Scientia Professor Nigel Lovell |
- Optrode design for brain-machine interfaces
- Smartphone apps for managing chronic disease
- Gene electrotherapy for neural augmentation
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Dr Socrates Dokos |
- Computational modelling of retinal electrical stimulation
- Computational cardiac electromechanics
- Modelling transcranial electric stimulation
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Dr Michael Stevens |
- Fall detection and activity monitoring in patients with Alzheimer's disease
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Dr Tianruo Guo |
- Smart stimulation strategies for selective activation of different neuron classes听
- Computational Modelling of retinal degeneration听
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Dr Amr Al Abed |
- Computational Cardiology
- Optrode arrays for neural interfacing and cardiac diagnostics
- Bionic-array driven gene delivery听
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- Novel current focusing and steering methods to improve spatial resolution of bionic eyes
- Stimulation strategies for selective activation of different neuron classes
- Platinum dissolution and stimulation waveforms to minimise dissolution
- Generation of direct current with neural stimulation and safety limits
- Encoding of touch in the somatosensory brainstem (collaboration with SoMS)
- Understanding the influence of retinal degeneration on the efficacy of retinal stimulation
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Dr David Tsai |
- Soft implantable neuroprobes
- CMOS ICs for large-scale neural interfacing
- Circuits and systems for real-time, closed-loop neurophysiology
- Neural stimulation
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Professor Laura Poole-Warren |
- Soft, flexible conductive polymers for neural interfaces
- Biomaterials for cell encapsulation and tissue engineering
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Professor Ewa Goldys |
- 听
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Professor John Whitelock |
- Gene editing of perlecan influences stem cell differentiatio
- Extracellular Matrix in Cancer Progression
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Dr Robert Nordon |
- Bioreactors for cell manufacture
- Microneedles for personalised medicine
- Designing human organoids from stem cells
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Dr Jelena Rnjak-Kovacina |
- Bioengineered vascularised cardiac patches
- Development of biomimetic materials
- Next-generation vascular grafts听
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Dr Kang Liang |
- Design and synthesis of advanced nanobionics
- A versatile nanodevice for early-stage disease and cancer diagnostics
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Dr Thanh Nho Do |
- Design and control of flexible surgical robots for gastrointestinal cancer treatment
- Soft wearable haptic devices for medical and robotic applications
- Shape programmable and multifunctional soft muscles for robotics and healthcares
- Advanced mechatronic tracheostomy system for respiratory disease treatment
- Multifunctional soft magnetic capsule robots
- Multifunctional soft sensors for wearable computing, electronics, robotics, and healthcare
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- Fundamental design and characterisation of new hydrogel systems for cell encapsulation and tissue engineering.
- Design and characterisation of hydrogel biomaterials for application in a range of biomedical applications
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Associate Professor Megan Lord |
- Bioengineered growth factor binding scaffolds for improved diabetic wound healing
- Understanding glycopolymer biomaterial interactions with blood vessels
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Dr Dorna Esrafilzadeh |
- Development of biomimetic conducting structures: toward the next generation implants
- Additive manufacturing of atomically thin two-dimensional materials for biomedical applications
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Dr Bart Bolsterlee |
- Deep learning methods for biomedical image analysis
- Quantitative shape analysis and modelling in muscle imaging
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Dr Hamid Alinejad-Rokny |
- Enhancing chromosome conformation capture resolution with deep convolutional neural network
- Deep convolutional neural network in the classification of Single-cell data
- Analysis of associations between genetic and transcriptomic variations in different populations
- Making new insight into gene expression profiling in cancers
- A novel integrative approach to build up transcriptional regulatory networks in neurodevelopmental disorders
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Dr Fatemeh Karimi |
- Development of next-generation of biomimetic materials and delivery platforms for tissue engineering applications including cardiovascular disease and wound healing
- Development of tissue bioadhesive materials
- Development of novel biomaterial platforms with improved blood-material interactions including vascular grafts and stents to treat coronary heart disease
- Development of delivery systems for the treatment of ocular disease
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Dr Matthew Brodie |
- Smart textiles and/or peripheral nerve stimulation to treat Parkinson's Disease and other chronic conditions
- Wearable device, gait, health and genetic data to predict and prevent disease
- Biomechanics, 3D gait analysis and musculoskeletal modelling using 3D motion capture and/or OpenSim
- Augmented reality systems for gait retraining, falls prevention and/or performance enhancement
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