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precision. Key Responsibilities: You will lead the development of the first intraoperative 4D ultrasound prototype by integrating hardware and software in close collaboration with industrial and academic
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Join our group to unlock ultrasound imaging inside bones! Job description Our group aims to unlock ultrasound imaging inside bones. Our ambition is to develop operator-independent approaches
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interdisciplinary research project in molecular ultrasound imaging using functionalized, monodisperse microbubbles. The project aims to understand how the acoustic response of microbubbles changes upon molecular
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methods are not sufficiently accurate. Tumor vasculature abnormalities, such as increased permeability and tortuosity, challenge traditional imaging techniques. Contrast-enhanced ultrasound (CEUS) using
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ultrasound imaging of the human brain. Specifically, the task will consist in developing fully noninvasive volumetric ultrasound neuroimaging augmented with skull aberration correction. The long term goal
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projects that will provide ground-breaking technological advances based on ultrasound transducer arrays. At the Imaging Physics Department, Faculty of Applied Sciences, we develop innovative measurement
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of an individual that is ultimately lost due to progression of the disease. This project proposes a comprehensive and innovative tool based on three complementary imaging technologies—MRI, ultrasound, and