Studies of the alkaline degradation of cellulose and the isolation of isosaccharinic acids

Shaw, Paul B.

January 2013

Cellulosic materials are expected to form a significant proportion of the waste proposed for disposal in underground repositories being designed for the storage of radioactive waste. Under the alkaline conditions of these facilities, cellulose degrades by a so called „peeling‟ reaction resulting in the production of a complex mixture of products (CDPs), the major components being α- and β isosaccharinic acid (α and β-ISA). A significant amount of research has been performed on ISA as part of the safety assessment for the development of these underground repositories due to the ability of ISA to complex with, and increase the solubility of radioactive isotopes. Until now, the vast majority of this research has involved the readily-available α-ISA, only a limited number of studies have involved β-ISA because no simple procedure is available for its isolation. Therefore, in this project, a method for the synthesis and isolation of β-ISA was developed. Cellulose degradation experiments which were performed to maximise solution concentrations of β-ISA are described in chapter 3. Microcrystalline cellulose was degraded under anaerobic conditions at either RT, 50 °C or 90 °C and comparisons were made between the use of NaOH and Ca(OH)2 as the base catalyst. As expected, the major products of all degradation reactions were α- and β-ISA, in addition, small amounts of free metasaccharinic acid (MSA) was detected in the Ca(OH)2 reactions. The largest solution concentrations of β-ISA were produced when cellulose was degraded at 90 °C using NaOH; after 24 hrs of reaction, solution concentrations of 12.7 g L-1 were achieved, whereas, in the equivalent Ca(OH)2 reaction, after 4 days a maximum concentration of only 5.1 g L-1was produced. For this reason, cellulose was degraded at 90 °C using NaOH to produce degradation solutions to be used in procedures to isolate β ISA. An additional finding was that significant amounts of ISA were being removed from degradation solutions due to absorption on to unreacted cellulose fibres; in the NaOH reaction, absorption was occurring rapidly and the percentage of ISA in both the solution and solid phases were very similar. In the Ca(OH)2 reaction, the absorption was a slow process and the percentage of ISA on the solid phase (61 %) was lower than the percentage of ISA in the solution phase (84 %) suggesting that solid Ca(OH)2 was affecting both the rate at which absorption was occurring and the composition of the absorbed species; this was possibly due to solid Ca(OH)2 physically obstructing the access of ISA to the cellulose fibres and also catalysing the oxidation of some of the ISA into smaller fragmentation products. Methods which were developed to isolate β-ISA are described in chapter 4. Isolation of β-ISA was initially achieved by eluting crude cellulose degradation solutions directly through a column of anion exchange resin. Using an automated system, a large throughput of material was possible resulting in the accumulation of relatively large amounts of β-ISA; after repeating the column 17 times, 1 g of pure β-ISA was isolated. However, using this method, the crude solutions severely fouled the anion exchange resin, concluding that anion exchange was more suited to small scale isolations of β-ISA. A final isolation procedure was developed which involved the elution of mixtures of benzoylated CDPs through normal phase silica columns. It was determined that prior to elution, coloured impurities could be efficiently removed by passing the derivatised mixture through a wide bed of silica. Slow elution of the resulting clean syrup through a large silica column allowed up to 7 g of tribenzoylated β-ISAL to be isolated and following de-benzoylation procedures, 2.6 g of β-ISA was isolated from a single column. The large protecting groups also allowed single crystals of both α- and β-tribenzoate to be produced and the resulting X-ray structures confirmed the absolute configuration of tribenzoylated β-ISAL as being 2R, 4S. Additional NMR analysis of collected fractions allowed several other polyhydroxylated compounds to be identified, also present as their perbenzoylated esters, these being: 3,4-dihydroxybutanoic acid, 2,5-dihydroxypentanoic acid, 2,3-dideoxypentanoic acid and 2,4,5-trihydroxypentanoic acid. The isolation of large amounts of β-ISA allowed several solution phase physical properties of β ISA to be measured and these are reported in chapter 5, including the aqueous pKa (3.61) which was determined using NMR methods. The rate constants for the inter-conversion between ISAH and ISAL were also studied for both α- and β-ISA. In acidic environments, ISAH undergoes an acid catalysed lactonisation to generate isosaccharino-1,4-lactone (ISAL), conversely in basic environments, ISAL undergoes a base catalysed ring-opening to produce ISAH. Using pH-stat autotitration, the second-order rate constants for the lactone hydrolysis reaction were determined, to which values of 25.3 M-1 s-1 for β-ISAL and 97.0 M-1 s-1 for α-ISAL were observed. The acid catalysed lactonisation of ISAH was studied using 1H NMR spectroscopy; the second-order rate constant for the lactonisation of β-ISAH (3.10 x 10-3 M-1 s-1) was larger than the second order rate constant for the lactonisation of α-ISAH (7.04 x 10-4 M-1 s-1).

