Members
Stuart Black
Working in:
- Bioelectronics and sensor systems
- Neurofeedback
We offer clinical neurofeedback services from six clinics in the UK and home-based internationally. We are protocol-neutral and will adopt protocols as and when they are identified to provide efficacy. We have researched a platform architecture for next-generation neurofeedback, and multiple participant neurofeedback aka hyperscanning.
Dr. Arshi Mehta
Working in:
- Bioelectronics and sensor systems
- Biomechanics
- Digital Health
- Neurofeedback
- Virtual reality
- Other
Physiotherapy
Dr.V.Selva Ganapathy
Working in:
- Bioelectronics and sensor systems
- Non-invasive brain stimulation
- Neurofeedback
- Virtual reality
- Other
I work at the geriatric and pediatric neurology units, the child guidance clinic, the chronic pain clinic and the balance and gait lab. A few of the tests I conduct are clinical tests of sensory integration and balance (CTSIB), postural stability tests and motor control tests using dynamic posturography (Biodex Balance Master, USA). I conduct kinematic gait analyses using GaitRite, treadmill gait analysis. The training includes feedback based balance and gait training. Patients with Parkinson disease, PSP, HD, SCA, dementias, strokes, and neuromuscular disorders are included.
My research Interests :
Chronic low back pain management through Pain neuroscience education. and Neuro rehabilitation for stroke, parkinson diseases to improve balance and mobility outcome. Also,family empowered care to improve functional outcome in cerebral palsy .
Mattan Pelah
Working in:
- Computational and dynamical brain models
- Bioelectronics and sensor systems
- Biomechanics
- Non-invasive brain stimulation
- Invasive brain or spinal stimulation
- Virtual reality
- Data science and biomarkers
I work in the Pain and Averse Learning lab under Prof. Ben Seymour on computational models for the neurological mechanisms of tonic pain, and modulating these mechanisms via neurostimulation (primarily non-invasive, eg. TUS and TMS) for clinical use.
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
John McBeth
Working in:
- Bioelectronics and sensor systems
- Digital Health
- Data science and biomarkers
Chronic pain, Multimorbidity, Epidemiology, Health Data Science, Digital health
Evgeniya Anisimova
Working in:
- Bioelectronics and sensor systems
- Other
https://www.dalmaijer.org/
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.
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.