Caractérisation et modélisation du comportement mécanique des tissus conjonctifs de la paroi abdominale humaine par approche histologiquement fondée / Characterization and histologically-based modeling of the mechanical behavior of connective tissues constituting the human abdominal wall

Astruc, Laure

01 April 2019

Les opérations de hernies abdominales sont l’une des chirurgies les plus répandues dans le monde. Pourtant, malgré des progrès considérables en particulier dans le développement des textiles prosthétiques pour consolider la paroi abdominale, le taux de récurrence reste très élevé. Il apparaît donc nécessaire de développer des modèles numériques patient-spécifiques de la paroi abdominale afin de mesurer puis améliorer l’impact des solutions de soins. Les tissus assurant la cohésion et la stabilité de la paroi abdominale sont les gaines rectusiennes antérieure et postérieure et la ligne blanche, qui sont des tissus conjonctifs. Leur structure particulière, composée d’un entremêlement de fibres de collagène et d’élastine sont au cœur de cette étude.Ce mémoire a permis de mettre en évidence la relation entre architecture microscopique et comportement macroscopique des tissus fibreux. Grâce à des campagnes expérimentales combinant essais mécaniques et observations microscopiques, la structure des tissus a pu être identifiée et corrélée aux paramètres mécaniques. Des outils d’analyse d’images tridimensionnelles ont été développés afin d’estimer automatiquement l’anisotropie d’une texture. Les informations recueillies ont alors menées au développement d’un modèle constitutif anisotrope hypo-paramétré. Basé sur une description tridimensionnelle du réseau fibrillaire, le modèle a été écrit de manière à décorréler les paramètres liés à la structure et ceux relatifs à la nature même du matériau. En considérant les paramètres matériau similaires pour tous les individus, le modèle a démontré sa capacité à prédire le comportement mécanique à partir d’informations texturales / Abdominal hernia operations are one of the most common surgeries in the world. However, despite considerable progress, particularly in the development of prosthetic textiles to strengthen the abdominal wall, the recurrence rate remains very high. It therefore appears necessary to develop patient-specific numerical models of the abdominal wall in order to measure and improve the impact of care solutions. The tissues that ensure the cohesion and stability of the abdominal wall are the anterior and posterior rectus sheaths and the linea alba, which are connective tissues. Their particular structure, composed of an intertwining of collagen and elastin fibers, is at the heart of this study. This thesis highlighted the relationship between microscopic architecture and macroscopic behaviour of fibrous tissues. Thanks to experimental campaigns combining mechanical tests and microscopic observations, the structure of tissues has been identified and correlated to mechanical parameters. Three-dimensional image analysis tools have been developed to automatically estimate the anisotropy of a texture. The collected information then led to the development of a hypo-parameterized anisotropic constitutive model. Based on a three-dimensional description of the fibrillary network, the model was written in such a way as to uncorrelate the parameters related to the structure and those related to the nature of the material. By considering similar material parameters for every individual, the model demonstrated its ability to predict mechanical behaviour based on textural information

Biomécanique

Hyperélasticité

Anisotropie

Tissu conjonctif

Modélisation

Microscope confocal biphotonique

Paroi abdominale

Bioméchanics

Hyperelasticity

Anisotropy

Connective tissue

Modeling

Biphotonic confocal microscope

Abdominal wall

Nanoscale Patterning and Imaging of Liquid Crystals and Colloids at Surfaces

Pendery, Joel S.

11 June 2014

No description available.

Physics

Condensed Matter Physics

Liquid Crystals

Atomic Force Microscope

Nano-lithography

Near-Field Scanning Optical Microscope

Surface Plasmon Resonance

Gold Nanoparticles

Fabrication of a-Si and a-InGaN Photovoltaics by Plasma Sputtering

Way, Austin J.

30 April 2014

No description available.

Physics

Materials Science

Energy

Electrical Engineering

Engineering

Photovoltaics

efficiency

amorphous

crystalline

scanning electron microscope

transmission electron microscope

energy dispersive X-rays

semiconductors

PN junctions

The design and analysis of a DC SQUID for a SQUID microscope

Burger, Willem Adriaan

12 1900

Thesis (MScEng (Electrical and Electronic Engineering))--Stellenbosch University, 2008. / This thesis relates to the analysis and design of a SQUID microscope. Superconductor theory is discussed in depth to provide a thorough understanding of Josephson junctions and of dc SQUID magnetometers. The behaviour and suitability of different types of single-layer dc SQUIDs are looked at. The quality of the superconducting material patterned onto a substrate and the Josephson junction design used affect the behaviour of a practical dc SQUID. Noise and cooling play an integral part in the design and operation of a dc SQUID. The source of noise is looked at in an effort to minimize its effect. Cryocooling is essential to real world operation so different cooling strategies and their consequences are analyzed. This thesis focuses on modeling the behaviour of the dc SQUID to creating a practical system for use inside a SQUID microscope. Operating the dc SQUID with the appropriate electronics will linearize the device, reduce the effect of noise, and create a device with wide bandwidth. Each step in creating a practical system is discussed in detail. Simulations are used to create models predicting the behaviour of the dc SQUID and the electronics. They are then used to design and create practical electronic systems. Measurements are performed on Josephson junctions and dc SQUID magnetometers using the designed electronics. The Josephson junctions behave as predicted and were successfully tested. The dc SQUIDs did not behave as predicted and were not successfully tested. The SQUIDs were damaged, either by a malfunction in the cryocooler or through age related deterioration. A full test of the flux-locked loop was not possible and the dc SQUID was not linearized.

