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Advanced quantitative ultrasound imaging using capacitive micromachined ultrasound transducers

Ultrasound imaging has revolutionised healthcare, as one of the most valuable and cost-effective diagnostic tools in comparison with other diagnostic imaging devices. It is used extensively to examine the unborn baby, heart, breast, neck, musculoskeletal tissues, peripheral vasculature, liver, kidneys and other organs. Major advantages include portability, cost-effectiveness, volumetric real-time capabilities, virtually unlimited resolution, and no reported cases of harm to patients in literature.One of the most promising technologies to replace the traditional piezoelectric crystals used as transducers in ultrasound …

Study level
Vacation research experience scheme
Faculty
Faculty of Health
School
School of Clinical Sciences
Research centre(s)
Centre for Biomedical Technologies

Advanced artificial intelligence based ultrasound imaging applications

Our research in the space of advanced quantitative medical imaging is investigating how to use ultrasound as a real time volumetric mapping tool of human tissues, to guide in a reliable and accurate way complex medical procedures1. We have developed several novel methods which make use of the most cutting-edge artificial intelligence technology2. For example, to show where the treatment target and the organs at risk are at all times during treatments in radiation therapy3, 4; or to inform robots …

Study level
PhD, Master of Philosophy
Faculty
Faculty of Health
School
School of Clinical Sciences
Research centre(s)
Centre for Biomedical Technologies

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