southampton

About

David Simpson is a biomedical engineer and Professor of Biomedical Signal Processing. His research and teaching focus on the application of engineering techniques in a medical context. He aims to develop new diagnostic and patient monitoring methods using computational data analysis (signal processing) techniques for the benefit of patients and other users. His current main areas of interest are in the control of blood flow to the brain and the electrical response (in EEG signals) of the brain to auditory stimulation. This work is based on collaborations with a range of clinical partners. In his teaching he aims to enable future engineers to solve real-world problems in medical applications of engineering, and beyond.

Research

Research groups

Member of:

Research interests

His research interests are in biomedical signal processing with applications in neurophysiology and cardio-vascular and cerebro-vascular control. Specific topics are:
Blood flow control in the brain (how does the brain regulate is own blood supply and how to detect impairment of this function).
Auditory evoked potentials (methods to detect the small electrical responses of the brain to auditory stimulation for the assessment of various hearing disorders).
Effort in listening (measuring physiological and behavioural responses when listening in challenging conditions and using these to quantify ‘effort’ and then use this to improve sound quality and reduce effort).

Current research

Current research in auditory evoked potentials is being developed in collaboration with the Hearing and Balance Centre in ISVR (Faculty of Engineering and Physical Sciences) as well as industrial collaborators. We aim to find more efficient ways to carry out evoked potential recordings by increasing accuracy and speeding up the tests, using a range of signal analysis and statistical methods. Improved diagnosis of hearing loss, especially in complex cases, and improved hearing aid fitting is the goal of this work.

In the analysis of brain blood flow control (cerebral autoregulation), we are studying the relationship between blood pressure fluctuations and non-invasive blood flow measurements (using transcranial Doppler ultrasound). By quantifying the relationship between these two variables we are able to identify active blood flow control function, or its impairment, for example after a stroke and we hope contribute to improved care for these patients.

Anaesthesia and awareness

The Hearing Brain

2 ears are better than 1

Improving the acquisition of Auditory Evoked Potentials for clinical diagnosis

New methods for assessing the control of blood flow in the brain

Objective measures of hearing aid benefit

Quantitative measurements of impairment and how they relate to activity in the upper limb of the older adult post-stroke

Modelling of the neuronal responses of identified motor neurons across animals

Independent component analysis in the automated detection of evoked potentials from multichannel recording

What are hearing aids up to?

Muscle models with applications

Diversity in blood flow control to the brain

Human response to force and hand-arm vibration

Blood flow control in the brain

Research projects

Completed projects

New methods for model-based assessment of cardiovascular control

Researchers:

Professor David Simpson

Sponsor: Royal Society

New methods for assessing the control of blood flow in the brain

Researchers:

Professor David Simpson

Sponsor: EPSRC

Simpson - Diversity in blood flow control to the brain: moving from individualised modelling towards personalised treatment of the injured brain

Researchers:

Professor David Simpson

Sponsor: EPSRC

D Simpson - EPSRC GCRF

Researchers:

Professor David Simpson

Sponsor: EPSRC

D Simpson - Oticon PhD Studentship

Researchers:

Professor David Simpson

Sponsor: The Oticon Foundation

Improving specificity, sensitivity and test time for objective Auditory Evoked Response detection - Chesnaye/Simpson

Researchers:

Professor David Simpson

Professor Steve Bell

Sponsor: The Oticon Foundation

S Bell 2015 - Personalised fitting & evaluation of hearing aids with EEG responses

Researchers:

Professor Steve Bell

Professor David Simpson ,

Doctor Ben Lineton

Sponsor: EPSRC

Dr Phil Newland BBSRC Multimodal Computation in Neural Networks

Researchers:

Emeritus Professor Philip Newland

Professor David Simpson

Sponsor: Biotechnology & Biological Sciences Research Council

Bayesian Analysis of Evoked Potentials

Researchers:

Professor Steve Bell

Professor David Simpson

Improving clinical practice in the early care pathway for deaf babies: Performance characteristics, clinical feasibility and acceptability of cortical auditory evoked potentials when assessing audibility of speech

