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surgery. This PhD position will focus on the health monitoring system development mainly based on multimodal physiological signals, for instance, inertial measurement unit (IMU), electrocardiography (ECG
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to lung inflammation and fibrosis. The student will combine structural biology, protein biochemistry, cell biology, and immunology to assess how these processes influence immune signaling proteins and their
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involves intricate signalling pathways, yet the priming factors, especially blood flow-induced mechanical cues, that initiate this process remain poorly understood. Recent advances in microfluidic organ-on-a
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biodiversity recovery and climate mitigation and adaptation. The post holder will work closely with Prof. Andrew Friend and the wider CLR team. They will also have the opportunity to participate in a wide range
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PhD Scholarships in Piezophotoacoustic Technology for Minimally Invasive Endoscopy - DTU Health Tech
sensing the backscattered ultrasound signals. You will join a laboratory with expertise in photonics, piezoelectric materials and device fabrication methods for sensors and actuators, working under
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is done. b) Hold a Master’s degree in Biomedical Engineering or Mechanical Engineering, with a final grade of 17 or higher (on a 20-point scale). c) Fluency in both English and Portuguese (preferred
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environment effects on senescence, using an epigenetic clock”, with the Seychelles warbler (Acrocephalus sechellensis) as a model system. The project is supervised by Prof. Hannah Dugdale (University
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to leverage state-of-the-art technologies. Our findings indicate that circulating human neutrophils are transcriptionally heterogeneous. A key question is whether neutrophils in the circulation reflect
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team of Prof. Seppe De Schepper investigates how peripheral immune signals influence brain health and disease. We focus on tissue-resident macrophages and immune cell trafficking from periphery to brain
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experiments have shown that ECs from different tissue origins have distinct capacities to sense and respond to mechanical signals (e.g., stiffness, shear stress), to initiate angiogenesis, and to form luminal