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Oxford University

Victoria Marks

Working in:

  • Bioelectronics and sensor systems
  • Invasive brain or spinal stimulation
  • Neurofeedback
  • Invasive recording systems
  • Data science and biomarkers

I work in neurostimulation device development. Disease modalities I’ve worked with include epilepsy, chronic pain, MSA, and TBI. Current work is looking for a biomarker of pain.

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Indian Institute of Technology Kanpur
Overseas

Kshitij Kumar

Working in:

  • Animal models
  • Computational and dynamical brain models
  • Bioelectronics and sensor systems
  • Non-invasive brain stimulation
  • Invasive brain or spinal stimulation
  • Invasive recording systems
  • Data science and biomarkers

I am engaged in the study of the intricate relationship between affective disorders and their associated comorbidities, particularly chronic pain. To delve into this complex interplay, I employ a multi-faceted approach. For human subjects, I utilize behavioral tasks and non-invasive imaging methods to unravel the neural and behavioral foundations of these conditions. When working with animal models, I employ in-house developed, customizable polyimide-based flexible electrodes. These specialized tools enable me to gain deeper insights into the neural underpinnings of these disorders.

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N-CODE (University of Birmingham) | Birmingham

Dr Rebecca Ward

Working in:

  • Computational and dynamical brain models
  • Bioelectronics and sensor systems
  • Prosthetics and robotics
  • Biomechanics
  • Digital Health
  • Non-invasive brain stimulation
  • Invasive brain or spinal stimulation
  • Peripheral stimulation
  • Neurofeedback
  • Invasive recording systems
  • Virtual reality
  • Data science and biomarkers

Network manager for the N-CODE network+ which aims to develop technologies that enable diagnosis and management of neurological conditions in the community.

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Msc Brain and Behaviour student LJMU | Liverpool

Nathanael Hill

Working in:

  • Bioelectronics and sensor systems
  • Non-invasive brain stimulation
  • Invasive brain or spinal stimulation
  • Peripheral stimulation
  • Neurofeedback

I am currently reaearching the potential of interrupting the neuro feedback model and implementing peripheral stimulation as a possible cure for chronic pain. By exploring this innovative approach, I aim to understand how it can be utilised to provide relief and improve the overall quality of life for those suffering from persistent pain. With a focus on interrupting neural pathways and stimulating peripheral nerves, this research has the potential to offer alternative solutions for individuals living with chronic pain.

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The Alan Turing Institute

Abhimanyu Roy

Working in:

  • Animal models
  • Computational and dynamical brain models
  • Bioelectronics and sensor systems
  • Prosthetics and robotics
  • Biomechanics
  • Pumps and infusion devices
  • Digital Health
  • Non-invasive brain stimulation
  • Invasive brain or spinal stimulation
  • Peripheral stimulation
  • Neurofeedback
  • Invasive recording systems
  • Virtual reality
  • Data science and biomarkers
  • Optogenetic systems
  • Other

I am a Researcher. I have excellent skills in computer science, biomedical engineering, neuroscience, data science, cancer cell biology, and bioinformatics. Currently, I am working on the CASP15 project, In this project I am working on protein structure prediction with the help of a machine-learning algorithm and also I am working on a neuroscience project at FENS. Previously I have done many thesis and project work in terms of neuroscience with the help of natural language processing, and deep learning. I am also doing my research in cancer biology in an open lab at Cancer Research UK.
My Area of Interest:- Clinical Research in Medicine, Neuroscience, Cell Biology, Cancer Biology, Computer Science and related fields, etc.

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University of Manchester

Mahdi Saleh

Working in:

  • Bioelectronics and sensor systems
  • Digital Health
  • Non-invasive brain stimulation
  • Data science and biomarkers

My research interests are in the domain of instrumentation and measurement with a special focus on developing embedded processing and communication systems for bioelectronic sensors for monitoring and analyzing biomarkers. My current work is focused on developing a wearable EEG monitoring device.

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Great Ormond Street Hospital for Children NHS Foundation Trust | London

Bing Wang

Working in:

  • Computational and dynamical brain models
  • Bioelectronics and sensor systems
  • Prosthetics and robotics
  • Pumps and infusion devices
  • Digital Health
  • Virtual reality
  • Data science and biomarkers

N/A

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Universtiy College London | London

Diego Vitali

Working in:

  • Bioelectronics and sensor systems
  • Biomechanics
  • Digital Health
  • Data science and biomarkers

I work with prof. Amanda Williams (UCL Health Psychology) and prof. Nadia Berthouze  at (UCL engineering)  to design experiments using Sensors in Ecological settings. With a focus on chronic pain our general aim is to use technology to support the study of pain in “the wild” by looking at behavioural patterns, psychological and emotional states, social participation, activity and movement.

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Oxford University Hospitals

Sergiu Lucec

Working in:

  • Computational and dynamical brain models
  • Bioelectronics and sensor systems
  • Prosthetics and robotics
  • Biomechanics
  • Digital Health
  • Non-invasive brain stimulation
  • Invasive brain or spinal stimulation
  • Peripheral stimulation
  • Neurofeedback
  • Virtual reality
  • Data science and biomarkers

Electronic patient records, with an additional focus on Laboratory results and communication.

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