SQUID microscope

Superconductors

Dissertations -- Electronic engineering

Theses -- Electronic engineering

Electrical and Electronic Engineering

A PRECISION INSTRUMENT FOR RESEARCH INTO NANOLITHOGRAPHIC TECHNIQUES USING FIELD-EMITTED ELECTRON BEAMS

Hii, King-Fu

01 January 2008

Nanomanufacturing is an active research area in academia and industry due to the ever-growing demands for precision surface modifications of thin films or substrates with nanoscale features. Conventional lithographic techniques face many challenges as they approach their fundamental limits. Consequently, new nanomanufacturing tools, fabrication techniques, and precision instruments are being explored and developed to meet these challenges. It has been hypothesized that direct-write nanolithography might be achieved by using a field-emitted electron beam for nanomachining. This dissertation moves this research one step closer by developing a precision instrument that can enable the integration of direct-write nanolithography by a field-emitted electron beam with dimensional metrology by scanning tunneling microscopy. First, field emission from two prospective electron sources, a carbon nanotube field emitter and a sharp tungsten field emitter, is characterized at distances ranging from sub-micrometer to a few micrometers. Also, the design and construction of a low thermal drift piezoelectric linear motor is described for tip-sample approach. Experiments indicate that: the step size is highly repeatable with a standard deviation of less than 1.2 nm and the thermal stability is better than 40 nm/◦C. Finally, the design and construction of the instrument are presented. Experiments indicate that: the instrument is operating properly in scanning tunneling microscope mode with a resolution of less than 2 Å.

Precision Instrument

Nanomachining

Nanolithography

Scanning Tunneling Microscope

Electron Field Emission

Engineering

Mechanical Engineering

Light and Electron Microscope Studies on the Chemotherapeutic Effect of a Combination of Dimethyl Sulfoxide and Hematoxylin on a Transplantable Lymphosarcoma

Rogers, Thomas D., 1939-

01 1900

Investigations concerning the cellular response of tumor tissue to treatment with dimethyl sulfoxide and hematoxylin have not been reported. To establish the response of neoplastic tissue and cells to this combination of agents, this study was undertaken to determine the effects of dimethyl sulfoxide and hematoxylin on a transplantable lymphosarcoma in mice.

microscope studies

chemotherapy

Cancer - Chemotherapy.

Electron microscopes.

Freeze-drying.

Algae.

Euglena.

Astasia and astasia-abasia.

Mechanical Characterization of Patterned Silver Columnar Nanorods with the Atomic Force Microscope.

Kenny, Sean

30 April 2012

Patterned silver (Ag) columnar nanorods were prepared by the glancing angle physical vapor deposition method. The Ag columnar nanorods were grown on a Si (100) substrate patterned with posts in a square “lattice” of length 1 μm. An electron beam source was used as the evaporation method, creating the deposition flux which was oriented 85˚ from the substrate normal. A Dimension Icon with NanoScope V controller atomic force microscope was used to measure the spring constant in 10 nm increments along the long axis of five 670 nm long Ag nanorod specimens. The simple beam bending model was used to analyze the data. Unexpected behavior of the spring constant data was observed which prevented a conclusive physically realistic value of the Young’s modulus to be calculated.

