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Centre for Neurotechnology navigation

  • About the Centre
    • Research themes
    • Facilities
      • Three-photon microscope facility
      • TissueCyte1000 serial two photon tomography platform
      • Noninvasive Human Brain Signal Recording and Stimulation Facilities
        • 8-channel wireless EMG system
        • High density, high temporal resolution EEG and EMG
        • MRI-compatible EEG system
        • Multi-channel functional near-IR spectroscopy
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    • EPSRC Centre for Doctoral Training in Neurotechnology
      • Research themes
      • Projects
        • 3D Ultrasound Computed Tomography of the Brain
        • 3D-resolved optogenetic excitation using time-averaged speckle patterns
        • A clinically-viable brain-computer interface for inducing neuroplasticity for stroke rehabilitation
        • Automated Neonatal EEG Early Warning System based on novel signal analysis tools in the field and/or novel features
        • AutoTRIAGE: a clinical, computational and biomechanical investigation of the feasibility of using vehicular event data recorders for assessing head trauma severity in collisions
        • Axo-glial pathology in Multiple Sclerosis and its potential effects on neurotransmission
        • Biologically inspired computation for real-time motor control
        • Characterising receptive fields of astrocytes in auditory cortex
        • Closed-loop, personalized brain stimulation intervention for impairment of cognitive control
        • Computational technology towards future therapies for itchness via neuro-skin interactions
        • Conductive polymer platforms for the integrated in vitro investigation of neural networks
        • Designing novel imaging probes for targeting inflammatory lesions in brain disorders
        • Developing a novel type of neurostimulation to aid speech processing and rehabilitation from aphasia
        • Developing technology to enable macroscopic imaging of neuronal connectivity to quantify changes during health and disease
        • Development of a diagnostic battery for probing individual differences in network function
        • Development of a noninvasive and localised blood-brain barrier opening system for the treatment of Alzheimer’s Disease
        • Development of non-invasive deep brain stimulation technology
        • EEG assessment of spoken language processing in aphasia
        • Engineering fast, flexible, precise and parallel light sculpting for neural circuit elucidation
        • Engineering tactile signals to aid hearing in noisy background
        • Experimental and computational study of auditory receptive field properties and connectivity
        • High resolution imaging of multimodal nanoparticles for treatment of brain cancers
        • High-resolution mapping of age-related functional changes in cortical connectivity
        • High-throughput Visualization and Computational Consequences of Increased Synaptic Plasticity and Axon Regeneration in the Living Aged Brain
        • Improved methods for functional neuronal imaging with genetically encoded voltage indicators
        • Information theoretic analysis tools for studying the cellular assembly of memory
        • Integrated sensor suite to investigate neurological dysfunction in balance
        • Investigating Sports Related Concussion with a Wearable In-Ear System for Continuous Monitoring of Brain and Body Functions
        • Large scale population functional connectomic parcellation and individual variation
        • Large-Area Flexible Plastic Electronic Sensor for 2D Neural Recording
        • Learning to hear with plasticity across multiple timescales
        • Lesion-symptom mapping using motion-tracking: How neural trauma impacts motor function
        • Machine learning and human adaptability: towards a hierarchical model of executive cognition and brain function
        • Mathematical and computational analyses of plastic spiking recurrent networks
        • Measuring brain and body biological age to predict health outcomes and disease risk during ageing
        • Microdevices to investigate sleep and temperature regulation in mice
        • Monitoring muscle fatigue using novel wireless sensors
        • Neural implants for brain-robot interface
        • Neural network mechanisms of inhibitory and attentional control
        • Neurochemical CMOS array – bedside assay of ionic and inflammatory marker from the human brain
        • Neuronal Interfacing System for Human Pluripotent Stem Cell Interrogations using Materials-based Nanotechnologies
        • One-probe - a new device for non-penetrative monitoring of the injured brain
        • Peripheral nerve decoding algorithms for bioelectronic medicines
        • ReBooT: Restoring Brain Operation with Technology; Microelectronics to enable an open source instrument for exploring closed loop neural systems
        • Robot-assisted fMRI investigation of learning in newborn infants
        • Role of copper ions in the toxicity of α-synuclein in Parkinson’s disease
        • Sensory Motor Interface for Lower Extremity Robots (SMILER)
        • Spinal motor neurons control of redundant robotic system
        • Surface Electromyography for Brain-Machine Interface Applications
        • The bionic spinal cord bridge: Combined therapies for neural regeneration
        • Towards whole brain functional imaging in freely moving subjects
        • Ultrasound technology to deliver novel theranostic agents to malignant brain tumours
        • Virtual physiotherapy for assessment and training of arm function
        • Wearable Force-Feedback Interface supporting in vivo Brain-Robot Interface
        • Wearable wireless sensor arrays to detect the progression of amyotrophic lateral sclerosis (ALS)
        • Whole-brain dynamics and higher cognitive processing in disorders of consciousness
      • Selected outputs
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In this section

  • Centre for Neurotechnology
  • EPSRC Centre for Doctoral Training in Neurotechnology
  • MRes Neurotechnology
Centre for Neurotechnology
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  • Centre for Neurotechnology
  • Student training

Student training

Centre for Neurotechnology
  • EPSRC Centre for Doctoral Training in Neurotechnology
  • MRes Neurotechnology

The Centre for Neurotechnology has been instrumental in developing student training in Neurotechnology at Imperial.  Find out about our student programmes below.

Student training in Neurotechnology

students discuss around a laptop

MRes Neurotechnology

The Department of Bioengineering offers a one-year stand-alone MRes programme in Neurotechnology. The programme, which was originally developed from the training provided in first year of the CDT programme, prepares students for a research career in neurotechnology and gives them the knowledge and the skills to make their mark in this exciting field.

Find out more or apply

EPSRC CDT in Neurotechnology for Life & Health

Between 2014 and 2023, the Centre hosted the EPSRC Centre for Doctoral Training in Neurotechnology for Life and Health (the CDT). The CDT offered a unique Masters + PhD programme, training multidisciplinary researchers at the interface of neuroscience and engineering to address the challenge of brain-related illnesses. Although the CDT no longer admits students, the first year MRes training element of the programme is still offered as the one-year MRes in Neurotechnology.

Find out about the CDT's students, projects and achievements

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