Anatomical and Functional Results of Endotamponade with Heavy Silicone Oil – Densiron® 68 – in Complicated Retinal Detachment

Herbrig, Erdmuth, Sandner, Dirk, Engelmann, Katrin

January 2007

Background: High-density silicone oils are newly developed long-term tamponade agents for the treatment of complicated retinal detachment in the inferior retina. Previous studies describe satisfying anatomical and functional results. In this study we examined the largest cohort so far for a 9-month follow-up and performed a comparison to conventional silicone oil. Methods: Our study documents results and adverse effects after vitreoretinal surgery and endotamponade with Densiron® 68 in 99 cases of complicated retinal detachment. A 9-month follow-up was performed. Data of 21 patients with intraocular conventional silicone oil tamponade in complicated retinal detachment were retrospectively analyzed and served as control. Results: Anatomical success was achieved in 78 of 89 eyes (87.6%) with completed follow-up; visual acuity did not change significantly (from mean preoperative logMAR 1.88 to postoperative logMAR 1.96 (p = 0.9). Compared to control a higher anatomical success but a similar number of adverse effects were observed with heavy silicone oil in vitreous. Nevertheless, patients who received Densiron 68 twice due to redetachment showed a significantly higher rate of intraocular inflammation with the tamponade agent in situ. Conclusion: Our results support the hypothesis of Densiron 68 as potent tamponade agent for complicated retinal detachment in the inferior retinal segments especially in eyes where a previous operation failed. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

Investigation of a polyether trisiloxane surfactant: Environmental fate and homologue specific trace analysis from surface water

Michel, Amandine

28 July 2015

Thanks to their adaptability and high efficiency compared to traditional carbon based surfactants, silicone surfactants are a success in many different applications, from pesticides to cosmetics, polyurethane foam, textile and car care products. In spite of those numerous applications, no analytical method existed for their trace determination in environmental samples and no data have been available regarding their environmental occurrence and fate. An analytical method for the trace analysis of trisiloxane surfactants in the aqueous environment was developed and validated. The method, based on liquid-liquid extraction and HPLC-MS/MS, reaches limits of quantification in the ng L-1 range and allows an individual quantification of every homologue of the targeted trisiloxane surfactant. The newly developed analytical method was applied to analyze 40 river water samples. The targeted trisiloxane surfactant was detected in 14 samples, between 1 ng L-1 and 100 ng L-1. The results showed that the studied trisiloxane surfactant does not ubiquitously occur in the aquatic environment in measurable concentrations, but can reach surface waters on a local scale. In order to assess the persistence of the trisiloxane surfactant in surface waters, its hydrolysis was studied in the lab, under various conditions (temperature, pH, and concentration). The half-lifes at pH 7 and 2 mg L-1 were found to be between 29 days and 55 days at 25°C and between 151 days and 289 days at 12°C. Taking only into account the hydrolysis, these results indicate that the trisiloxane surfactant could persist several weeks in surface waters. A degradation product of the trisiloxane surfactant was tentatively identified by high resolution mass spectrometry. When used as agricultural adjuvants, trisiloxane surfactants may reach the soil compartment and might further leach to ground water. The behavior of the trisiloxane surfactant on soil was therefore investigated to assess the possibility to reach ground water. With a sorption batch equilibrium method, distribution coefficients between water and soil (Kd, Koc, and Kclay) were estimated for two standard soils (loam and sandy loam) and for every homologue of the trisiloxane surfactant. The obtained values for Kd were between 15 L kg-1 and 135 L kg-1, indicating that the trisiloxane surfactant is only slightly mobile in soil. To further investigate the possibility of leaching to ground water after application on agricultural fields, the leaching in soil was simulated in the lab in a soil column. The experimental settings were designed to simulate a worst case scenario where the application of the trisiloxane surfactant is done on quartz sand and is immediately followed by a heavy rainfall. Even in these conditions, less than 0.01 % of the initially applied trisiloxane surfactant leached through 20 cm of quartz sand. Based on the Kd values and the results of the leaching in soil column, the studied trisiloxane surfactant is considered to be unlikely to leach to ground water after application as an agricultural adjuvant.