AFM

atomic force microscope

force distance spectroscopy

young's modulus

Physical Sciences and Mathematics

Physics

Ionenstrahlanalytik im Helium-Ionen-Mikroskop

Klingner, Nico

16 March 2017

Die vorliegende Arbeit beschreibt die Implementierung ionenstrahlanalytischer Methoden zur Charakterisierung der Probenzusammensetzung in einem Helium-Ionen-Mikroskop mit einem auf unter einen Nanometer fokussierten Ionenstrahl. Zur Bildgebung wird dieser im Mikroskop über Probenoberflächen gerastert und die lokale Ausbeute an Sekundärelektronen gemessen. Obwohl sich damit ein hoher topografischer Kontrast erzeugen lässt, lassen sich weder aus der Ausbeute noch aus der Energieverteilung der Sekundärelektronen verlässliche Aussagen zur chemischen Zusammensetzung der Probe treffen. Daher wurden in dieser Arbeit verschiedene ionenstrahlinduzierte Sekundärteilchen hinsichtlich ihrer Eignung für die Elementanalytik im Helium-Ionen-Mikroskop verglichen. Zur Evaluation standen der Informationsgehalt der Teilchen, deren Analysierbarkeit sowie deren verwertbare Ausbeute. Die Spektrometrie rückgestreuter Teilchen sowie die Sekundärionen-Massenspektrometrie wurden dabei als die geeignetsten Methoden identifiziert und im Detail untersucht. Gegenstand der Untersuchung waren physikalische Limitierungen und Nachweisgrenzen der Methoden sowie deren Eignung zum Einbau in ein Helium-Ionen-Mikroskop. Dazu wurden verschiedene Konzepte von Spektrometern evaluiert, erprobt und hinsichtlich ihrer Effizienz, Energieauflösung und Umsetzbarkeit im Mikroskop bewertet. Die Flugzeitspektrometrie durch Pulsen des primären Ionenstrahls konnte als die geeignetste Technik identifiziert werden und wurde erfolgreich in einem Helium-Ionen-Mikroskop implementiert. Der Messaufbau, die Signal- und Datenverarbeitung sowie vergleichende Simulationen werden detailliert beschrieben. Das Spektrometer wurde weiterhin ausführlich hinsichtlich Zeit-, Energie- und Massenauflösung charakterisiert. Es werden ortsaufgelöste Rückstreuspektren vorgestellt und damit erstmalig die Möglichkeit zur Ionenstrahlanalytik im Helium-Ionen-Mikroskop auf einer Größenskala von ≤ 60 nm aufgezeigt. Das Pulsen des primären Ionenstrahls erlaubt es zudem, die Technik der Sekundärionen-Massenspektrometrie anzuwenden. Diese Methode bietet Informationen zur molekularen Probenzusammensetzung und erreicht für einige Elemente niedrigere Nachweisgrenzen als die Rückstreuspektrometrie. Damit konnten erstmalig im Helium-Ionen-Mikroskop gemessene Sekundärionen-Massenspektren sowie die ortsaufgelöste Elementanalyse durch spektrometrierte Sekundärionen demonstriert werden. Die Ergebnisse dieser Arbeit sind in der Fachzeitschrift Ultramicroscopy Band 162 (2016) S. 91–97 veröffentlicht. Ab Oktober 2016 werden diese auch in Form eines Buchkapitels in dem Buch „Helium Ion Microscopy“, Springer Verlag Heidelberg zur Verfügung stehen. / The present work describes the implementation of ion beam analysis methods in a helium-ion-microscope for the determination of sample compositions with a focused ion beam of < 1 nm size. Imaging in the microscope is realized by scanning the focused ion beam over the sample surface while measuring the local secondary electron yield. Although this procedure leads to a high topographical contrast, neither the yield nor the energy distribution of the secondary electrons deliver reliable information on the chemical composition of the sample. For this purpose, in this work different ion beam induced secondary particles were compared with respect to their suitability for the analysis of the chemical composition in the helium-ion-microscope. In particular the information content of the particles, their analysability and their yield were evaluated. As a result, the spectrometry of backscattered particles and the mass spectrometry of sputtered secondary ions were identified as the most promising methods and regarded in detail. The investigation focused on physical limitations and detection limits of the methods as well as their implementability into a helium-ion-microscope. Therefor various concepts of spectrometers were evaluated, tested and validated in terms of their efficiency, energy resolution and practicability in the microscope. Time-of-flight spectrometry by pulsing the primary ion beam could be identified as the most suitable technique and has been successfully implemented in a helium-ion-microscope. The measurement setup, signal processing and data handling as well as comparative simulations are described in detail. Further the spectrometer was characterized explicitly in terms of time, energy and mass resolution. Spatially resolved backscattering spectra will be shown demonstrating the feasibility of performing ion beam analysis in a helium-ion-microscope for the first time on a size scale of ≤ 60 nm. By pulsing the primary ion beam the technique of secondary ion mass spectrometry becomes automatically accessible. This method provides information on the molecular composition of samples and can reach higher detection limits than those from backscattering spectrometry. For the first time, in a helium-ion-microscope measured secondary ion mass spectra and spatially resolved elemental analysis by spectrometry of secondary ions, could be demonstrated. The results of this work are published 2016 in the scientific journal Ultramicroscopy, volume 162 on pages 91 to 971. In October 2016 there will be another publication as a book chapter in „Helium Ion Microscopy“ (publisher: Springer Verlag Heidelberg).

Helium-Ionen-Mikroskop

Ionenstrahlanalytik

Helium-Ion-Microscope

Ion beam analysis

ddc:530

rvk:UH 6200

Étude des densités de kératocytes chez des porteurs de lentilles cornéennes avec et sans kératocône

Simard, Patrick

January 2006

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Microscope confocal

Pachymétrie

Topographe Orbscan II

Kératocône

Kératocytes

Apoptose

Lentilles cornéennes

Fabrication de motifs polymères de surface par déposition sélective

Bélisle, Ève

January 2004

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Dip Pen Nanolithography

Microscope à force atomique

Multicouches polyélectrolytes

Micro-impression