600

Q Science (General) ; QR Microbiology

Stress corrosion cracking susceptibility in Alloy 600 with different strain histories

Lorho, Nina

January 2014

Lifetime prediction of components in Alloy 600 is a major concern for nuclear power plants. Alloy 600 components have been shown to be susceptible to stress corrosion cracking (SCC). In the 1990’s, an engineering model was developed in order to predict the life time as a function of the main macroscopic parameters (stress, environment, material), based on laboratory results. This model has since been used to predict the ranking of various Alloy 600 components, using the knowledges of the manufacturing and service conditions for each component. It was applied successfully in the case of forged control rod drive mechanism (CRDM) nozzles. However, it was found necessary to improve this model to account for the strain history of the different components. Predictions using the model, investigated from an array of test results on Alloy 600 in laboratory primary water, have demonstrated that the time for initiation differed significantly according to the strain path applied to the specimen. The present work is dedicated to assess SCC results from samples with different strain paths and different level of cold work in order to better understand the manufacturing conditions on SCC. The samples are machined in three different directions and tested at different durations in order to model the time for transition (transition between slow and fast propagation) as a function of cold work, strain path and stress. Thermomechanical treatments are also applied on two different heats of Alloy 600: forged WF675 (very susceptible to SCC in as received conditions) and rolled 78456/337 (non susceptible to SCC in as-received conditions) in order to transform the forged microstructure into a microstructure close to the rolled microstructure and vice-versa. These microstructures are then tested in primary conditions and the results are compared to the results obtained on as-received material in order to get a better understanding of manufacturing process and microstructure parameters regarding SCC behaviour.

620.1

Stress corrosion cracking ; Alloy 600

Da[má]ternagem e suas pulsões: a crueldade na função materna sob o olhar psicanalítico.

Melo, Guaíra Moreira Camilo de

26 September 2017

Submitted by Biblioteca Central (biblioteca@unicap.br) on 2018-07-17T13:52:26Z No. of bitstreams: 2 guaira_moreira_camilo_melo.pdf: 1332858 bytes, checksum: 67999c82386e46775bd48c4b844d390e (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-07-17T13:52:26Z (GMT). No. of bitstreams: 2 guaira_moreira_camilo_melo.pdf: 1332858 bytes, checksum: 67999c82386e46775bd48c4b844d390e (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2017-09-26 / This research emerged from the interest in understanding the cases, increasingly propagated in media vehicles, of infants killed or severely abused by people to whom are commonly atributed expressions of love and care as mothers, stepmothers and grandmothers. Such events foster inquiries about this social symptom, especially about the psycho-affective history of these females perpetrators of cruelty, because they are against the supposed innate tendency toward maternal love that is presupposed to the feminine. From the theoretical contributions of Sigmund Freud, Sándor Ferenczi, Elizabeth Badinter and Françoise Couchard, we reflect on what developments these cases can bring to psychoanalytic clinic and criminology today. In order to investigate the manifestations of cruelty perpetrated by women against children under their care, we propose to think what leads, from the point of view of psychoanalytic theory, a woman to take responsibility under a child to commit cruel acts; to understand how the maternal function is expressed in these women and to analyze what in the history of the psycho-affective development of these women may be repeating itself towards the possible identification to a previous aggressor. To do so, we chose documentary research to study the trial data of two cases of women accused of torturing children they took under their care. It was identified in these processes aspects that pointed to the creation of a psychoaffective history of these women, where it was possible to conjecture that the broken and ill family bond that probably contributed to the abuses suffered by the women during their childhood possibly provided an identification of them with their aggressors and the consequent repetition of their acts, which, established in a relationship of domination, enabled them to live an active life of this cruelty drive. / Esta pesquisa surgiu do interesse por compreender os casos, cada vez mais propagados em veículos midiáticos, de infantes mortos ou severamente violentados por pessoas a quem comumente são atribuídas expressões de amor e cuidados como mães, madrastas e avós. Tais acontecimentos fomentam indagações a respeito desse sintoma social, sobretudo acerca do histórico psicoafetivo dessas mulheres perpetradoras de crueldade que chocam, por irem de encontro à suposta tendência inata ao amor materno que se pressupõe ao feminino. A partir das contribuições teóricas de Sigmund Freud, Sándor Ferenczi, Elizabeth Badinter e Françoise Couchard, refletimos acerca de quais desdobramentos esses casos podem trazer à clínica psicanalítica e à criminologia, na atualidade. No intuito de investigar as manifestações de crueldade perpetradas pelas mulheres contra crianças sob seus cuidados, nos propomos a pensar o que leva, do ponto de vista da teoria psicanalítica, uma mulher a adquirir responsabilidade sob uma criança para cometer atos cruéis; assim como compreender de que modo a função materna se expressa nessas mulheres e analisar o que da história do desenvolvimento psicoafetivo dessas mulheres pode estar se repetindo diante da possível identificação a um agressor prévio. Para tanto, elegemos a pesquisa documental para estudar os dados processuais de dois casos de mulheres acusadas de torturarem crianças as quais tomaram sob seus cuidados. Foram identificados nesses processos aspectos que apontaram para a criação de um histórico psicoafetivo dessas mulheres, diante dos quais foi possível conjecturar que os vínculos familiares rompidos e adoecidos, que provavelmente contribuiram para os abusos sofridos pelas mulheres, durante sua infância, possivelmente propiciaram uma identificação das mesmas com seus agressores e a consequente repetição dos seus atos, que, estabelecidos numa relação de apoderamento, possibilitaram para elas a vivência ativa dessa pulsão de crueldade.

