Analysis of Seismic Data Acquired at the Forsmark Site for Storage of Spent Nuclear Fuel, Central Sweden

Sharifi Brojerdi, Fatemeh

January 2015

The Forsmark area, the main study area in this thesis, is located about 140 km north of Stockholm, central Sweden. It belongs to the Paleoproterozoic Svecokarelian orogen and contains several major ductile and brittle deformation zones including the Forsmark, Eckarfjärden and Singö zones. The bedrock between these zones, in general is less deformed and considered suitable for a nuclear waste repository. While several site investigations have already been carried out in the area, this thesis focuses primarily on (i) re-processing some of the existing reflection seismic lines to improve imaging of deeper structures, (ii) acquiring and processing high-resolution reflection and refraction data for better characterization of the near surface geology for the planning of a new access ramp, (iii) studying possible seismic anisotropy from active sources recorded onto sparse three-component receivers and multi-offset-azimuth vertical seismic profiling data (VSP). Reflection seismic surveys are an important component of these investigations. The re-processing helped in improving the deeper parts (1-5 km) of the seismic images and allowing three major deeper reflections to be better characterized, one of which is sub-horizontal while the other two are dipping moderately. These reflections were attributed to originate from either dolerite sills or brittle fault systems. First break traveltime tomography allowed delineating an undulating bedrock-surface topography, which is typical in the Forsmark area. Shallow reflections imaged in 3D, thanks to the acquisition design were compared with existing borehole data and explained by fractured or weak zones in the bedrock. The analysis of seismic anisotropy indicates the presence of shear-wave splitting due to transverse isotropy with a vertical symmetry axis in the uppermost hundreds of meters of crust. Open fractures and joints were interpreted to be responsible for the large delays observed between the transverse and radial components of the shear-wave arrivals, both on surface and VSP data.

Forsmark site

anisotropy

deformation zone

reflection seismic

shear-wave splitting

fractures and traveltime tomography

Engineering behavior and characterization of physical-chemical particulate mixtures using geophysical measurement techniques

Choo, Hyunwook

27 August 2014

Natural geomaterials exhibit a wide range in size, physical properties, chemical properties, and mechanical behaviors. Soils that are composed of mixtures of particles with different physical and chemical properties pose a challenge to characterization and quantification of the engineering properties. This study examined the behavior of particulate mixtures composed of differently sized silica particles, mixtures composed of aluminosilicate and organic carbon particles, and mixtures composed of particles with approximately three orders of magnitude difference in particle size. This experimental investigation used elastic, electromagnetic, and thermal waves to characterize and to quantify the small to intermediate strain behavior of the mixtures. The mechanical property of stiffness of mixed materials (e.g. binary mixtures of silica particles and fly ashes with various carbon and biomass contents) was evaluated through the stiffness of active grain contacts, and the stiffness of particles which carry applied load, using the physical concepts of intergranular void ratio and interfine void ratio. Additionally, the change in both contact mode/stiffness and electrical property due to the presence of nano-sized particles (i.e., iron oxides) on the surface of soil grains was evaluated according to applied stress, packing density, iron coating density, and substrate sand particle size. Finally, the biomass fraction and total organic carbon content of mixtures was used to quantify the electrical and thermal conductivities when particulate organic was mixed with aluminosilicate particles.

Shear wave velocity

Electrical conductivity

Thermal conductivity

Binary mixtures

Fly ash

Iron oxide coated soils

Hydrate-bearing sediments: formation and geophysical properties

Lee, Joo-yong

09 July 2007

Hydrate-bearing sediments may contribute to the availability of energy resources, affect climate change, or cause seafloor instability. The comprehensive study of hydrate-bearing sediments documented in this manuscript includes physicochemical aspects of hydrate nucleation near mineral surfaces, the validity of THF as a substitute guest molecule for the study of hydrate-bearing sediments, and the effects of hydrate formation on the electromagnetic and the mechanical properties of various soils with a wide range of specific surface. Natural marine sediments are included as part of this investigation to explore the effects of inherent fabric, salts, organic matter, and stress history on the geophysical properties of hydrate-bearing sediments. Experiments are designed to reproduce the state of effective stress in the field at the time of hydrate formation. A comprehensive set of instruments is deployed in this study, and the unprecedented development of electrical resistivity tomography for the study of hydrate formation and dissociation is also documented in detail. Results from this research have important implications for geophysical field characterization and monitoring processes such as production.

