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microfluidic chip to simulate inter-organ crosstalk and dynamic hormone regulation. A panel of environmentally relevant chemicals and mixtures will be applied to evaluate dose–response effects and mechanisms
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milli-/microfluidic reactive experiments relevant to the DLRI process. • Implement and optimize ZnO nanoparticle synthesis under controlled conditions. • Perform optical measurements (UV-Vis, PL) and
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algorithms, electric and magnetic fields, ultrasound, optics and targeted radiation, microfluidics, controlled force sensing and actuation and related tools for probing and controlling biomolecular systems
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PhD or a PhD near completion in cell biology, bioengineering, bioscience, molecular biology or a related field. Candidates should have extensive experience of working with microfluidic chips, mammalian
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generated FUS-eGFP reporter iPSCs for live-cell imaging of RNP granules, facilitating compound screening to identify novel drugs for repurposing as ALS therapeutics. We also generated a microfluidic device
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effectiveness and safety. This PhD project aims to address this challenge through biomimetic engineering design, combining predictive in silico modelling with machine-learning techniques and microfluidic
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characteristics. In vitro microfluidic models will use disease-specific flow conditions and blood samples from DVT patients. Your work will ultimately contribute to a risk prediction tool for recurrent DVT and PTS
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in hemodialysis patients. Your work will involve: Developing in silico models using computational fluid dynamics combined with macroscopic thrombus formation modelling. Creating in vitro microfluidic
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response especially with applications in microfluidics, organ-chip, and microphysiological systems. Hands-on experience with research protocols relating to human endothelial cells and neutrophils is required
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also be subjected to droplet microfluidics, one of the most promising high-throughput methods for effectively processing the MIP-probe-positive individual cells for RNAseq analysis by using our standard