das ipRGCs sua influência na resposta pupilar dependente da luz foi o objeto central desta tese. Tanto a retina interna, através das ipRGCs, quanto a retina externa, através dos bastonetes e cones, fornecem uma informação neural que regula a resposta pupilar à luz (RPL). Este estudo avaliou a integridade das ipRGCs através do RPL em pacientes com glaucoma primário de ângulo aberto (GPAA), leve, moderado e avançado, e em pacientes com síndrome da apnéia obstrutiva do sono (SAOS), moderada e grave. Também foi avaliada a discriminação cromática e a sensibilidade ao contraste espacial de luminância (SC), a perimetria visual e a espessura da retina avaliada por tomografia de coerência óptica (OCT). Foram avaliados 98 participantes: 45 pacientes com GPAA ( 27, 18; idade média = 65,84 + 10,20), 28 pacientes com SAOS ( 14, 14; idade média = 52,93 + 7,13), e 25 controles ( 17, 8; idade média = 54,27 + 8,88). Após o exame oftalmológico foram avaliadas a SC de grades e a discriminação de cores através do Cambridge Colour Test (CCT). A avaliação do RPL foi feita apresentando-se flashes de 470 e 640 nm, de 1s de duração, em 7 luminâncias desde -3 até 2.4 log cd/m2 em um Ganzfeld Q450 SC (Roland Consult). O RPL foi registrado pelo sistema de eye tracker View Point System (Arrington Research Inc.). Os testes foram realizados em ambos os olhos, de forma monocular e no escuro. Para a comparação dos dados entre os grupos, utilizou-se um modelo de equações de estimação generalizada (GEE), para correção da dependência entre os dois olhos. O RPL dos pacientes com GPAA moderado e avançado apresentou redução significativa na amplitude do pico, dependente da severidade do glaucoma, nas diferentes luminâncias tanto para 470 nm quanto para 640 nm, evidenciando redução das contribuições dos cones e bastonetes ao RPL. As contribuições das ipRGCs ao RPL (avaliadas pela amplitude da resposta sustentada entre 6-8 s) foram também significativamente menores em GPAA moderado e avançado. No estado inicial do GPAA as contribuições das ipRGCs para o RPL encontram-se preservadas. No entanto, o GPAA parece afetar o processamento espacial desde o inicio da doença. Nos pacientes com GPAA leve foi observada uma perda acentuada nas faixas baixas de frequência espacial, compatível com prejuízo seletivo das células ganglionares do tipo M. A SC de pacientes com GPAA moderado e avançado mostrou perdas nas faixas baixas e altas de frequência espacial, apontando um prejuízo nas vias parvo- e margnocelulares. Uma perda significativa da discriminação de cores no eixo azul-amarelo foi observada em todos os estágios do GPAA. O RPL nos pacientes com SAOS está parcialmente preservado, não obstante, as respostas da amplitude do pico para o flash de 470 nm diminuem conforme aumenta a severidade da SAOS. As contribuições dos fotorreceptores da retina externa ao RPL, foram significativamente menores em algumas das luminâncias. Não foram observadas diferenças significativas de SC ou discriminação de cores nos pacientes com SAOS. Em conclusão, no estágio moderado e avançado do glaucoma tanto as contribuições das ipRGCs ao RPL quanto as vias M e P, se encontram mais afetadas do que no inicio do GPAA, quando a via parvocelular e as contribuições das ipRGCs ao RPL parecem estar mais preservadas / Among the retina ganglion cells there are a small population of cells containing melanopsin and which respond directly to light. They are the intrinsically photosensitive ganglion cells (ipRGCs), whose functions are mainly non-visual. Among these non-visual functions of the ipRGCs, their influence on the pupillary response as a function of light was the central subject of this thesis. Both the inner retina through the ipRGCs and the outer retina through the rods and cones, provide neural information that regulates the pupillary light response (PLR) to light. This study evaluated the integrity of ipRGCs through PLR in patients with Primary Open Angle Glaucoma (POAG), mild, moderate and advanced, and in patients with Obstructive Sleep Apnea Syndrome (OSAS), moderate and severe. We evaluated also the color discrimination and achromatic spatial contrast sensitivity (CS), visual perimetry and retinal thickness evaluated by Optical Coherence Tomography (OCT). 98 participants were evaluated, 45 patients with POAG ( 27 18; mean age = 65.84 + 10.20), 28 with OSAS ( 14 14; mean age = 52.93 + 7.13) and 25 controls ( 17 8; mean age = 54.27 + 8.88). After the ophthalmological exam it was evaluated the contrast sensitivity and color discrimination measures using the Cambridge Colour Test (CCT). Pupil responses were elicited by Ganzfeld (Q450 SC, Roland Consult) presentation of 1-sec flashes of 470- and 640-nm at 7 luminance from -3 to 2.4 log cd/m2. PLR was measured with the eye tracker system View Point (Arrington Research Inc.). The tests were performed monocularly, on both eyes, in a darkened room. In order to compare data across groups, we used a General Estimating Equations (GEE) to adjust for within subject inter-eye correlations. Patients with moderate and advanced POAG had a significantly decreased PLR that depends on the severity of the glaucoma, for both the 470- and 640-nm stimuli, making evident the reduction of the contributions of the cones and rods to the PLR. The contributions of ipRGCs to PLR (assessed by the amplitude of the sustained response between 6 8 sec) were also significantly lower in patients with moderate and advanced POAG. In the initial and mild stages of POAG the contribution of ipRGCs to the PLR is preserved. However, POAG appears to affect spatial processing from the early stages of the disease. Mild-POAG patients showed a marked loss in the low spatial frequency bands, compatible with selective loss of magnocellular ganglion cells. The CS of patients with moderate and advanced POAG showed losses at both low and high spatial frequencies, suggesting a loss in both parvo- and margnocellular channels. A significant loss of color discrimination along the blue-yellow axis was observed in all stages of POAG. The PLR in patients with OSAS is partially preserved, however the peak amplitude responses for the 470-nm flash decreased with increased severity of OSAS. The contributions of the photoreceptors of the outer retina to the PLR were significantly lower at some of the luminance. Significant differences in CS or color discrimination were not observed in patients with OSAS. In conclusion, in moderate and advanced stages of glaucoma, both the contributions of ipRGCs to PLR as well as the M- and P channels, were found more affected than at the beginning of POAG, in contrast the parvocellular channel and the contributions of ipRGCs on the PLR would be more preserved

