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University of Liveprool

Sudipta Chowdhury

Working in:

  • 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

Current student – I am still exploring my interests in health and med tech

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University of Southampton

John McBeth

Working in:

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

Chronic pain, Multimorbidity, Epidemiology, Health Data Science, Digital health

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University of Bristol | Bristol

Evgeniya Anisimova

Working in:

  • Bioelectronics and sensor systems
  • Other

https://www.dalmaijer.org/

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University of Bath | Bath

Harriet Downing

Working in:

  • 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
  • Virtual reality
  • Data science and biomarkers

The Bath Institute for the Augmented Human is led by Prof Damien Coyle and Dr Ben Metcalfe, and brings together 60+ academics at Bath with expertise in neurotech, wearables/sensors, robotics, VR/AR, Virtual Digital Assistants, assistive communications devices, haptics, implantables, brain-computer interfaces. The Institute’s focus is on the development of technology to improve human physical and cognitive performance, in a safe and ethical manner, for societal benefit and ensuring no harm is done in the field.

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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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