Researchers:

Professor Steve Bell

Professor David Simpson

Publications

180 publications

Page 1 of 18

Audiogram estimation performance using Auditory Evoked Potentials and Gaussian Processes

Michael Alexander Chesnaye, David Martin Simpson, Josef Schlittenlacher, Søren Laugesen & Steve Bell, 2024, Ear and Hearing

DOI: 10.1097/AUD.0000000000001570

Type: article

Gaussian Processes for hearing threshold estimation using Auditory Brainstem Responses

Michael A. Chesnaye, D.M. Simpson, J. Schlittenlacher & S.L. Bell, 2023, IEEE Transactions on Biomedical Engineering, 1-17

DOI: 10.1109/TBME.2023.3318729

Type: article

Aided cortical auditory evoked potentials in infants with frequency-specific synthetic speech stimuli: sensitivity, repeatability, and feasibility

Anisa S. Visram, Michael A. Stone, Suzanne C. Purdy, Steven L. Bell, Iain A. Bruce, Jo Brooks, Michael Chesnaye, Harvey Dillon, James M. Harte, Caroline L. Hudson, Søren Laugesen, Rhiannon E. Morgan, Martin O'Driscoll, Stephen A. Roberts, Amber J. Roughley, David Simpson & Kevin J. Munro, 2023, Ear and Hearing, 44(5), 1157-1172

DOI: 10.1097/AUD.0000000000001352

Type: article

Continuous speech with pauses inserted between words increases cortical tracking of speech envelope

Suwijak Deoisres, Yuhan Lu, Frederique J. Vanheusden, Steven L. Bell & David M. Simpson, 2023, PLoS ONE, 18(7 July)

DOI: 10.1371/journal.pone.0289288

Type: article

Optimising weighted averaging for auditory brainstem response detection

Richard Michael McKearney, Steven Bell, Michael Chesnaye & David Simpson, 2023, Biomedical Signal Processing and Control, 83

DOI: 10.1016/j.bspc.2023.104676

Type: article

Modified T² statistics for improved detection of aided cortical auditory evoked potentials in hearing-impaired infants

Michael Chesnaye, Steven Bell, J.M. Harte, Lisbeth Simonsen, A. Visram, M.A. Stone, K.J. Munro & David Simpson, 2023, Trends in Hearing, 27

DOI: 10.1177/23312165231154035

Type: article

SARS-CoV-2 lineage dynamics in England from September to November 2021

Oliver Eales, Andrew J. Page, Leonardo de Oliveira Martins, Haowei Wang, Barbara Bodinier, David Haw, Jakob Jonnerby, Christina Atchison, Samuel C. Robson, Thomas R. Connor, Nicholas J. Loman, Tanya Golubchik, Rocio T.Martinez Nunez, David Bonsall, Andrew Rambaut, Luke B. Snell, Rich Livett, Catherine Ludden, Sally Corden, Eleni Nastouli, Gaia Nebbia, Ian Johnston, Katrina Lythgoe, M. Estee Torok, Ian G. Goodfellow, Jacqui A. Prieto, Kordo Saeed, David K. Jackson, Catherine Houlihan, Dan Frampton, William L. Hamilton, Adam A. Witney, James G. Shepherd, Matthew D. Parker, David A. Simpson, Sarah L. Buchan, Christopher W. Holmes, Christopher R. Jones, Christopher Moore, Thomas Williams, Thomas Whalley, Sophie Jones, Sarah Taylor, Charlotte A. Williams, Louise Smith, David G. Partridge, Jamie Young, Clare Pearson, David J. Baker & Richard Gregory, 2022, BMC Infectious Diseases, 22(1)

DOI: 10.1186/s12879-022-07628-4

Type: article

Genomic epidemiology of SARS-CoV-2 in a university outbreak setting and implications for public health planning

