Breadcrumbs List.
Find a priority project
Discover the projects that are eligible for masters and doctoral scholarship funding.
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Deep Learning for Precise Timing of Neonatal Hypoxic-Ischemic Encephalopathy via EEG and Seizure Pattern Analysis
PhD Project: This project utilises deep learning to determine the exact timing of hypoxic-ischemic brain injury in neonates using EEG within the first 6-hours of life when hypothermia treatment is most effective.
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Deep Learning for DNA Methylation-Based Classification and Diagnosis of Glioblastoma Brain Tumours
PhD Project: This project aims to harness deep learning for precise DNA methylation-based classification of glioblastoma brain tumours to enhance diagnostic accuracy for targeted and personalised treatments.
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New approaches to measurement of the cornea using smartphones
PhD Project: Are you interested in developing new eye health technology?
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Inferring cardiac contractility using non-invasive methods
PhD Project: This project focuses on using state-of-the-art experimental and computational modelling techniques to develop better methods for clinicians to infer the contractility of a beating heart.
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Computable model reuse improves credibility?
PhD Project: Model credibility is a critical determinant for successful clinical translation. Standardised and automated model reuse improves model credibility, or does it?
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Treating right-heart failure from an energetics perspective
PhD Project: This project is highly topical as it addresses the urgent need for improved and effective treatment options for patients with right-heart failure.
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Precision Prostate Cancer Treatment Using MRI Radiomics and AI
PhD Project: Want to improve the treatment of prostate cancer, using radiomics and AI?
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Pharmacological interventions on cardiac efficiency in female diabetic hearts
PhD Project: This project aims to develop engineering approaches to study both acute and chronic treatments of mitochondrial-derived peptide MOTS-c to improve energetic performance in the female diabetic heart.
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Uncover the form-function relationship of paediatric hip joint deformities using personalised FEA models
PhD Project: Want to be involved in the future of Health Care? Work with us to create the cornerstone for novel in silico clinical decision-making tools for personalised interventions in children and adolescents.
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Food protein digestion model in relation to age
PhD Project: We want to establish a model to simulate the digestion of protein in relation to age, using in vitro digestion and clinical MRI methods. Results will be developed into a computational model.
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Illuminating Neurological Effects of Exercise on Healthy Aging through Multimodal MRI Quantifications
Masters Project: Want to study intelligent multimodal MRI analysis techniques and apply them to unraveling the neurological effects of exercise on healthy aging?
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Integrating Artificial Intelligence with Augmented Reality for Neurorehabilitation: Advancing Solutions for Spatial Neglect
Masters Project: In this project you will pioneer the integration of Artificial Intelligence (AI) and Augmented Reality (AR) to redefine neurorehabilitation for spatial neglect.
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Thermodynamically consistent cardiac action potential modelling
Masters Project: Want to balance the laws of thermodynamics while modelling the behaviour of the heart? We seek to use bleeding-edge computational methods to assemble, verify and validate a novel model of a cell.
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High-throughput testing of living heart muscles
Masters Project: Learn and apply highly-transferable skills: optics, mechatronics, real-time image processing, and more, as you design, construct, and test a new instrument for studying living heart muscle.
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Unlocking the pregnancy puzzle with mathematical modeling
Masters Project: Detecting issues during pregnancy is tricky and maths modeling can predict and prevent problems. With experimental / clinical data and your Masters thesis, solving the puzzle of pregnancy awaits.
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Broadening the approach of studying skinned cardiac muscle
Masters Project: Cardiac muscle can have its membrane removed ('skinned') in experimental study. Can we study skinned cardiac muscle like it was still intact (before skinning)?
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Assessing the effect of a novel cardiac drug on muscle mechano-energetics: experiments and mathematical modelling
Masters Project: As an ME student in this project, you will use advanced muscle experimentation and quantitative mathematical modelling techniques to understand how a novel cardiac drug can improve heart function.
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Large language models to drive credible digital twins
PhD Project: This project will develop novel methodologies involving large language models, informed machine learning, and network theory to automatically derive digital twins in pursuit of precision medicine.
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Understanding Jet-Tissue Interaction
PhD Project: This project focuses on understanding how liquid jets break through the skin to achieve effective needle-free drug delivery.
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Do you have an ABI ME or PhD project spot to fill? Find the information and forms you need to complete here.
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