Compressive wave velocity

Sediments

Electrical conductivity

Permittivity

Shear wave velocity

Gas hydrates

Hydrates

Sediments (Geology)

Geophysics

Φαινόμενο διαχωρισμού εγκάρσιων κυμάτων : η εξέλιξη του φαινομένου πριν και μετά το σεισμό της Μόβρης (Αχαΐα, 8 Ιουνίου 2008, Mw 6.4)

Γιαννόπουλος, Δημήτριος

14 February 2012

Την 8η Ιουνίου 2008, στις 15:25 τοπική ώρα (12:25 GMT) ένας σεισμός μεγέθους Mw 6.4 εκδηλώθηκε στη ΒΔ Πελοπόννησο, στη Δυτική Ελλάδα. Το επίκεντρο προσδιορίστηκε κοντά στο χωριό Μιχόι, στη Δημοτική Ενότητα Μόβρης, περίπου 35 km ΝΔ της Πάτρας. Στην παρούσα εργασία, έγινε μία μελέτη ανισοτροπίας στην επικεντρική περιοχή του σεισμού της 8ης Ιουνίου. Συγκεκριμένα, έγινε μία μελέτη για την ανίχνευση του φαινομένου διαχωρισμού των εγκαρσίων κυμάτων και της εξέλιξής του σε σχέση με την εκδήλωση του σεισμού της 8ης Ιουνίου. Χρησιμοποιήθηκαν οι καταγραφές από τον σεισμολογικό σταθμό του Ριόλου (RLS), καθώς είναι ο μόνος κοντινός σταθμός στο επίκεντρο του σεισμού της 8ης Ιουνίου που βρισκόταν σε συνεχή λειτουργία κατά τα χρονικά διαστήματα πριν και μετά την εκδήλωση του σεισμού. Για τη μελέτη του φαινομένου του διαχωρισμού των εγκαρσίων κυμάτων χρησιμοποιήθηκε η μέθοδος cross-correlation (Ando et al., 1983; Fukao, 1984). Μετά την επεξεργασία των δεδομένων, προσδιορίστηκαν οι παράμετροι του φαινομένου, φ (διεύθυνση ταλάντωσης της ταχύτερης συνιστώσας των εγκαρσίων κυμάτων) και dt (χρόνος καθυστέρησης μεταξύ των δύο συνιστωσών) για κάθε ένα σεισμικό γεγονός. Ο διαχωρισμός των εγκαρσίων κυμάτων (shear-wave splitting) είναι ένα φαινόμενο κατά το οποίο, τα εγκάρσια κύματα διαχωρίζονται σε δύο συνιστώσες, με διαφορετικές διευθύνσεις πόλωσης και διαφορετικές ταχύτητες διάδοσης. Ο διαχωρισμός αυτός πραγματοποιείται κατά την διάδοση των εγκαρσίων κυμάτων μέσα από ένα ανισοτροπικό μέσο (Crampin and Chastin, 2003; Crampin and Peacock, 2005). Σύμφωνα με τη θεωρία, ο διαχωρισμός των εγκαρσίων κυμάτων στον φλοιό, προκαλείται εξαιτίας της ύπαρξης μικρο-ρωγμών, μικρο-διαρρήξεων κορεσμένων με ρευστά. Οι μικρο-διαρήξεις αυτές έχουν συνήθως διευθύνσεις παράλληλες ή υπό-παράλληλες με αυτή της μέγιστης οριζόντιας συμπιεστικής τάσης σε μία περιοχή (Crampin, 1993). Η ανάλυση των δεδομένων κατέδειξε την ύπαρξη του φαινομένου διαχωρισμού των εγκαρσίων κυμάτων στην υπό μελέτη περιοχή. Τόσο πριν, όσο και μετά την εκδήλωση του σεισμού της 8ης Ιουνίου, οι διευθύνσεις πόλωσης της ταχύτερης συνιστώσας των εγκαρσίων κυμάτων ακολουθούν μία μέση διεύθυνση ΒΒΔ-ΝΝΑ. Η μέση διεύθυνση της ταχύτερης συνιστώσας δεν είναι σύμφωνη με τα χαρακτηριστικά του πεδίου των τάσεων στην περιοχή, όπως προσδιορίστηκαν από τους Konstantinou et al. (2011) και Hollenstein et al. (2008), με μία μέση διεύθυνση οριζόντιας συμπιεστικής τάσης Α-Δ. Η ΒΒΔ-ΝΝΑ διεύθυνση πόλωσης της ταχύτερης συνιστώσας οφείλεται πιθανόν στη δράση ενός πεδίου τάσεων γύρω και κάτω από τη θέση καταγραφής με τοπικά χαρακτηριστικά. Τέλος, παρατηρήθηκε μία αύξηση στις τιμές των χρόνων καθυστέρησης μετά την εκδήλωση του σεισμού της 8ης Ιουνίου. Η μέση τιμή των χρόνων καθυστέρησης πριν την εκδήλωση του σεισμού ήταν περίπου 27.3 ms, ενώ μετά την εκδήλωσή του 41.7 ms. H αύξηση των χρόνων