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Artykuły w czasopismach na temat "Imagerie passive par ultrasons"
Athanasiou, A., i A. Tardivon. "Élastographie par ultrasons en imagerie cancérologique". Oncologie 12, nr 3 (marzec 2010): 208–12. http://dx.doi.org/10.1007/s10269-010-1872-4.
Pełny tekst źródłaChiou, Auguste, André Mermoud i Serge-Emmanuel Hédiguer. "Glaucome malin par blocage ciliaire après sclérectomie profonde - Imagerie par biomicroscope à ultrasons*". Klinische Monatsblätter für Augenheilkunde 208, nr 05 (maj 1996): 279–81. http://dx.doi.org/10.1055/s-2008-1035214.
Pełny tekst źródłaRibay, Guillemette, Ekaterina Iakovleva, Hugues Lourme, Maxance Marmonier, Sébastien Robert, Manon Chastaing i Pierre-Emile Lhuillier. "Evaluation d’algorithmes d’imagerie rapide pour le contrôle de pièces épaisses en transmission". e-journal of nondestructive testing 28, nr 9 (wrzesień 2023). http://dx.doi.org/10.58286/28513.
Pełny tekst źródłaRozprawy doktorskie na temat "Imagerie passive par ultrasons"
Gateau, Jérôme. "Imagerie ultrasonore ultrarapide d'évènements de cavitation : application en thérapie par ultrasons et imagerie de détection". Phd thesis, Université Paris-Diderot - Paris VII, 2011. http://pastel.archives-ouvertes.fr/pastel-00863591.
Pełny tekst źródłaBarrère, Victor. "Thermométrie Ultrasonore et caractérisation tissulaire durant les traitements par Ultrasons Focalisés de Haute Intensité par méthodes ultrasonores et élastographie passive". Electronic Thesis or Diss., Lyon, 2019. http://www.theses.fr/2019LYSE1348.
Pełny tekst źródłaHigh Intensity Focused Ultrasound (HIFU) is a noninvasive technique allowing generating a temperature increase away from the emitter. This technique is already used in clinic for the treatment of many pathologies such as essential tremors, cancers of the prostate, liver, pancreas, uterine fibroid, glaucoma etc. An imaging modality is required to effectively guide and monitor non-invasive HIFU treatments. Today, magnetic resonance imaging (MRI) and B-mode imaging are the main techniques used in combination with HIFU to guide treatment. MRI is superior to ultrasound for visualizing tissue temperature and necrosis, but this technique is extremely expensive and lacks portability, availability, and present compatibility issues with patients and devices. Ultrasonic imaging has advantages in terms of cost and portability, availability and present good spatial and temporal resolution. Conventional ultrasound imaging shows the spatial amplitude distribution of echoes reflected by acoustic impedance inhomogeneities in the medium and is already widely used to guide and monitor HIFU treatments in commercial devices. However, ultrasound imaging provides limited information on the formation of HIFU coagulation necrosis, and doesn’t allow thermometry. In most cases, hyperechos are visible due to microbubbles generated by acoustic cavitation or boiling. However, these hyperechoic zones do not allow precise contouring of the treated area, and they do not appear during the coagulation. Several methods have been proposed to characterize the thermal changes as a function of other parameters, such as ultrasonic backscatter. Tissue elasticity has also been studied, based on the fact that the tissues become stiffer when they are coagulated. In this thesis, we investigated the changes in backscattered energy by tissue treated by ultrasound due to thermal coagulation without the generation of microbubbles between 37°C and 80°C. The measurements, particularly focused on the energy of the backscattered signal, have been performed for the monitoring of treatments between 1 and 2.9 MHz. Quantitative ultrasounds methods have been performed to reveal information on the microstructure of tissues, in order to explain the phenomena inducing the changes in the backscattered signals during a HIFU heating. A chapter focuses on the monitoring of ultrasonic interventions by passive elastography. Finally, the characterization devices and techniques used in these works were used to characterize liver tissue derived from standard hepatectomies and containing primary and secondary tumors in terms of attenuation. The impact of the different attenuations between the two types of tumor tissue was evaluated by numerical simulations of HIFU treatments. The results led to conclusions about the need for different treatments for primary and secondary cancers in the liver
Ternifi, Redouane. "Mesure de la pulsatilité naturelle du tissu cérébral par ultrasons". Thesis, Tours, 2014. http://www.theses.fr/2014TOUR3306/document.