info:eu-repo/classification/ddc/550

ddc:550

Strukturelle Klebungen mit UV- und lichthärtenden Acrylaten

Vogt, Iris

30 March 2009

UV- und lichthärtenden Acrylatklebstoffen steht ein breites Anwendungsspektrum im Konstruktiven Glasbau offen. Ihr farbloses und klares Erscheinungsbild fördert eine Konstruktion, die transparent und leicht wirken soll. Kurze Aushärtezeiten, die sich im Sekunden- oder einstelligen Minutenbereich bewegen, ermöglichen eine schnelle Herstellung und reduzieren die Lagerzeiten. Die geklebten Konstruktionen können direkt weiterverarbeitet werden. Durch diese Vorteile heben sie sich von den Silikonklebstoffen ab, die für ausge-wählte Anwendungen im Fassadenbau (Structural-Sealant-Glazing-Systems - SSGS) bauaufsichtlich zugelassen sind. Gegenstand dieser Arbeit ist die Aufstellung von Empfehlungen zur Planung und Berechnung struktureller Klebungen mit strahlungshärtenden Acrylaten. Dafür werden Klebstoffe an dem reinen Material sowie in Verbindungen mit Glas und Metall untersucht. Für ein umfangreiches Bild über das Verhalten des Materials bieten sich Substanzprüfkörper an, die mit überschaubarem Aufwand eine Auswertung verschiedener Einflüsse - beispielsweise Temperatur und Prüfgeschwindigkeit - erlauben. An in-situ-Prüfkörpern kann der Klebstoff in der Verbindung betrachtet werden. Durch Wechselwirkungen zwischen Klebstoff und Fügeteil bildet sich eine sogenannte Grenzschicht aus, die gradierte Eigenschaften besitzt und die Materialkennwerte - besonders bei dünnen Klebfugen - beeinflusst. Weiterhin erlauben diese Prüfkörper eine Aussage über das Tragverhalten der Klebverbindung. Um das Potenzial der Acrylatklebungen in der Glasarchitektur aufzuzeigen und in der Anwendung zu prüfen, werden Bauteile mit punktförmig geklebten Halterungen untersucht. Absturzsicherungen werden statischen und dynamischen Belastungen unterworfen. An Überkopfverglasungen werden Trag- und Resttragfähigkeitsuntersuchungen durchgeführt. Bauteile im Freien geben Aufschluss über das Alterungsverhalten unter natürlichen klimatischen Bedingungen. / UV and light curing acrylates present a whole host of possibilities for the implementation of glass construction. Their clear and colourless appearance produces a transparent and lightweight construction. Short curing times consisting of no more than mere minutes allow for quick production with minimal downtime within the overall process. Processing can be resumed immediately once bonding has occurred. The advantages of acrylates can be compared to the characteristics and properties of adhesive silicones which have been widely approved by building authorities for specific façade applications (Structural-Sealant-Glazing-Systems - SSGS). The subject matter of this study is the development of auxiliary tools to plan and design adhesively bonded joints of UV and light curing acrylates. These adhesives are, therefore, analysed both generally as bulk material and in applications as a joint between glass and metal. The use of dog bone shaped specimens is recommended to analyze the material behaviour under a variety of influence factors such as temperature and testing rate. The bonded joints of test specimens provide an opportunity to examine the interaction between the adhesive and the materials to which they are adhered. An interface with graded properties is formed based upon the interactions between adhesive joints and each particular substrate. Further on, bonded specimens enable the development of a statement concerning the load-bearing capacity of joints. Constructions having spot bonded joints are tested to demonstrate the potential use of acrylic joints in architectural glass treatments. Safety barriers are tested under both static and dynamic loads. Sloped roof systems are tested to substantiate load-bearing capacity and to verify any residual carrying capacity. Components are exposed to natural weathering in order to examine the affects of ageing on the adhesive.

info:eu-repo/classification/ddc/690

ddc:690

Etude de la réticulation de matériaux silicones : Application au développement d'un procédé d'architecturation des propriétés mécaniques d'élastomères / Processing and study of mechanically architectured silicone elastomer membranes