καθυστέρησης, υποδηλώνει μία μεταβολή των ιδιοτήτων του μέσου στον ανώτερο φλοιό εξαιτίας της εκδήλωσης του σεισμού. Η εκδήλωση του σεισμού της 8ης Ιουνίου προκάλεσε πιθανόν την διεύρυνση και την επιμήκυνση των προϋπαρχόντων μικρο-διαρρήξεων του φλοιού, τη δημιουργία νέων και την επιπλέον πλήρωσή τους με ρευστά. / On June 8, 2008, at 15:25 local time (12:25 GMT) an Mw 6.4 earthquake occurred in the area of northwest Peloponnesus, Western Greece. The epicenter was located near Mihoi village, in the municipality of Movri, about 35 km southwest of Patras. In this paper, a crustal anisotropy analysis was performed in the epicentral area of Movri Mountain earthquake. Specifically, there was a study to detect shear-wave splitting phenomenon and its temporal evolution in relation to the occurrence of Movri Mountain earthquake. For the needs of the study, we used seismic records from the seismological station of Riolos (RLS). Riolos station is the nearest station from the epicenter of Movri Mountain earthquake which was in continuous operation during the periods before and after the occurrence of the earthquake. The method that was used to study shear-wave splitting phenomenon was the cross-correlation method (Ando et al., 1983; Fukao, 1984; Kuo et al., 1994). Through the data processing, splitting parameters φ (polarization direction of the fastest component of shear waves) and dt (time delay between the two components) were measured for each seismic event. Shear-wave splitting is a phenomenon in which shear-waves are separated into two components with different polarization directions and velocities. The phenomenon in the upper crust is caused by the existence of stress-aligned, fluid-filled micro-cracks/micro-fractures. The polarization directions of the fast components are usually parallel or sub-parallel to the direction of the maximum horizontal compressive stress (Crampin, 1993). Data analysis revealed the existence of shear-wave splitting phenomenon in the study area. Both before and after the occurrence of Movri Mountain earthquake, the polarization directions of the fast component of shear waves follow a general NNW-SSE direction. The observed mean fast polarization direction is not consistent with the estimated characteristics of the regional stress field of the broader area, as identified by Kontsantinou et al. (2011) and Hollenstein et al. (2008), who report a general E-W direction of the maximum horizontal compressive stress. The difference between the estimated fast polarization directions and the properties of the regional stress field shows the presence of a local stress field in the study area. Finally, an increase in time delays was observed after the occurrence of Movri Mountain earthquake. The average value of delay times before the occurrence of the earthquake was about 27.3ms, while after the occurrence was about 41.7ms. The increase in delay times which was observed after the occurrence of Movri Mountain earthquake possibly indicates changes in the properties of the medium in the upper crust. The occurrence of Movri Mountain earthquake caused the expansion/ lengthening of micro-cracks and its further filling with fluids.

