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. Dimitris Missirlis. This project will employ advanced bioengineering, molecular biology, and imaging techniques to unravel how ultrasound can be used to influence cells. Key highlights: Focus on mechanistic
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Computational Imaging Research Lab (CIR), Department of Biomedical Imaging and Image-guided Therapy | Austria | 9 days ago
imaging datasets across modalities (X-ray, ultrasound, MRI). Scalable ML workflows: GPU-based training, experiment tracking, reproducible pipelines, model validation and deployment. Research excellence
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Erasmus MC (University Medical Center Rotterdam); yesterday published | Netherlands | about 1 month ago
You will be part of a project that will develop wearable heart-monitoring technology based on ultrasound sensors. This is a critical advancement as the aging population increasingly demands better
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Current reseach is in the areas of: Development of biomimetic structures as ultrasound contrast agents Deep tissue imaging using photoacoustic contrast agents All optical photoacoustic sensors
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based on ultrasound sensors. This is a critical advancement as the aging population increasingly demands better healthcare solutions to chronic diseases. Proper monitoring has the potential to improve
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based on ultrasound sensors. This is a critical advancement as the aging population increasingly demands better healthcare solutions to chronic diseases. Proper monitoring has the potential to improve
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tracking, accelerometers or sEMG and are constrained by power consumption and limited robustness. MiNI introduces a multimodal approach that integrates electrical (sEMG), mechanical (ultrasound), and
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the use of machine learning methods to process complex data sets. The focus is on techniques such as ultrasound, radar, computed tomography, acoustic emission analysis, and infrared thermography
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rest, will be combined with detailed in vivo human physiology techniques in healthy volunteers. Methods may include stable isotope tracers, blood and muscle biopsies, imaging (ultrasound, MRI, DXA), and
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PhD Scholarships in Piezophotoacoustic Technology for Minimally Invasive Endoscopy - DTU Health Tech
right research project for you. The PhD research project aims to explore and develop probes for ex-vivo and in-vivo applications for tissue imaging, classification and identification by exploiting