Pełny tekst źródłaThe study of biological tissues movement is currently, one of the major thematics in the medical imaging field. The challenge is to provide additional clinical information and allow for diagnostic assistance. The recently introduced elastographic techniques, provide ample opportunities for biomechanical tissues characterization, particularly of cerebral tissues. An innovative passive-elastographic methodology for assessing mechanical properties of brain tissue is proposed. The eventual aim is to allow for the diagnosis of neurodegenerative diseases
Sivadon, Audrey. "Contributions à l’imagerie passive de la cavitation ultrasonore : formation de voies adaptatives en 3D et extension spatiale de nuages de bulles". Electronic Thesis or Diss., Lyon 1, 2022. http://www.theses.fr/2022LYO10172.
Pełny tekst źródłaPassive imaging relies on beamforming algorithms that require large aperture probes to provide good axial resolutions; however, in 3D passive imaging, the matrix probes currently marketed do not meet this constraint. Moreover, these probes have a large number of elements, which makes their use particularly unwieldy. This thesis work focuses on the study and improvement of passive cavitation imaging by addressing two aspects in particular: (i) the practical and efficient implementation of 3D passive imaging, (ii) the problem of imaging large sources such as cavitation clouds. We have combined the application of sparse methods (to reduce the number of active elements of the probe used) and the transposition from 2D to 3D of adaptive algorithms in the frequency domain. This formalism uses the robust estimation of the inter-spectral density matrix (CSM) and allowed us to implement simply and efficiently different algorithms: Delay-And-Sum (DAS), Robust-Capon-Beamformer and Pisarenko. The efficiency of these algorithms in 3D has been tested in terms of width to half height, contrast and position error, on a point source in simulations and on a point reflector in experiments. Finally, in order to address the reality of cavitation clouds, we have investigated the behavior of these reconstruction methods in the case of extended sources. Our 2D simulations show the evolution of the reconstructed images as a function of the cavitation cloud characteristics. This work provides a concrete solution for a simple implementation of 3D passive imaging as well as answers to the expectations on the localization and characterization of a cavitation cloud
Asquier, Nicolas. "Etude des moyens de caractérisation de l’ouverture de la barrière hémato-encéphalique induite par un dispositif ultrasonore implantable". Thesis, Lyon, 2019. http://www.theses.fr/2019LYSE1330/document.
Pełny tekst źródłaThe blood-brain barrier (BBB) is a natural protection of the central nervous system. However, it limits the delivery of many drugs to the brain tissues. It can be temporarily disrupted by ultrasound exposure combined with intravenous injection of microbubbles. In this manuscript, BBB disruption with an implantable unfocused ultrasound device is studied. An automatic method for quantifying the volume of BBB disruption using MR images from a phase 1/2a clinical study in patients with reccurent glioblastoma was assessed and validated. A correlation between the probability of disruption and the local acoustic pressure was found. Microbubbles cavitation activity was studied in vitro to better understand its effect on BBB disruption. The uncertainty on the amplitudes of cavitation signals recorded with a passive single-element detector (PCD) through the skull was quantified. A position-based correction of the PCD signal was assessed and validated. The effect of the volume of a cavitation cloud in the unfocused ultrasound field on the signal amplitude recorded by the PCD during the clinical treatment was discussed. Two methods for localizing and discriminating cavitation sources in a transcranial context were evaluated by simulations and in vitro
Asquier, Nicolas. "Etude des moyens de caractérisation de l’ouverture de la barrière hémato-encéphalique induite par un dispositif ultrasonore implantable". Electronic Thesis or Diss., Lyon, 2019. https://n2t.net/ark:/47881/m6rn376t.
Pełny tekst źródłaThe blood-brain barrier (BBB) is a natural protection of the central nervous system. However, it limits the delivery of many drugs to the brain tissues. It can be temporarily disrupted by ultrasound exposure combined with intravenous injection of microbubbles. In this manuscript, BBB disruption with an implantable unfocused ultrasound device is studied. An automatic method for quantifying the volume of BBB disruption using MR images from a phase 1/2a clinical study in patients with reccurent glioblastoma was assessed and validated. A correlation between the probability of disruption and the local acoustic pressure was found. Microbubbles cavitation activity was studied in vitro to better understand its effect on BBB disruption. The uncertainty on the amplitudes of cavitation signals recorded with a passive single-element detector (PCD) through the skull was quantified. A position-based correction of the PCD signal was assessed and validated. The effect of the volume of a cavitation cloud in the unfocused ultrasound field on the signal amplitude recorded by the PCD during the clinical treatment was discussed. Two methods for localizing and discriminating cavitation sources in a transcranial context were evaluated by simulations and in vitro
Zorgani, Ali. "Passive Elastography : Tomography and Mechanical Characterization of Biological Tissue". Electronic Thesis or Diss., Lyon, 2016. http://www.theses.fr/2016LYSE1191.