Σεισμός Μόβρης

Ανισοτροπία

551.220 287

Shear-wave splitting

Movri mountain earthquake

Crustal anisotropy

Three-dimensional shear wave velocity structure in the Atlantic upper mantle

James, Esther Kezia

21 June 2016

Oceanic lithosphere constitutes the upper boundary layer of the Earth’s convecting mantle. Its structure and evolution provide a vital window on the dynamics of the mantle and important clues to how the motions of Earth’s surface plates are coupled to convection in the mantle below. The three-dimensional shear-velocity structure of the upper mantle beneath the Atlantic Ocean is investigated to gain insight into processes that drive formation of oceanic lithosphere. Travel times are measured for approximately 10,000 fundamental-mode Rayleigh waves, in the period range 30-130 seconds, traversing the Atlantic basin. Paths with >30% of their length through continental upper mantle are excluded to maximize sensitivity to the oceanic upper mantle. The lateral distribution of Rayleigh wave phase velocity in the Atlantic upper mantle is explored with two approaches. One, phase velocity is allowed to vary only as a function of seafloor age. Two, a general two-dimensional parameterization is utilized in order to capture perturbations to age-dependent structure. Phase velocity shows a strong dependence on seafloor age, and removing age-dependent velocity from the 2-D maps highlights areas of anomalously low velocity, almost all of which are proximal to locations of hotspot volcanism. Depth-dependent variations in vertically-polarized shear velocity (Vsv) are determined with two sets of 3-D models: a layered model that requires constant VSV in each depth layer, and a splined model that allows VSV to vary continuously with depth. At shallow depths (~75 km) the seismic structure shows the expected dependence on seafloor age. At greater depths (~200 km) high-velocity lithosphere is found only beneath the oldest seafloor; velocity variations beneath younger seafloor may result from temperature or compositional variations within the asthenosphere. The age-dependent phase velocities are used to constrain temperature in the mantle and show that, in contrast to previous results for the Pacific, phase velocities for the Atlantic are not consistent with a half-space cooling model but are best explained by a plate-cooling model with thickness of 75 km and mantle temperature of 1400oC. Comparison with data such as basalt chemistry and seafloor elevation helps to separate thermal and compositional effects on shear velocity.

Geophysics

Atlantic Ocean

Upper mantle

Hotspot volcanism

Oceanic lithosphere

Shear-wave velocities

Three-dimensional model

Variation de la vitesse des ondes de cisaillement lors de la transition solide-liquide au sein des argiles. Application aux glissements de terrain / Variation of shear wave velocity in the fluid-solid transition of clay. Clay landslides application.

Mainsant, Guenolé

17 April 2013

Les glissements de terrain argileux affectent de nombreux versants à travers le monde et menacent régulièrement les activités humaines dans les zones urbanisées montagneuses. Ces glissements sont caractérisés par des cinématiques souvent lentes mais ils peuvent brutalement se liquéfier et accélérer de manière imprévisible. Cette transition solide-liquide a été étudiée sur les argiles de la région du Trièves (Alpes Françaises) à l'aide d'études rhéologiques. Elles ont montré le caractère de fluide à seuil thixotrope avec une bifurcation de viscosité importante lors de la fluidification pouvant expliquer le caractère catastrophique de l'accélération observée sur le terrain. Cette perte de rigidité du matériau peut être observée par une chute de la vitesse des ondes de cisaillement (Vs). Des études réalisées en parallèle à la fois sur un modèle analogique de plan incliné et sur le terrain (glissement de Pont-Bourquin, Suisse) ont permis d'observer une chute de Vs précédent à cette fluidification montrant ainsi que Vs pourrait être un bon proxy pour la surveillance des instabilités de terrain argileux. / Landslides affect many clay slopes in the world and regularly threaten people in urban areas mountainous. These landslides are characterized by a slow velocity but they may suddenly liquefy and accelerate unexpectedly. The solid-liquid transition on the clay has been studied of Trièves region (French Alps) using rheological experiments. They have shown the yield stress thixotropic behavior with a viscosity bifurcation which can explain the catastrophic fluidization observed in the field. This loss of material stiffness can be followed by a drop in the shear wave velocity (Vs). Inclined plane test and field experiments (Pont-Bourquin landslides in Switzerland) have both shown a precursor drop of Vs indicating that it could be a good proxy for monitoring unstable clay slope.