Dissertações

CIENCIAS HUMANAS::PSICOLOGIA#

#3411867255817377423#

#600

Magnetic Attitude Control of Miniature Satellites and its Extension towards Orbit Control using an Electric Propulsion System / Magnetische Lageregelung von Kleinstsatelliten und ihre Erweiterung zur Orbitregelung durch die Integration eines Elektrischen Antriebssystems

Bangert, Philip

January 2019

The attitude and orbit control system of pico- and nano-satellites to date is one of the bottle necks for future scientific and commercial applications. A performance increase while keeping with the satellites’ restrictions will enable new space missions especially for the smallest of the CubeSat classes. This work addresses methods to measure and improve the satellite’s attitude pointing and orbit control performance based on advanced sensor data analysis and optimized on-board software concepts. These methods are applied to spaceborne satellites and future CubeSat missions to demonstrate their validity. An in-orbit calibration procedure for a typical CubeSat attitude sensor suite is developed and applied to the UWE-3 satellite in space. Subsequently, a method to estimate the attitude determination accuracy without the help of an external reference sensor is developed. Using this method, it is shown that the UWE-3 satellite achieves an in-orbit attitude determination accuracy of about 2°. An advanced data analysis of the attitude motion of a miniature satellite is used in order to estimate the main attitude disturbance torque in orbit. It is shown, that the magnetic disturbance is by far the most significant contribution for miniature satellites and a method to estimate the residual magnetic dipole moment of a satellite is developed. Its application to three CubeSats currently in orbit reveals that magnetic disturbances are a common issue for this class of satellites. The dipole moments measured are between 23.1mAm² and 137.2mAm². In order to autonomously estimate and counteract this disturbance in future missions an on-board magnetic dipole estimation algorithm is developed. The autonomous neutralization of such disturbance torques together with the simplification of attitude control for the satellite operator is the focus of a novel on-board attitude control software architecture. It incorporates disturbance torques acting on the satellite and automatically optimizes the control output. Its application is demonstrated in space on board of the UWE-3 satellite through various attitude control experiments of which the results are presented here. The integration of a miniaturized electric propulsion system will enable CubeSats to perform orbit control and, thus, open up new application scenarios. The in-orbit characterization, however, poses the problem of precisely measuring very low thrust levels in the order of µN. A method to measure this thrust based on the attitude dynamics of the satellite is developed and evaluated in simulation. It is shown, that the demonstrator mission UWE-4 will be able to measure these thrust levels with a high accuracy of 1% for thrust levels higher than 1µN. The orbit control capabilities of UWE-4 using its electric propulsion system are evaluated and a hybrid attitude control system making use of the satellite’s magnetorquers and the electric propulsion system is developed. It is based on the flexible attitude control architecture mentioned before and thrust vector pointing accuracies of better than 2° can be achieved. This results in a thrust delivery of more than 99% of the desired acceleration in the target direction. / Eine präzise Lage- und Orbitregelung stellt derzeit eine der größten Limitierungen der Einsatzmöglichkeiten von Kleinstsatelliten dar. Um zukünftige wissenschaftliche und kommerzielle Missionen auch mit dieser Klasse von Satelliten erfolgreich durchführen zu können, ist eine Leistungssteigerung bei gleichbleibender Größe und Masse nötig. Die vorliegende Arbeit beschäftigt sich mit der Verbesserung des Lageregelungssystems, der Vermessung der Ausrichtgenauigkeit im Orbit und der Herstellung von Orbitregelungskapazitäten mithilfe von fortschrittlicher Sensordatenanalyse und optimierter on-board Software. Die hier entwickelten Methoden wurden an im Orbit befindlichen Satelliten demonstriert und deren Gültigkeit gezeigt. Neben einer Methode um die typische CubeSat Lageerkennungssensorik im Orbit zu kalibrieren wurde ein Verfahren entwickelt, um die Ausrichtgenauigkeit ohne die Zuhilfenahme eines externen Referenzsensors zu bestimmen. Beide Verfahren wurden mithilfe des UWE-3 Satelliten im Orbit demonstriert. Die genaue Analyse der Dynamik eines Satelliten gibt Aufschluss über die vorwiegend herrschenden Störmomente. Für Kleinstsatelliten im erdnahen Orbit kann gezeigt werden, dass Störungen aufgrund von statischen magnetischen Verunreinigungen bei Weitem am meisten Einfluss auf die Dynamik des Satelliten haben. In dieser Arbeit wird eine Methode präsentiert, die Daten der Lageerkennung nutzt um das magnetische Dipolmoment eines Kleinstsatelliten zu bestimmen. Mithilfe dieses Verfahrens konnte das Dipolmoment von drei unterschiedlichen CubeSats im Bereicht von 23.1mAm² bis 137.2mAm² präzise bestimmt werden. Um die Lageregelungsgenauigkeit zu steigern wird ein Software Konzept präsentiert, welches die bekannten Störungen der Satellitendynamik inherent und energieoptimiert kompensiert. Die Anwendung dieser on-board Software wurde mit UWE-3 in einer Vielzahl von Lageregelungsexperimenten im Orbit demonstriert. Die Integration von elektrischen Antrieben wird zukünftigen Kleinstsatelliten die Möglichkeit zur Orbitkontrolle geben und damit viele neue Anwendungsszenarien eröffnen. Die Qualifizierung und Vermessung der Triebwerke im Orbit stellt jedoch eine technische Schwierigkeit dar, da Schübe im Bereich von µN gemessen werden müssen. Ein Verfahren zur genauen Bestimmung des Schubs eines solchen Triebwerks basierend auf dessen Auswirkung auf die Satellitendynamik wurde entwickelt und wird hier mit Hilfe von Simulationen für die UWE-4 Mission demonstriert. Es wird gezeigt, dass mit Hilfe von UWE-4 der Schub der Triebwerke mit einer hohen Genauigkeit von 1% Fehler für Schübe größer 1µN gemessen werden können. Eine magnetische Lageregelung unter Zuhilfenahme der elektischen Antriebe stellt das Konzept der hybriden Lage- und Orbitregelung für UWE-4 dar. Die damit erzielbare Leistung hinsichtlich der Ausrichtgenauigkeit sowie Orbitregelung wurde untersucht und ist hier für verschiedene Szenarien gezeigt.