Sema Nickbakhsh, Joseph Hughes, Nicolaos Christofidis, Emily Griffiths, Sharif Shaaban, Jessica Enright, Katherine Smollett, Kyriaki Nomikou, Natasha Palmalux, Lily Tong, Stephen Carmichael, Vattipally B. Sreenu, Richard Orton, Emily J. Goldstein, Rachael M. Tomb, Samuel C. Robson, Thomas R. Connor, Nicholas J. Loman, Tanya Golubchik, Rocio T.Martinez Nunez, David Bonsall, Andrew Rambaut, Luke B. Snell, Rich Livett, Catherine Ludden, Sally Corden, Eleni Nastouli, Gaia Nebbia, Ian Johnston, Katrina Lythgoe, Jacqui A. Prieto, Kordo Saeed, James G. Shepherd, Matthew D. Parker, David A. Simpson, Sarah L. Buchan, Christopher W. Holmes, Christopher R. Jones, Christopher Moore, Thomas Williams, Sophie Jones, Sarah Taylor, Charlotte A. Williams, Louise Smith, David G. Partridge, Jamie Young, Clare Pearson, David J. Baker & Richard Gregory, 2022, Scientific Reports, 12(1), 11735

DOI: 10.1038/s41598-022-15661-1

Type: article

The importance of self-efficacy and negative affect for neurofeedback success for central neuropathic pain after a spinal cord injury

Krithika Anil, Sara Demain, Jane Burridge, David Simpson, Julian Taylor, Imogen Cotter & Aleksandra Vuckovic, 2022, Scientific Reports, 12(1)

DOI: 10.1038/s41598-022-15213-7

Type: article

Detecting cortical responses to continuous running speech using EEG data from only one channel

Ghadah, Salem Aljarboa, Steven Bell & David Simpson, 2022, International Journal of Audiology

DOI: 10.1080/14992027.2022.2035832

Type: article

Teaching

David Simpson leads the modules ‘Introduction to Biomedical Engineering’ and ‘Biomedical Applications of Signal and Image Processing’ (4^th year MEng and MSc) and also teaches on the modules ‘Audio and Signal Processing’ (2^nd year MEng), ‘Electrical and Electronics Systems’ (1^st year MEng) and ‘Engineering Replacement Body Parts’ (across faculties). He enjoys teaching signal processing to non-specialists, including those without much background in engineering. He is admissions tutor for the MSc in Biomedical Engineering and Programme Lead for the MEng in Medical Engineering’ starting in 2023.

External roles and responsibilities

Name: Brazilian Journal of Biomedical Engineering (Journal)

Role: Member of editorial board

Year: 2011 - 2013

Name: Biomedical Signal Processing and Control (Journal)

Role: Editor

Year: 2010 - 2013

Name: Medical Engineering and Physics (Journal)

Role: Editor

Year: 2013

Name: European Alliance of Medical and Biological Engineering and Science (External organisation)

Role: Chair

Year: 2011 - 2013

Name: Tutorial session at European Medical Physics and Engineering Congress

Role: Invited speaker

Year: 2011

Name: 2nd international Carnet Conference

Role: Invited speaker

Year: 2012

Name: Invited Lecture at The Hong Kong Polytechnic University

Role: Invited speaker

Year: 2011

Name: Invited lecture at the Shenzhen Institute of Advanced Technology

Role: Invited speaker

Year: 2011

Name: Engineering and Physical Sciences Research Council (External organisation)

Role: Member

Year: 2008 - 2012

Name: ICUK (External organisation)

Role: Member

Year: 2008 - 2010

Biography

After schooling in Austria, David Simpson graduated in Biomedical Electronics from the University of Salford (1981), and then worked as a mathematics and physics teacher in Nigeria with VSO. He obtained his PhD in Electrical Engineering from Imperial College of Science, Technology and Medicine, University of London in 1988, initiating his research interests in signal and image processing with applications in medicine and biology. From 1989 to 1998 he was a lecturer in the Biomedical Engineering Program at the Federal University of Rio de Janeiro (Brazil). He then became a research fellow in the Medical Physics Department of Leicester Royal Infirmary before moving to the University of Southampton (ISVR) in 2001.