Vitesse des ondes S

Rhéologie argile

Glissement de terrain

Shear wave velocity

Clay rheology

Landslide

Diffraction d'ondes de cisaillement en acoustique picoseconde et mesure de leur coécient de réflexion à une interface : modélisation et expériences / Diffraction of picosecond shear waves and measurement of their reflection coeffcient at a single interface : modeling and experiments

Viel, Alexis

15 June 2017

L'optoacoustique picoseconde est une technique qui permet de sonder la matière à l'échelle submicronique. L'objectif de ce travail est la synthèse d'ondes de cisaillement de fréquences GHz dans des couches minces isotropes pour l'analyse des propriétés transverses de la matière. C'est grâce à la diffraction du champ acoustique à l'intérieur du transducteur que ces ondes de cisaillement sont synthétisées. Nous exposons dans une première partie le développement des outils théoriques nécessaires à l'analyse de la répartition spatiale du champ acoustique généré lors de l'interaction laser-matière. Les diagrammes de directivité ainsi établis permettent de prévoir les directions de rayonnement privilégiées. Par une méthode de post traitement adaptée,nous synthétisons ensuite des ondes transverses dans ces directions particulières. Lorsque le transducteur est chargé par un milieu dont on cherche à connaître les propriétés transverses, les ondes de cisaillement synthétisées sont réfléchies à l'interface entre le transducteur et ce milieu. L'analyse du coefficient de réflexion permet alors de déterminer les propriétés mécaniques du milieu à sonder. Nous illustrons cette méthode numériquement et expérimentalement dans le cas d'une interface titane/glycérol. / Picosecond optoacoustics is a technique that can probe properties of matter on a submicronscale. The aim of this work is to synthesize shear waves at GHz frequencies in a thin isotropiclayer in order to analyse its shear properties. Transverse waves are synthesized using diffraction.In the first part we develop theoretical tools in order to analyse the spatial repartition of theacoustic field generated by the laser-matter interaction. Directivity patterns predict the particulardirections for which amplitude of the shear waves is higher. Thus, we synthesized shearwaves in these particular directions using a dedicated post processing method. To investigateshear properties of a film lying on the sample, we study the reection of shear waves betweenthe transducer and the lying film. Starting with either simulated or experimental recordedwaveforms, we demonstrate the method in the specific case of the titanium/glycerol interface.

Acoustique picoseconde

Onde transverse

Coefficient de réflexion

Picosecond acoustics

Shear wave

Re ection coefficient

Estimation of Pressuremeter Modulus From Shear Wave Velocity In the Sonoran Desert