Satellit

Lageregelung

Plasmaantrieb

ddc:003

ddc:600

Synchrony Measurement and Connectivity Estimation of Parallel Spike Trains from in vitro Neuronal Networks / Messung der Synchronität und Abschätzung der Konnektivität von in-vitro Spike-Trains

Ciba, Manuel

January 2021

The goal of this doctoral thesis is to identify appropriate methods for the estimation of connectivity and for measuring synchrony between spike trains from in vitro neuronal networks. Special focus is set on the parameter optimization, the suitability for massively parallel spike trains, and the consideration of the characteristics of real recordings. Two new methods were developed in the course of the optimization which outperformed other methods from the literature. The first method “Total spiking probability edges” (TSPE) estimates the effective connectivity of two spike trains, based on the cross-correlation and a subsequent analysis of the cross-correlogram. In addition to the estimation of the synaptic weight, a distinction between excitatory and inhibitory connections is possible. Compared to other methods, simulated neuronal networks could be estimated with higher accuracy, while being suitable for the analysis of massively parallel spike trains. The second method “Spike-contrast” measures the synchrony of parallel spike trains with the advantage of automatically optimizing its time scale to the data. In contrast to other methods, which also adapt to the characteristics of the data, Spike-contrast is more robust to erroneous spike trains and significantly faster for large amounts of parallel spike trains. Moreover, a synchrony curve as a function of the time scale is generated by Spike-contrast. This optimization curve is a novel feature for the analysis of parallel spike trains. / Ziel dieser Dissertation ist die Identifizierung geeigneter Methoden zur Schätzung der Konnektivität und zur Messung der Synchronität von in-vitro Spike-Trains. Besonderes Augenmerk wird dabei auf die Parameteroptimierung, die Eignung für große Mengen paralleler Spike-Trains und die Berücksichtigung der Charakteristik von realen Aufnahmen gelegt. Im Zuge der Optimierung wurden zwei neue Methoden entwickelt, die anderen Methoden aus der Literatur überlegen waren. Die erste Methode “Total spiking probability edges” (TSPE) schätzt die effektive Konnektivität zwischen zwei Spike-Trains basierend auf der Berechnung einer Kreuzkorrelation und einer anschließenden Analyse des Kreuzkorrelograms. Neben der Schätzung der synaptischen Ge- wichtung ist eine Unterscheidung zwischen exzitatorischen und inhibitorischen Verbindungen möglich. Im Vergleich zu anderen Methoden, konnten simulierte neuronale Netzwerke mit einer höheren Genauigkeit geschätzt werden. Zudem ist TSPE aufgrund der hohen Rechengeschwindigkeit für große Datenmengen geeignet. Die zweite Methode “Spike-contrast” misst die Synchronität paralleler Spike-Trains mit dem Vorteil, dass die Zeitskala automatisch an die Daten angepasst wird. Im Gegensatz zu anderen Methoden, welche sich ebenfalls an die Daten anpassen, ist Spike-contrast robuster gegenüber fehlerhaften Spike-Trains und schneller für große Datenmengen. Darüber hinaus berechnet Spike-Contrast eine Synchronitätskurve als Funktion der Zeitskala. Diese Kurve ist ein neuartiges Feature zur Analyse paralleler Spike-Trains.