Stricher, Arthur

08 December 2015

La première partie de ce travail traite des propriétés mécaniques de matériaux silicones de type HCR réalisés à partir de macromolécules dont la structure a dû être déterminée. Les relations existantes entre macromolécules initiales et matériaux finaux sont discutées. Cela nous a permis d’isoler un seul paramètre à ajuster pour développer un procédé permettant l’architecturation des propriétés mécaniques d’une membrane en silicone : la densité de réticulation. Ensuite, nous avons comparé trois classes d’élastomères silicones en tentant de comprendre comment les différences de réseau, comprenant une matrice commune mais des moyens de réticulation et renforcements différents, influaient sur les propriétés mécaniques simples (par exemple de traction et de dureté) et plus avancées (comme les propriétés dynamiques et élastiques). L’influence du réseau, des charges, du mécanisme de réticulation et les différentes interactions existantes entre eux, ont orienté notre choix sur la formulation dont la réticulation est la plus contrôlée, et les propriétés élastiques les meilleures, c’est-à-dire les LSR. Nous avons alors développé un procédé permettant de contrôler localement la cinétique de réticulation d’une formulation silicone par dégradation du catalyseur aux UV. Ce procédé très simple nous a permis d’obtenir une large gamme de propriétés mécaniques avec des conditions de réticulations semblables. Les deux premières études ont permis d’expliquer plus facilement le comportement mécanique des matériaux-sous-réticulés. Des membranes anisotropes ont pu être réalisées à l’aide de masques à motifs. Les membranes obtenues ont même ouvert la porte à des perspectives très intéressantes, comme l’architecturation de surface par lavage au solvant, la post-fonctionnalisation chimique via les fonctions non réagies, et le collage cohésif silicone-silicone. / The first part of this work deals with the mechanical properties of high consistency silicone rubbers crafted from macromolecules whose structure had to be determined, and the existing links between initial macromolecules and final material behavior. It allowed us to choose only one parameter to adjust in order to manufacture mechanically architectured silicone membranes: the crosslinking density. Then, three types of silicone elastomers were compared in an attempt to understand how network differences, comprising the same matrix but different crosslinking chemistry and reinforcement, influenced the mechanical properties, both simple (such as hardness and modulus), and more complex (dynamic, and elastic). The influence of the network, fillers, matrix and the different interactions between them oriented our choice towards the silicone ty with the best control of the crosslinking and best elasticity, namely LSR. Then, we developed a process allowing the local control of the crosslinking kinetics of a silicone formulation by UV degradation of the crosslinking catalyst prior to regular heat crosslinking. From this simple and versatile process, materials with a wide range of mechanical properties were manufactured and characterized. The first two studies helped us to understand the mechanical properties of under and regularly crosslinked materials. Anisotropic membranes were also manufactured thanks to the use of patterned masks during irradiation. The obtained materials opened up new promising perspectives, such as surface architecturation through solvent wash of under crosslinked zone, chemical post functionalization of unreacted moieties, or even cohesive silicone-silicone gluing.

Elastomère silicone

Relation structure propriétés

Réticulation

Propriété mécanique

Réseau macromoléculaire

Procédé d’élaboration

Silicon elastomere

Structure and properties relationship

Crosslinking

Mechanical properties

Macromolecular network

Elaboration process

620.194 072

Silicone blends for aeronautic applications / Mélanges de silicones pour l'aéronautique

Spigolis, Camille

12 April 2018

Ces travaux de thèse portent sur le développement d’un joint silicone pour la connectique dans l’aéronautique. Ce joint silicone doit être résistant aux solvants ainsi qu’aux huiles susceptibles de rentrer en contact avec celui-ci, et posséder de bonnes propriétés thermiques et mécaniques. Pour ce faire, les paramètres influençant ces propriétés ont été étudiés, comme la composition de la matrice, les conditions de sa réticulation et la formulation via différentes charges. Des matériaux silicones tels que le polydiméthylsiloxane (PDMS) et le polytrifluoropropylméthylsiloxane (PTFPMS) ont été sélectionnés pour composer la matrice. Leur flexibilité, leur large plage de température d’utilisation ainsi que leur excellente résistance aux attaques chimiques en font des matériaux de choix pour ce genre d’application. L’étude des mélanges de PDMS et de PTFPMS a démontré que les proportions idéales sont de 70/30 PDMS/PTFPMS. Le type de mélangeur sélectionné est une calandre bi-rouleaux, dont les rouleaux sont chauffés à 40°C. La réticulation de la matrice a été le sujet d’une étude approfondie. La cinétique de réticulation a été étudiée et l’influence des paramètres de réticulation tels que la température de réticulation, la nature et la quantité de peroxyde sur les propriétés finales ont été discutées. Finalement, l’influence de l’ajout de différentes charges sur le gonflement, la résistance thermique et les propriétés mécaniques de l’élastomère a été étudiée afin d’élaborer la formulation du joint silicone. / Polydimethylsiloxane (PDMS) and polytrifluoropropylmethylsiloxane (PTFPMS) elastomers are popular material in the aeronautic and connector fields. Their flexibility, wide service temperature range and chemical resistance make them first-choice materials for such applications. PTFPMS provides oil and apolar solvent resistance to the final material, while PDMS provides resistance to polar solvents, greater thermal resistance than PTFPMS, and cost reduction. Typically, connector seals comprising PDMS and PTFPMS can be composed of blends of homopolymers, of copolymers or of blends of homopolymers and copolymers. This present work deals only with blends of homopolymers. First, commercial PDMS and PTFPMS bases were selected and characterised, the blending process chosen and the PDMS/PTFPMS ratio tuned so as to minimise swelling in acetone and methylcyclohexane while maximising thermal properties. The optimal blend composition comprised 30 wt% PTFPMS. The second part of this work explored the influence of crosslinking conditions on final properties of the cured PDMS/FS blend. Crosslinking parameters, such as the temperature (160 and 180°C), the nature (DCP and DBPH) and the quantity (0.5 and 1 wt%) of peroxide, were varied. It appeared that co vulcanisation between PDMS and PTFPMS, occurs in certain conditions. Swelling as well is influenced by crosslinking conditions but not thermal properties. Finally, the formulation of the ideal elastomer was developed. Fillers, such as TiO2, CaCO3, quartz, CeO, a pigment, Fe2O3 and a platinum compound, were selected and their influence on thermal, mechanical and swelling properties studied. Regarding thermal and solvent properties, a high loading of fillers is a good strategy, however, an increase of permanent set was observed with the augmentation of filler fraction. Final formulations were selected for the compromise they offered between thermal and swelling properties and mechanical behaviour on the lab scale. Morphology observation revealed well dispersed domains, comparable to that of the non additivated blend.

