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This fully-funded PhD offers a unique opportunity to drive that change. We are seeking a talented and motivated student to join a multidisciplinary team working at the intersection of biomedical
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sensor technologies—including but not limited to biomedical radar—to improve fall risk prediction and support rehabilitation in healthcare settings. About us At the biomedical electromagnetics group , we
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. Like other glycans, they are not built against a defined template, and yet their structure is non-random, with specific motifs within the glycan chains defining binding sites for critical signalling and
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cultures—a powerful 3D ex vivo model—this project will dissect the mechanistic links between mTOR signalling, reactive glial phenotypes, and complement activation. The project will also incorporate human
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signals from cells flowing in microfluidic chips (Göllner, ACS Applied Materials & Interfaces, 2025). Such a chip format combined with cheap and small laser diodes for excitation of the photoacoustic
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specific motifs within the glycan chains defining binding sites for critical signalling and structural molecules. Unravelling the ways in which these motifs are encoded into GAGs by their biosynthetic
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bladder plays a vital role in storing and releasing urine, governed by complex neural circuits. As the bladder fills, sensory signals originating from its wall inform the central nervous system about
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, governed by complex neural circuits. As the bladder fills, sensory signals originating from its wall inform the central nervous system about bladder fullness. Disruption of these signaling pathways can
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) offer new avenues to tackle this problem. AI models have demonstrated strong potential in clinically relevant insights from electrical signals such as ECGs, and from cardiac imaging modalities including
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) offer new avenues to tackle this problem. AI models have demonstrated strong potential in clinically relevant insights from electrical signals such as ECGs, and from cardiac imaging modalities including