Synchronitätsmessung

Konnektivitätsschätzung

ddc:500

ddc:600

Enhancement of geometric complexity and predictability of melt electrowriting for biomedical applications / Fortentwicklung von geometrischer Komplexität und Kalkulierbarkeit des Melt Electrowriting für biomedizinische Anwendungen

Hrynevich, Andrei

January 2021

This thesis encompasses the development of the additive manufacturing technology melt electrowriting, in order to achieve the improved applicability in biomedical applications and design of scaffolds. Melt electrowriting is a process capable of producing highly resolved structures from microscale fibres. Nevertheless, there are parameters influencing the process and it has not been clear how they affect the printing result. In this thesis the influence of the processing and environmental parameters is investigated with the impact on their effect on the jet speed, fibre diameter and scaffold morphology, which has not been reported in the literature to date and significantly influences the printing quality. It was demonstrated that at higher ambient printing temperatures the fibres can be hampered to the extent that the individual fibres are completely molten together and increased air humidity intensifies this effect. It was also shown how such parameters as applied voltage, collector distance, feed pressure and polymer temperature influence the fibre diameter and critical translation speed. Based on these results, a detailed investigation of the fibre diameter control and printing of scaffolds with novel architectures was made. As an example, a 20-fold diameter ratio is obtained within one scaffold by changing the collector speed and the feed pressure during the printing process. Although the pressure change caused fibre diameter oscillations, different diameter fibres were successfully integrated into two scaffold designs, which were tested for mesenchymal stromal cell suspension and adipose tissue spheroid seeding. Further design and manufacturing aspects are discussed while jet attraction to the printed structures is illuminated in connection with the fibre positioning control of the multilayer scaffolds. The artefacts that appear with the increasing scaffold height of sinusoidal laydown patterns are counteracted by layer-by-layer path adjustment. For the prediction of a printing error of the first deposited layer, an algorithm is developed, that utilizes an empirical jet lag equation and the speed of fibre deposition. This model was able to predict the position of the printing fibre with up to ten times smaller error than the of the programmed path. The same model allows to qualitatively assess the fibre diameter change along the nonlinear pattern as well as to indicate the areas of the greatest pattern deformation with the growing scaffold height. Those results will be used in the later chapters for printing of the novel MEW structures for biomedical applications. In the final chapter the concept of multimodal scaffold was combined with the suspended fibre printing, for the manufacturing of the MEW scaffolds with controlled pore interconnectivity in three dimensions. Those scaffolds were proven to be a promising substate for the control of the neurite spreading of the chick DRG neurons. / Diese Arbeit umfasst die Entwicklung der additiven Fertigungstechnologie Schmelzelektroschreiben, um die verbesserte Anwendbarkeit in biomedizinischen Anwendungen und die Konstruktion von Gerüsten zu erreichen. Schmelzelektroschreiben ist ein Verfahren, das in der Lage ist, hochaufgelöste Strukturen aus mikroskaligen Fasern zu erzeugen. Dennoch gibt es Parameter, die den Prozess beeinflussen, und es ist nicht klar, wie sie sich auf das Druckergebnis auswirken. In dieser Arbeit wird der Einfluss der Verarbeitungs- und Umweltparameter mit der Auswirkung auf deren Einfluss auf die Polymerstrahlgeschwindigkeit, den Faserdurchmesser und die Gerüstmorphologie untersucht, was bisher in der Literatur nicht berichtet wurde und die Druckqualität wesentlich beeinflusst. Es konnte gezeigt werden, dass bei höheren Umgebungstemperaturen die Entstehung von zylindrischen Fasern soweit behindert werden können, dass die einzelnen Fasern vollständig zusammengeschmolzen werden und eine erhöhte Luftfeuchtigkeit diesen Effekt verstärkt. Es wurde auch gezeigt, wie solche Parameter wie angelegte Spannung, Kollektorabstand, Vorschubdruck und Polymertemperatur den Faserdurchmesser und die kritische Translationsgeschwindigkeit beeinflussen. Basierend auf diesen Ergebnissen, wurde eine detaillierte Untersuchung der Faserdurchmessersteuerung durchgeführt und Gerüsten mit neuartigen Architekturen wurden gedruckt. Als Beispiel wird ein 20-fach Durchmesserverhältnis innerhalb eines Gerüstes durch die Änderung der Kollektorgeschwindigkeit und des Vorschubdrucks während eines Druckvorgangs erreicht. Obwohl die Vorschubdruckveränderung spürbare Oszillationen des Faserdurchmessers verursachte, wurden Fasern mit unterschiedlichen Durchmessern erfolgreich in zwei Scaffoldmuster integriert, die für mesenchymale Stromazell und L929 Zellsuspension und die Aussaat von Fettgewebe-Sphäroiden getestet wurden. Weitere Design- und Herstellungsaspekte werden diskutiert, während die Polymerstrahlanziehung auf die gedruckten Strukturen in Verbindung mit der Faserpositionierungssteuerung der mehrschichtigen Scaffolds beleuchtet wird. Den Artefakten, die mit zunehmender Gerüsthöhe sinusförmiger Ablagemuster auftreten, wird durch schichtweise Anpassung von Verfahrweg des Kollektors entgegengewirkt. Für die Vorhersage eines Druckfehlers der ersten abgelegten Schicht wurde ein Algorithmus entwickelt, der die empirischen Zusammenhänge zwischen Kollektorgeschwindigkeit, Nachlauf, und die Geschwindigkeit der Faserablage verwendet. Dieses Modell war in der Lage die Position der gedruckten Faser mit einem bis zu zehnmal kleinerem Fehler als die Position auf dem programmierten Pfad vorherzusagen. Dasselbe Modell erlaubt es, die Änderung des Faserdurchmessers entlang des nichtlinearen Musters qualitativ zu bewerten und die Bereiche mit der größten Musterdeformation mit zunehmender Gerüsthöhe anzuzeigen. Diese Ergebnisse werden in anderen Kapiteln für den Druck der neuartigen MEW-Strukturen für biomedizinische Anwendungen verwendet. Im letzten Kapitel wurde das Konzept des multimodalen Gerüstes mit dem Druck von hängenden Fasern kombiniert, um MEW-Gerüste mit kontrollierter Porenvernetzung in drei Dimensionen herzustellen. Diese Gerüste erwiesen sich als vielversprechendes Substrat für die Kontrolle der Neuritenausbreitung der Nervenzellen aus Spinalganglien.

Elektrospinnen

3D-druck

Tissue Engineering

ddc:600

Pagan cult and Late Antique society in the Corinthia /

Rothaus, Richard Martin

January 1993

No description available.