Apnéia obstrutiva do sono

Melanopsina

Neuropatia óptica glaucomatosa

Reflexo pupilar à luz (RPL)

Visão de cores

Color vision

Glaucomatous optic neuropathy

Melanopsina

Obstructive sleep apnea

Pupillary light reflex (PLR)

Spatial luminance contrast sensitivity

Neue Ansätze zur linearen und nichtlinearen optischen Charakterisierung molekularer und nanokristalliner Ensembles: Zusammenhang zwischen makroskopischer Funktion und Struktur auf mesoskopischer Längenskala technologisch relevanter Materialien

Bock, Sergej

29 October 2020

Durch neue Ansätze zur Charakterisierung molekularer und nanokristalliner Materialien spiegelt die vorliegende Arbeit die Synergie von linearer Optik über Ultrakurzzeitphysik zur nichtlinearen Optik wider. Angefangen mit der linearen diffusen Reflektanz (Remission) zur Bestimmung des spektralen Reflexionsvermögens von Pulverpartikeln, erlaubt die hier gezeigte alternative Herangehensweise (s. Kapitel 2) nicht nur ein vereinfachtes Messen der Remission zur Analyse von Materialzusammensetzungen, Verunreinigungen und Co-Dotierungen, sondern eröffnet zudem über Monte-Carlo Simulationen, kombiniert mit der Kubelka-Munk Theorie und der Mie Streuung, auch den Zugang zu dem ansonsten experimentell unzugänglichen Absorptionskoeffizienten von nicht-transluzenten Proben. Die präsentierten Mess- und Simulationsergebnisse an Pulvertabletten aus Rutil-Titandioxid (TiO2) und Cer-dotierten Yttrium Aluminium Granat (YAG:Ce3+) sind mit den bisherigen in der Literatur vorliegenden Ergebnissen konsistent oder zumindest vergleichbar. Auch lassen sich nach Modifikation der Kubelka-Munk Funktion die Bandkanten-Energien Eg der mikro- und nanokristallinen Pulverproben mittels so genannter Tauc Plots verifizieren. Basierend auf einer starken Temperatur- und Konzentrationsabhängigkeit lassen sich die Emissionsspektren der oben genannten YAG:Ce3+-Leuchtstoffe aufgrund von Überlappung oder Verschiebung der energetischen Grundniveaus 2F5/2 und 2F7/2 variieren (s. Kapitel 3). Während sich bei Tieftemperaturen um 19K die doppelbandige Natur der Leuchtstoffe zeigt, verbreitern sich die Emissionsbanden bei Raumtemperatur zu einer Einzelbande, womit eine spektral sehr breite Fluoreszenz einhergeht. Mathematische Entfaltungen dieser Spektren zeigen jeweils den prozentualen Beitrag der Relaxation aus dem untersten angeregten Zustand 5d1 in einen der beiden Grundzustände 2F5/2 und 2F7/2 und ebenso den Einfluss der Temperatur und Cer-Konzentration. Tatsächlich führen die experimentellen Ergebnisse der vorliegenden Arbeit zu der Erkenntnis, dass eine der vier untersuchten YAG:Ce3+-Proben eine erhöhte Cer-Konzentration aufweisen muss. Anders als bei den schwach konzentrierten YAG:Ce3+-Proben ist die spektrale Doppelbande des stark konzentrierten Leuchtstoffs selbst bei 19K nur zu erahnen, während der Beitrag des 5d1 --> 2F7/2 Übergangs auf die Gesamtfluoreszenz retrograd zum 5d1 --> 2F5/2 Übergang mit steigender Temperatur sogar abnimmt. Im direkten Anschluss an die spektrale Vermessung der Proben folgen zeitaufgelöste Lebensdauermessungen zur Bestimmung der Nachleuchtdauern dieser Leuchtstoffe mittels Pikosekunden-Laserpulsen (ps-Pulse) (s. Kapitel 3.3). Auch hier stellen sich Unterschiede zwischen den genannten YAG:Ce3+-Proben heraus und untermauern erneut die Annahme unterschiedlicher Cer-Konzentrationen: Während die Nachleuchtdauer der niedrig konzentrierten Leuchtstoffe von der Temperatur nahezu unberührt bleibt, zeigt sich eine bemerkenswerte Temperaturabhängigkeit des 5d1 --> 2F5/2 Übergangs