January 2018

abstract: Laterally-loaded short rigid drilled shaft foundations are the primary foundation used within the electric power transmission line industry. Performance of these laterally loaded foundations is dependent on modulus of the subsurface, which is directly measured by the Pressuremeter (PMT). The PMT test provides the lateral shear modulus at intermediate strains, an equivalent elastic modulus for lateral loading, which mimics the reaction of transmission line foundations within the elastic range of motion. The PMT test, however, is expensive to conduct and rarely performed. Correlations of PMT to blow counts and other index properties have been developed but these correlations have high variability and may result in unconservative foundation design. Variability in correlations is due, in part, because difference of the direction of the applied load and strain level between the correlated properties and the PMT. The geophysical shear wave velocity (S-wave velocity) as measured through refraction microtremor (ReMi) methods can be used as a measure of the small strain, shear modulus in the lateral direction. In theory, the intermediate strain modulus of the PMT is proportional to the small strain modulus of S-wave velocity. A correlation between intermediate strain and low strain moduli is developed here, based on geophysical surveys conducted at fourteen previous PMT testing locations throughout the Sonoran Desert of central Arizona. Additionally, seasonal variability in S-wave velocity of unsaturated soils is explored and impacts are identified for the use of the PMT correlation in transmission line foundation design. / Dissertation/Thesis / Doctoral Dissertation Civil, Environmental and Sustainable Engineering 2018

Civil engineering

degradation factor

pressuremeter modulus

shear wave velocity

unsaturated soil mechanics

Determinação do Gmáx através do método de análise espectral de ondas superficiais / Determination of GMax using spectral-analysis-of-surface-waves.

Marco Aurelio . Flores Apaza

16 April 2009

Esta dissertação apresenta o método de análise espectral de ondas superficiais (SASW) para a obtenção das variações do módulo cisalhante (Gmáx) com a profundidade, no domínio das deformações muito pequenas (abaixo de 0,001%). O SASW é um método sísmico in situ, não destrutivo, baseado na geração e detecção de ondas Rayleigh e na natureza dispersiva desta onda. Pela aplicação de um impacto na superfície do solo e detecção da onda em vários pontos, através de dois receptores, é construída uma curva de dispersão (velocidade de fase versus comprimento de onda). Esta curva de dispersão é, então, invertida. A inversão é um processo analítico para a reconstrução do perfil de velocidade de onda de cisalhamento (VS), partindo-se da curva de dispersão experimental de campo. O módulo de cisalhamento máximo de cada camada é facilmente obtido a partir do perfil de VS. No conteúdo teórico da dissertação discutem-se propriedades dinâmicas dos solos e descrevem-se as equações que dominam a propagação das ondas elásticas, tanto em meios homogêneos como em meios estratificados. A metodologia desenvolvida para a obtenção das curvas de dispersão, através da realização de ensaios SASW, apresenta os resultados obtidos em ensaios realizados na Cidade Universitária em São Paulo, sendo esses resultados comparados com estimativas feitas a partir de correlações baseadas em ensaios SPT existentes. Essas comparações permitem concluir que a metodologia SASW é uma boa alternativa para a determinação do perfil de rigidez (Gmáx) do solo, concordando com o nível de deformação envolvido nos ensaios. São desenvolvidos estudos de sensibilidade do método para verificar a influência na mudança dos parâmetros assumidos (peso específico, coeficiente de Poisson e espessuras das camadas) no processo de redução de dados (inversão) sobre o perfil final de VS, concluindo-se que o parâmetro que apresenta maior influência é o coeficiente de Poisson. / This dissertation presents the spectral-analysis-of-surface-waves (SASW) method as a tool for obtaining the variations in the modulus shear (Gmax) with depth in the field of very small strains (below 0,001%). The SASW method is a nondestructive in situ seismic method, based on the generation and measurement of Rayleigh wave and on its dispersive characteristic nature. Throughout the implementation of an impact on the soil surface and the detection of the wave at various points by two receptors a dispersion curve is constructed (phase velocity versus wave-length). This dispersion curve is then inverted. Inversion is an analytical process for reconstructing the shear wave velocity profile from the experimental field. The shear modulus of each layer is readily obtained from the shear wave velocity profile. The theoretical content of the dissertation presents dynamic properties of the soils and is described in the equations that dominate the propagation of elastic waves, both in homogeneous media and in stratified media. The methodology developed to obtain the dispersion curves through the implementation of SASW test is defined, and results from tests carried out at the University Campus in São Paulo are presented and compared with values obtained from correlations based on SPT tests. These comparisons indicate that the SASW method is a good alternative to determine the profile of stiffness (Gmax) of the soil, agreeing with the level of deformation involved in the tests. Studies on the methods sensitivity are developed to verify the influence on the changing of the parameters given (natural unit weight, Poisson coefficient and thickness of layers) in reduction of data (inversion) on the final profile of VS. The conclusion is that the Poisson coefficient is the parameter with greater influence.

