Prof Duncan Turner


NameProf Duncan Turner
Job titleProfessor
Email addressd.l.turner@uel.ac.uk
Research instituteHealth, Sport & Bioscience

Research outputs

Robot assisted training for the upper limb after stroke (RATULS): a multicentre randomised controlled trial

Rodgers, H., Bosomworth, H., Krebs, H. I., van Wijck, F., Howel, D., Wilson, N., Aird, L., Alvarado, N., Andole, S., Cohen, D. L., Dawson, J., Fernandez-Garcia, C., Finch, T., Ford, G. A., Francis, R., Hogg, S., Hughes, N., Price, C. I., Ternent, L., Turner, D., Vale, L., Wilkes, S. and Shaw, L. 2019. Robot assisted training for the upper limb after stroke (RATULS): a multicentre randomised controlled trial. Lancet. 394 (10192), pp. 51-62.

Dynamics of brain connectivity after stroke

Desowska, Adela and Turner, D. 2019. Dynamics of brain connectivity after stroke. Reviews in the Neurosciences. 30 (6), p. 605–623.

The BOLD response in primary motor cortex and supplementary motor area during kinesthetic motor imagery based graded fMRI neurofeedback

Mehler, David M.A., Williams, Angharad N., Krause, Florian, Lührs, Michael, Wise, Richard G., Turner, D., Linden, David E.J. and Whittaker, Joseph R. 2018. The BOLD response in primary motor cortex and supplementary motor area during kinesthetic motor imagery based graded fMRI neurofeedback. NeuroImage. 184, pp. 36-44.

Resting-state functional connectivity predicts the ability to adapt to robot-mediated force fields

Faiman, Irene, Pizzamiglio, S. and Turner, D. 2018. Resting-state functional connectivity predicts the ability to adapt to robot-mediated force fields. NeuroImage. 174, pp. 494-503.

Neural Predictors of Gait Stability When Walking Freely in the Real-World.

Pizzamiglio, S., Abdalla, H., Naeem, U. and Turner, D. 2018. Neural Predictors of Gait Stability When Walking Freely in the Real-World. Journal of NeuroEngineering and Rehabilitation. 15 (11).

Advanced technology for gait rehabilitation --- An overview

Mikolajczyk, Tadeusz, Ciobanu, Ileana, Badea, Joana, Iliescu, Alina, Pizzamiglio, S., Schauer, Thomas, See, Thomas, Seicu, Lucien, Turner, D. and Berteanu, Mihai 2018. Advanced technology for gait rehabilitation --- An overview. Advances in Mechanical Engineering. 10 (7), pp. 1-19.

A Mutlimodal Approach to Measure the Levels Distraction of Pedestrians using Mobile Sensing

Pizzamiglio, S., Naeem, U., ur Réhman, Shafiq, Sharif, M., Abdalla, H. and Turner, D. 2017. A Mutlimodal Approach to Measure the Levels Distraction of Pedestrians using Mobile Sensing. Procedia Computer Science. 113, pp. 89-96.

Neural correlates of single- and dual-task walking in the real world

Pizzamiglio, Sara, Naeem, U., Abdalla, H. and Turner, D. 2017. Neural correlates of single- and dual-task walking in the real world. Frontiers in Human Neuroscience. 11, p. Art 460.

Robot Assisted Training for the Upper Limb after Stroke (RATULS): study protocol for a randomised controlled trial

Rodgers, Helen, Shaw, Lisa, Bosomworth, Helen, Aird, Lydia, Alvarado, Natasha, Andole, Sreeman, Cohen, David L., Dawson, Jesse, Eyre, Janet, Finch, Tracy, Ford, Gary A., Hislop, Jennifer, Hogg, Steven, Howel, Denise, Hughes, Niall, Krebs, Hermano Igo, Price, Christopher, Rochester, Lynn, Stamp, Elaine, Ternent, Laura, Turner, D., Vale, Luke, Warburton, Elizabeth, van Wijck, Frederike and Wilkes, Scott 2017. Robot Assisted Training for the Upper Limb after Stroke (RATULS): study protocol for a randomised controlled trial. Trials. 18, p. Art. 340.

Muscle co-contraction patterns in robot-mediated force field learning to guide specific muscle group training

Pizzamiglio, Sara, Desowska, Adela, Shojaii, Pegah, Taga, Myriam and Turner, D. 2017. Muscle co-contraction patterns in robot-mediated force field learning to guide specific muscle group training. NeuroRehabilitation. 41 (1), pp. 17-29.

High-Frequency Intermuscular Coherence between Arm Muscles during Robot-Mediated Motor Adaptation

Pizzamiglio, Sara, De Lillo, Martina, Naeem, U., Abdalla, Hassan and Turner, D. 2017. High-Frequency Intermuscular Coherence between Arm Muscles during Robot-Mediated Motor Adaptation. Frontiers in Physiology. 7 (668), pp. 1-14.

Real-time functional magnetic resonance imaging neurofeedback in motor neurorehabilitation

Linden, David E.J. and Turner, D. 2016. Real-time functional magnetic resonance imaging neurofeedback in motor neurorehabilitation. Current Opinion in Neurology. 29 (4), pp. 412-418.

Functional Magnetic Resonance Imaging Neurofeedback-guided Motor Imagery Training and Motor Training for Parkinson’s Disease: Randomized Trial

Subramanian, Leena, Busse-Morris, Monica, Brosnan, Meadhbh, Turner, D., Morris, Huw R. and Linden, David E. J. 2016. Functional Magnetic Resonance Imaging Neurofeedback-guided Motor Imagery Training and Motor Training for Parkinson’s Disease: Randomized Trial. Frontiers in Behavioural Neuroscience. 10, p. Art.111.

Spinal plasticity in robot-mediated therapy for the lower limbs

Stevenson, Andrew JT, Mrachacz-Kersting, Natalie, van Asseldonk, Edwin, Turner, D. and Spaich, Erika G. 2015. Spinal plasticity in robot-mediated therapy for the lower limbs. Journal of NeuroEngineering and Rehabilitation. 12 (1).

Neurophysiology of Robot-Mediated Training and Therapy: A Perspective for Future Use in Clinical Populations

Turner, D., Ramos-Murguialday, Ander, Birbaumer, Niels, Hoffmann, Ulrich and Luft, Andreas 2013. Neurophysiology of Robot-Mediated Training and Therapy: A Perspective for Future Use in Clinical Populations. Frontiers in Neurology. 4 (184).

Neurophysiology of Robot-Mediated Training and Therapy: A Perspective for Future Use in Clinical Populations

Turner, D., Ramos-Murguialday, Ander, Birbaumer, Niels, Hoffmann, Ulrich and Luft, Andreas 2013. Neurophysiology of Robot-Mediated Training and Therapy: A Perspective for Future Use in Clinical Populations. Frontiers in Neurology. 4 (184).

Modulation of internal model formation during force field-induced motor learning by anodal transcranial direct current stimulation of primary motor cortex

Hunter, Timothy, Sacco, Paul, Nitsche, Michael A. and Turner, D. 2009. Modulation of internal model formation during force field-induced motor learning by anodal transcranial direct current stimulation of primary motor cortex. Journal of Physiology. 587 (12).
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