beim YAG:Ce3+ mit hohem Cer-Gehalt. Auf Basis sämtlicher experimenteller Erkenntnisse und einer ausgiebigen Literaturrecherche kann schließlich eine Fremddotierung der Leuchtstoff-Proben nahezu vollständig ausgeschlossen und ein Energieschema für die vorliegenden YAG:Ce3+-Leuchtstoffe mit den wichtigsten optischen Übergängen erstellt werden. In Hinblick auf potentielle holographische Applikationen wie der optischen Datenspeicherung oder Echtzeit-Holographie erweisen sich die in Polydimethylsiloxan eingebetteten photoschaltbaren Ruthenium-Sulfoxide aufgrund der äußerst geringen Beugungseffizienz von < 10−2 als nicht pragmatisch für die Praxis (s. Kapitel 4). Vergleichbare photoschaltbare Materialien, wie zum Beispiel Natriumnitrosylprussiat, erreichen hingegen Effizienzen von bis zu 100 %. Dennoch zeichnen sich die in Publikation 2 (s. Anhang A.2) vorgestellten Resultate an OSO-PDMS durch ihre äußerst hohe Qualität aus. Sowohl die dynamische Hologramm-Entstehung als auch die Rocking-Kurve folgen den physikalischen Theorien einwandfrei und lassen sich mit den bekannten mathematischen Anpassungen exakt wiedergeben, womit sich entsprechend intrinsische Größen ableiten lassen. Zudem beeindruckt der experimentelle Aufbau mit der präzisen Messung der oftmals nicht detektierbaren Nebenmaxima der gezeigten Rocking-Kurve sowie des Winkel-Multiplexings. Bemerkenswert ist außerdem aus physikalischer Sicht der immense Unterschied zwischen cw- und fs-Holographie. Hier deuten sich nichtlineare Effekte an, die zu der Erkenntnis führen, dass sich die bekannten Theorien mit cw-Lasern nicht ohne Weiteres deckungsgleich auf die Holographie mit ultrakurzen Laserpulsen anwenden lassen. Ein möglicher Erklärungsansatz ist in Kapitel 4.1 beschrieben. Einen praktischen Zweck zur Nutzung nichtlinearer Effekte erfüllt die vorgestellte Messmethode zur Unterscheidung polarer und nicht-polarer Materialien mittels intensiver fs- Puls-Anregung von sogenannten harmonischen (Upconversion-)Nanopartikeln (s. Kapitel 5). Denn anders als die zu Beginn behandelten Leuchtstoffe, weisen die harmonischen Nanopartikel eine starke Anti-Stokes Verschiebung durch Frequenzkonversion zweier oder dreier Photonen zu einem energiereicheren (kurzwelligen) Photon auf. Diese als SHG (second harmonic generation) und THG (third harmonic generation) bekannte Lichtemission wird spektral vermessen, wobei die zu Beginn der Arbeit beschriebenen linearen diffusen Reflektanzmessungen den zu erwartenden Spektralbereich ohne nennenswerte Absorption eingrenzen. Die eigens definierte Gütezahl fR, bestehend aus dem integrierten SHG- und THG-Emissionsspektrum einer Probe, kategorisiert dann die polare (fR > 1) oder nicht-polare (fR << 1) Natur des Materials.

Diffuse Reflektanz

Fluoreszenz

YAG:Ce3+

TiO2

Nanopartikel

Mikropartikel

Spektroskopie

Holographie

Photoschaltbare Moleküle

Ruthenium Sulfoxide

Remission

Absorptionskoeffizient

Beugungseffizienz

Lineare Optik

Nichtlineare Optik

Third Harmonic Generation

Harmonisches Verhältnis

fs laser

Fluoreszenzspektrometer

Simulation

Dielektrische Pulvertabletten

Kubelka-Munk Theorie

Mie Streuung

Rockingkurve

Winkel-Multiplexing

Holographische Elementargitter

LiNbO3

Second Harmonic Generation

Upconversion

Harmonic Ratio

cw laser

Tauc Plot

dielectric powder pellets

optical materials

nanomaterials

troubleshooting

Optical storage materials

Volume gratings

Photosensitive materials

polarity

diffuse reflectometry

33.18 - Optik

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