Matériaux

Elastomères silicones

Fluorosilicone

Mélange

Réticulation

Formulation

Gonflement macroscopique

Propriétés thermiques

Propriétés mécaniques

Materials

Silicone elastomer

Fluorosilicone

Blends

Crosslinking

Formulation

Solvent resistance

Thermal properties

Mechanical properties

620.194 072

Composites conducteurs polymères hautement déformables pour la récupération d’énergie houlomotrice / Conductive and highly stretchable polymer composites for wave energy harvesting

Iglesias, Sophie

23 April 2018

Ces travaux de thèse ont porté sur l’élaboration d’électrodes déformables pour la récupération d’énergie houlomotrice. En effet, la conversion de l’énergie mécanique des vagues en électricité est possible via un système entièrement souple et basé sur la technologie des polymères électroactifs (ou EAP). Ces matériaux ont la capacité de se déformer sous stimuli électrique, d’où la nécessité de développer des matériaux conducteurs déformables. Le matériau EAP choisi pour l’étude est un élastomère silicone. La formulation de composites à matrice élastomère silicone chargée en particules conductrices carbonées (graphite, nanofeuillets de graphite et nanotubes de carbone) est ainsi la piste suivie pour composer des électrodes déformables. Deux méthodes de mélange, en voie fondu, ont été explorées. La première utilise un mélangeur planétaire, et la seconde utilise en plus un mélangeur tri-cylindre. L’influence sur les propriétés électriques des composites, de la méthode de mélange, de la nature de la charge conductrice ainsi du taux de charges, a été analysée. Aussi, l’étude de la percolation électrique ainsi que l’étude des mécanismes de conduction mis en jeux dans les différents composites ont été réalisées, et complétées par l’observation de la morphologie en microscopie optique et en microscopie électronique. Le comportement mécanique des composites en traction a également été analysé. Enfin, les propriétés couplées électro-mécaniques des composites les plus prometteurs ont été testées. Les mesures permettent de proposer une formulation à base de nanotubes de carbone comme électrode déformable. / This PhD work presents the development of stretchable electrodes for wave energy harvesting. Indeed, it is possible to convert the mechanical energy of the waves into electricity thanks to a flexible system based on electroactive polymer (EAP) technology. As EAPs have the ability to deform under electrical stimuli, deformable conductive materials are needed. In this study, the chosen EAP is a silicone elastomer. Composites formulated with silicone elastomer matrix filled with carbonaceous conductive particles (graphite, graphite nanoplatelets and carbon nanotubes) were thus developed. Two mixing methods, by melt compounding, have been explored. The first uses a planetary mixer, and the second uses a three roll-mill. The influence of the mixing method, the nature of the fillers and the filler rate on the electrical properties of the composites has been analyzed. The morphology, as well as the percolation and the conduction mechanisms have been studied. The tensile properties of the composites were also analyzed. Finally, the electromechanical coupled properties of the most promising composites were tested, allowing us to propose a formulation as a stretchable electrode.

Matériaux

Silicones

Materiaux composites

Electrodes déformables

Nanotube de carbone

Nanofeulles de graphite

Percolation

Mécanismes de condut

Materials

Silicone elastomer

Composite

Stretchable electrodes

Carbon nanotube

Graphite nanoplatelets

Percolation

Conduction mechanisms

620.192 072

Foundations for Smart Metamaterials by Liquid Metal Digital Logic and Magnetoelastic Properties Control

Nick, Zachary H.

06 October 2020

No description available.