Religion

Heidentum

Gesellschaft

Geschichte 300-600

Effect of P.G. 600 on the timing of ovulation in gilts treated with Regu-mate

Horsley, Brandon Ryan

28 September 2004

We previously reported that ovulation rate, but not pregnancy rate or litter size at d 30 post-mating, was enhanced by gonadotropin treatment (P.G. 600; Intervet America Inc., Millsboro, DE) in gilts fed a progestin (Regu-mate; Intervet America Inc.) compared with gilts receiving progestin alone. We hypothesized that P.G. 600 altered the timing of ovulation, therefore mating gilts 12 and 24 h after first detection of estrus, as is common in the swine industry, may not have been the most appropriate breeding regimen. The objective of this study was to determine the effect of P.G. 600 on the timing of ovulation in gilts treated with Regu-mate. Randomly cycling, crossbred gilts (5.5 m of age, 117 kg BW, and 14.7 mm BF) were fed a diet containing Regu-mate to provide 15 mg/d for 18 d. Twenty-four h after Regu-mate withdrawal, gilts received i.m. P.G. 600 (n = 25) or saline (n = 25). Gilts were checked for estrus at 8 h intervals. After first detection of estrus, trans-rectal ultrasonography was performed at 8 h intervals to determine the time of ovulation. Gilts were killed 9 to 11 d after the onset of estrus to determine ovulation rate. All gilts displayed estrus by 7 d after treatment with P.G. 600 or saline. Compared with saline, P.G. 600 increased (P = 0.07) ovulation rate (14.8 + 1.1 vs. 17.5 + 1.0, respectively). The intervals from injection-to-estrus (98.4 + 2.7 vs. 110.9 + 2.7 h; P < 0.01) and injection-to-ovulation (128.6 + 2.8 vs. 141.9 + 3.2 h; P < 0.01) were decreased in gilts treated with P.G. 600 compared with gilts treated with saline. Estrus duration (54.4 + 2.3 vs. 53.7 + 2.5 h; P = 0.83), estrus-to-ovulation (30.2 + 2.0 vs. 31.7 + 2.2 h; P = 0.62) and time of ovulation as a percentage of duration of estrus (55.8 + 2.7 vs. 57.5 + 3.0%; P = 0.67) were similar for the P.G. 600 and saline-injected gilts, respectively. In summary, P.G. 600 advanced the onset of estrus and ovulation following termination of Regu-mate treatment and increased ovulation rate. However, treatment of gilts with P.G. 600 had no effect on the timing of ovulation relative to the onset of estrus. / Master of Science

P.G. 600

Regu-mate

gilt

estrus

Development of \(In\) \(vitro\) Models for Tissue Engineering Applications Using a High-Resolution 3D Printing Technology / Entwicklung von \(In\) \(vitro\)-Modellen für Tissue-Engineering-Anwendungen mithilfe einer hochauflösenden 3D-Drucktechnologie