Cisalhamento

Ondas sísmicas

Solos

Rayleigh waves

SASW Method

Shear modulus

Shear wave velocity

Spectral analysis

Diagnostic et évaluation de la gravité des maladies chroniques du foie : impact de l’elastographie par ondes de cisaillement « supersonic shear imaging » / Impact of « Supersonic Shear Imaging » elastography in the noninvasive diagnosis of chronic liver diseases

Cassinotto, Christophe

23 November 2016

Les maladies chroniques du foie constituent un problème majeur de santé publique. L’évaluation précise du degré de fibrose hépatique apporte au clinicien une estimation du pronostic dès la prise en charge initiale de ces patients, mais permet également la réalisation d’une surveillance évolutive, et intervient dans la décision et le choix d’un traitement. L’évaluation noninvasive de la fibrose hépatique par élastographie a permis de révolutionner la prise en charge des malades atteints d’une maladie chronique du foie. L’objectif de notre travail est d’évaluer les performances diagnostiques d’une nouvelle technique d’élastographie hépatique, appelée « Supersonic ShearImaging » (SSI), et d’analyser sa plus-value dans l’évaluation non-invasive des maladies chroniques du foie.Dans une première étude, nous avons prospectivement analysé et comparé les performances diagnostiques de l’élastographie SSI par rapport au FibroScan et l’ARFI pour le staging de la fibrose hépatique sur une série de 349 patients avec une maladie chronique du foie diagnostiquée et gradée par ponction-biopsiehépatique.Dans une seconde étude, nous avons prospectivement étudié l’impact diagnostique de l’élastographie SSIsur le foie et la rate chez une population de 401 patients avec cirrhose pour l’évaluation de la gravité de la maladie cirrhotique.Dans une troisième étude, nous avons réalisé une analyse prospective bicentrique (Angers et Bordeaux)de la performance diagnostique de l’élastographie SSI par rapport au FibroScan et l’ARFI dans l’évaluation non invasive de la fibrose hépatique sur une série de 291 patients avec stéatopathie non-alcoolique et ponction-biopsiehépatique. / Abstract :The management and the prognosis for chronic liver diseases are widely based on the presence and the development of a liver fibrosis. The progressive worsening of liver fibrosis leads in a certain number of patients to the development of cirrhosis and its complications. Thus, the development of non-invasive diagnostic tools for the diagnosis and the monitoring of the liver fibrosis is of crucial interest. Liver elastography is one of the most promising techniques that have recently emerged in the field of chronic liver diseases. In this study, we aim to assess the diagnostic accuracy of a new elastography technique, named “Supersonic Shear Imaging” (SSI), and toanalyse its added value in the non invasive diagnosis of chronic liver diseases.In a first study, we prospectively analysed and compared the diagnostic performances of SSI elastography versus FibroScan and ARFI for the staging of liver fibrosis in a cohort of 349 patients with chronic liver diseases that consecutively underwent a liver biopsy. In a second study, we prospectively analysed the impact of liver and spleen SSI elastography in a cohortof 401 cirrhotic patients for the non invasive diagnosis of cirrhosis severity and oesophageal varices.In a third study, we assessed the clinical use of liver stiffness measurement evaluated by SSI, FibroScan,and ARFI in a cohort of nonalcoholic fatty liver disease patients who underwent liver biopsy. A total of 291 NAFLD patients were prospectively enrolled at 2 French university hospitals (Angers and Bordeaux).

Elastographie par ondes de cisaillement

Fibrose hépatique

Diagnostic non-invasif

Bidimensional Shear Wave Elastography

Liver fibrosis

Noninvasive diagnosis