Engineering

Electromagnetism

Materials Science

Mechanical Engineering

Mechanics

Polymers

metamaterials

flexible electronics

liquid metal

magnetoelastic

magnetorheological

smart materials

materials

sensing

digital sensing

sensors

mechanical properties

adaptibility

polymers

silicone rubber

Parasites Predators and Symbionts

Vankeuren, Jody L.

17 June 2021

No description available.

Fine Arts

large scale wearable

jewelry

Fine art

alternative materials

environment

metalsmithing

metal work

casting

chasing and repousse

silicone

nuno felt

parasites

symbionts

A Compressible Advection Approach in Permeation of Elastomer Space Seals

Garafolo, Nicholas Gordon

20 May 2010

No description available.

Mechanical Engineering

permeation

leakage

leak rate

silicone elastomer

permeability

permeation

advection

compressible advection

compressibility

porosity

diffusion

seal

space seal

face seal

main docking interface

Klinkenberg coefficient

Pharmaceutical Quality and Syringeabilityof Pre-filled Syringes : An explorative study on the effect of different syringe barrel andplunger combinations on a proteinaceous pharmaceutical.

Sevegran, Emma

January 2020

4AbstractA pre-filled syringe consists of a number of different components and materials e.g. glass, polymer and silicone oil, which will, in various degrees, interact with the pharmaceutical protein and excipients contained within. In addition to soluble protein loss due to adsorption to silicone droplets, silicone oil (SO) have also been reported to form complexes with pharmaceutical proteins that potentially provoke early and late-stage immune responses. The objective of this project was to investigate the impact of 10 different syringe barrel and plunger combination on the quality on pharmaceutical X and the performance of the syringe (syringeability). This is an explorative study and the purpose of this study was to investigate what options there were rather than to make firm recommendations. pH measurements indicated all chosen combinations were within acceptance criteria. Similarly, subvisible particle with reference standards and USP <788> tests indicated that all chosen combinations were within acceptance criteria. Analysis of visible particles without reference standards indicated that all combinations except 1B and 1C were within acceptance criteria. In terms of syringeability, functional testing revealed that combination 8A was a very poor choice and combination 1B a very good choice. In all of the tests, the currently used combination 1A was within the acceptance criteria. With respect to both the pharmaceutical quality and syringeability, it was considered to be equally preferred as many other combinations. Therefore, there is no real urgency to exchange the currently used syringe. Further investigation of plunger B, and possible other plunger combinations is recommended as they might play a bigger role than the syringe barrel with regard to the syringeability. Additionally, placebo suspension can only be used as a representative alternative for testing pH. / En förfylld spruta består av många olika komponenter och material så som glas, polymer, silikon olja, vilka, till olika grad, kommer reagera med proteiner och hjälpämnen i läkemedlet. Utöver förlust av protein (som följd av adsorption till silikon droppar), har det även rapporterats att silikon olja (SO) bildar komplex med proteinerna i läkemedlet vilka kan framkalla en immunologisk reaktion. Syftet med detta projekt var att undersöka effekten av 10 olika kombinationer av sprut-höljen samt kolvar på kvalitén på läkemedel X samt sprutans prestationsförmåga. Detta är en explorativ studie och syftet var att undersöka vilka alternativ som finns samt få en indikation för hur de uppför sig snarare än att ge tydliga rekommendationer. pH mätningar indikerade att alla valda kombinationer var inom acceptanskriterier. Liknande, både mätning av synliga och mikroskopiska partiklar med hjälp av referenslösningar samt metod USP 788 indikerade att alla valda kombinationer var inom acceptanskriterier. Mätning av synliga och mikroskopiska partiklar utan referenslösningar indikerade att alla kombinationer utom 1B och 1C var inom acceptanskriterier. Gällande sprutkombinationernas funktionalitet (prestationsförmåga) visade det sig att kombination 8A var ett dåligt val och kombination 1B ett attraktivt val. I alla tester, den nuvarande använda kombinationen (1A) var inom acceptanskriterier. Med avseende på både läkemedlets kvalité samt funktionalitet visade sig 1A vara ett likvärdigt alternativ till de andra kombinationerna. Detta innebär att det i dagsläget inte finns ett akut behov av att byta ut det nuvarande sprutkombinationen. Fortsatt utredning av kolv B, samt andra kolvar, är att rekommendera då de kan ha större påverkan funktionaliteten än höljet. Vidare kan placebolösning enbart användas som ett representativt alternativ för att testa pH.

Pre-filled syringes

protein aggregation

break loose

gliding force

pharmaceutical quality

subvisible particles

silicone oil

barrel

plunger

Medical Biotechnology

Medicinsk bioteknologi