Bakirci, Ezgi

January 2024

In vitro models mimic the tissue-specific anatomy and play essential roles in personalized medicine and disease treatments. As a sophisticated manufacturing technology, 3D printing overcomes the limitations of traditional technologies and provides an excellent potential for developing in vitro models to mimic native tissue. This thesis aims to investigate the potential of a high-resolution 3D printing technology, melt electrowriting (MEW), for fabricating in vitro models. MEW has a distinct capacity for depositing micron size fibers with a defined design. In this thesis, three approaches were used, including 1) extending the MEW polymer library for different biomedical applications, 2) developing in vitro models for evaluation of cell growth and migration toward the different matrices, and 3) studying the effect of scaffold designs and biochemical cues of microenvironments on cells. First, we introduce the MEW processability of (AB)n and (ABAC)n segmented copolymers, which have thermally reversible network formulation based on physical crosslinks. Bisurea segments are combined with hydrophobic poly(dimethylsiloxane) (PDMS) or hydrophilic poly(propylene oxide)-poly(ethylene oxide)-poly(propylene oxide) (PPO-PEG-PPO) segments to form the (AB)n segmented copolymers. (ABAC)n segmented copolymers contain all three segments: in addition to bisurea, both hydrophobic and hydrophilic segments are available in the same polymer chain, resulting in tunable mechanical and biological behaviors. MEW copolymers either support cells attachment or dissolve without cytotoxic side effects when in contact with the polymers at lower concentrations, indicating that this copolymer class has potential in biological applications. The unique biological and surface properties, transparency, adjustable hydrophilicity of these copolymers could be beneficial in several in vitro models. The second manuscript addresses the design and development of a melt electrowritten competitive 3D radial migration device. The approach differs from most of the previous literature, as MEW is not used here to produce cell invasive scaffolds but to fabricate an in vitro device. The device is utilized to systematically determine the matrix which promotes cell migration and growth of glioblastoma cells. The glioblastoma cell migration is tested on four different Matrigel concentrations using a melt electrowritten radial device. The glioblastoma U87 cell growth and migration increase at Matrigel concentrations 6 and 8 mg mL-1 In the development of this radial device, the accuracy, and precision of melt electrowritten circular shapes were investigated. The results show that the printing speed and design diameter are essential parameters for the accuracy of printed constructs. It is the first instance where MEW is used for the production of in vitro devices. The influence of biochemical cues and scaffold designs on astrocytes and glioblastoma is investigated in the last manuscript. A fiber comprising the box and triangle-shaped pores within MEW scaffolds are modified with biochemical cues, including RGD and IKVAV peptides using a reactive NCO-sP(EO-stat-PO) macromer. The results show that astrocytes and glioblastoma cells exhibit different phenotypes on scaffold designs and peptide-coated scaffolds. / In-vitro-Modelle sind Werkzeuge, die die gewebespezifische Anatomie nachbilden und eine wesentliche Rolle in der personalisierten Medizin und bei der Behandlung von Krankheiten spielen. Als hochentwickelte, multifunktionale Fertigungstechnologie überwindet der 3D-Druck die Grenzen herkömmlicher Technologien und bietet ein hervorragendes Potenzial für die Herstellung von In-vitro-Modellen. Der 3D-Druck ist eine der vielversprechendsten Techniken, um