Pełny tekst źródłaThe aim of this thesis was the development of a new approach called passive elastography. This approach is inspired from noise correlation methods well developed in seismology and time reversal technics in acoustics. Passive elastography uses shear waves naturally induced in the human body to extract its mechanical properties of soft tissue. The feasibility of this method was tested in several applications. First in ultrasound, slow frame rate ultrasound scanner was used to monitor high intensity focused ultrasound treatment on porcine pancreas. Then, an ultrafast ultrasound scanner was used to retrieve shear wave speed map in a calibrated phantom and in-vivo. Second, Magnetic resonance elastography was implemented to image natural motion in the brain of healthy volunteers and conduct shear wavelength tomography. Third, of ophthalmological and dermatological applications, optical coherence passive elastography was tested in a phantom and a cornea of healthy mouse. Also, a fully optical setup was established to image surface wave for elastography applications. Finally, the resolution limit of elastography was measured using and ultrasound ultrafast scanner
Zorgani, Ali. "Passive Elastography : Tomography and Mechanical Characterization of Biological Tissue". Thesis, Lyon, 2016. http://www.theses.fr/2016LYSE1191/document.
Pełny tekst źródłaThe aim of this thesis was the development of a new approach called passive elastography. This approach is inspired from noise correlation methods well developed in seismology and time reversal technics in acoustics. Passive elastography uses shear waves naturally induced in the human body to extract its mechanical properties of soft tissue. The feasibility of this method was tested in several applications. First in ultrasound, slow frame rate ultrasound scanner was used to monitor high intensity focused ultrasound treatment on porcine pancreas. Then, an ultrafast ultrasound scanner was used to retrieve shear wave speed map in a calibrated phantom and in-vivo. Second, Magnetic resonance elastography was implemented to image natural motion in the brain of healthy volunteers and conduct shear wavelength tomography. Third, of ophthalmological and dermatological applications, optical coherence passive elastography was tested in a phantom and a cornea of healthy mouse. Also, a fully optical setup was established to image surface wave for elastography applications. Finally, the resolution limit of elastography was measured using and ultrasound ultrafast scanner
Larose, Eric. "Diffusion multiple des ondes sismiques et expériences analogiques en ultrasons". Université Joseph Fourier (Grenoble), 2005. http://www.theses.fr/2005GRE10100.
Pełny tekst źródłaThis thesis manuscript is devoted to the study of the seismic and ultrasonic wave propagation in complex media. Two methods are proposed to take advantage of the phase information contained in diffuse waves. 1) Weak localization of seismic waves is observed on a volcano (Auvergne). This field experiment demonstrates the presence of multiple scattering in coda waves, and allows the direct measurement of the transport mean free path of the sub-surface that quantifies the heterogeneities. 2) A passive imaging technique is also proposed : it is based on the correlation of diffuse field or noise, a correlation that yield the elastic or acoustic Green function between passive sensors as if one of them was a source. Initially applied to ultrasonic cavities, this technique is generalized to open scattering media. A physical interpretation based on a Time-Reversal analogyis proposed. The time symmetry of the correlations is studied, with means of numerical simulations, seismic experiment in Alaska, and ultrasonic experiment in the lab using a small medium ana logo us to the Earth's crust. The role of scattering and source position is emphasized. The passive imaging technique is used to perform the tomography of a layered medium, to image of interfaces and localized reflectors. Ln the end this technique is applied to Lunar seismic noise records, acquiered by four geophones emplaced on the Moon during Apollo 17 mission (1972). This last observation demonstrates the feasibility of correlating the noise to image the subsurface on other planets than the Earth which should provide a novel avenue for future extraterrestrial exploration missions
Graciet, Christophe. "Imagerie quantitative par ultrasons de propriétés de matériaux composites". Bordeaux 1, 1996. http://www.theses.fr/1996BOR10574.
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