biologische Materialien in einer komplexen Anordnung zusammenzusetzen, die das natürliche Gewebe nachahmt. In dieser Arbeit soll das Potenzial der hochauflösenden 3D-Drucktechnologie melt electrowriting (MEW), für die Herstellung von In-vitro-Modellen untersucht werden. Wir konzentrieren uns auf drei Ansätze: 1) die Erweiterung der MEW-Polymerbibliothek für verschiedene biomedizinische Anwendungen, 2) die Entwicklung von In-vitro-Modellen zur Bewertung des Zellwachstums und der Zellmigration in Richtung der verschiedenen Matrizes und 3) die Untersuchung der Auswirkungen von MEW-Gerüstdesigns und biochemischen Faktoren der Mikroumgebung auf Zellen. Zunächst haben wir die MEW-Verarbeitbarkeit von segmentierten (AB)n- und (ABAC)n-Copolymeren vorgestellt, die eine thermisch reversible Netzwerkformulierung auf der Grundlage physikalischer Vernetzungen aufweisen. Bisurea-Segmente werden mit hydrophoben hydrophobic poly(dimethyl siloxane) (PDMS) oder hydrophilen poly(propylene oxide)-poly(ethylene oxide)-poly(propylene oxide) (PPO-PEG-PPO) Segmenten kombiniert, um die (AB)n segmentierten Copolymere zu bilden. Segmentierte (ABAC)n-Copolymere enthalten alle drei Segmente: Zusätzlich zu den Bisurea-Segmenten sind sowohl hydrophobe als auch hydrophile Segmente in derselben Polymerkette vorhanden, was den segmentierten (ABAC)n-Copolymeren abstimmbare mechanische und biologische Eigenschaften verleiht. MEW-Copolymere unterstützten entweder die Anhaftung an Zellen oder lösten sich ohne zytotoxische Nebenwirkungen auf, wenn sie in niedrigeren Konzentrationen mit ihnen in Berührung kamen, was darauf hindeutet, dass diese Copolymerklasse über umfassende biologische Eigenschaften verfügt. Die einzigartigen biologischen Eigenschaften und Oberflächeneigenschaften, die Transparenz und die einstellbare Hydrophilie dieser Copolymere könnten in verschiedenen In-vitro-Modellen von Vorteil sein. Das zweite Manuskript befasst sich mit einem durch MEW hergestellten wettbewerbsfähigen 3D-Radialmigrationsdesign. Der Ansatz unterscheidet sich vom Großteil der MEW-Literatur, da MEW nicht zur Herstellung von invasiven Zellgerüsten verwendet wurde, sondern zur Herstellung eines In-vitro-Designs diente. Das Design wurde verwendet, um systematisch die Matrix zu bestimmen, die die Zellmigration und das Wachstum von Glioblastomzellen fördert. Die Migration der Glioblastomzellen wurde auf vier verschiedenen Matrigel-Konzentrationen unter Verwendung einer durch MEW hergestellten Radialvorrichtung getestet. Das Wachstum und die Migration der Glioblastomzellen U87 nahmen bei Matrigelkonzentrationen von 6 und 8 mg mL-1 zu. Wir untersuchten auch die Genauigkeit und Präzision der durch MEW erzeugten Kreisformen. Die Ergebnisse zeigten, dass die Druckgeschwindigkeit und der Designdurchmesser wesentliche Parameter für die Genauigkeit der gedruckten Konstrukte sind. Die Arbeit ist die erste Studie, die MEW für die Herstellung von In-vitro-Modellen verwendet. Im letzten Manuskript wurde der Einfluss von biochemische Funktionalisierung in Kombination mit Gerüstdesigns auf Astrozyten und Glioblastome untersucht. Die kastenförmigen und achteckigen MEW-Gerüste wurden mit biochemischen Wirkstoffen modifiziert, darunter RGD- und IKVAV-Peptide unter Verwendung von reaktivem NCO-sP(EO-stat-PO). Wir fanden heraus, dass Astrozyten und Glioblastomzellen unterschiedliche Phänotypen auf den verschiedenen Designs und mit Peptiden beschichteten Gerüsten aufweisen.

3D-Druck

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The contributions of the Ante-Nicene fathers to the development of Christian baptism, from Clement of Rome A.D. 90 to Cyprian A.D. 258

Schnelle, John Royal, III

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Baptism--HistoryEarly church, ca. 30-600