个人简介
Professor Jane Burridge leads the Neurorehabilitation Research Group. Her research aims to understand the mechanisms of sensory-motor recovery following stroke. She and her Group use this better understanding to design and evaluate rehabilitation technologies that will improve recovery following central nervous system lesions such as stroke and spinal cord injury
‘Stroke rehabilitation is changing. Already most rehabilitation takes place in people's own homes and over the next few years technologies to support them will become commonplace’
Research into the mechanisms of sensory-motor recovery following stroke.
In collaboration with electronics, control, design and signal processing engineers, psychologists and industrial partners; development of technologies for measurement and therapy, including: rehabilitation robots; Functional Electrical Simulation (FES); and non-invasive cortical stimulation.
Research into the use and clinical effectiveness of technology in rehabilitation.
In collaboration with Health Psychologists; research into motivation adherence in neurological rehabilitation and barriers to adoption of new technologies.
Driving change in stroke rehabilitation towards intensive, evidence-based and cost-effective, therapy, using state-of-the-art technology.
研究领域
My work is cross-disciplinary working with electronics, control, design and signal processing engineers, psychologists and industrial partners. Together we develop technologies for measurement and therapy to optimise recovery.
Wearable sensors to monitor movement and muscle activity
Non-Invasive Brain stimulation to modulate cortical activity and promote neuroplasticity – key to recovery
Using the Internet to support home-based rehabilitation in stroke and traumatic brain injury
Functional Electrical Stimulation to promote recovery in spinal cord injury
Longitudinal studies of stroke to understand the mechanisms on recovery
Why is intensity of exercise important is stroke recovery, and how can we promote it?
Is there a link between regaining trunk control and upper limb function following stroke?
近期论文
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Fitness and mobility training in patients with Intensive Care Unit-acquired muscle weakness (FITonICU): study protocol for a randomised controlled trial - Mehrholz, Jan, Thomas, Simone, Burridge, Jane, Schmidt, André, Scheffler, Bettina, Schellin, Ralph, Rückriem, Stefan, Meißner, Daniel, Mehrholz, Katja, Sauter, Wolfgang, Bodechtel, Ulf and Elsner, Bernhard Published:2016Publication:TrialsVolume:17, (559)Page Range:1-11doi:10.1186/s13063-016-1687-4
Evaluation of upper extremity neurorehabilitation using technology: A European Delphi consensus study within the EU COST Action Network on Robotics for Neurorehabilitation - Hughes, A.M., Barbosa Boucas, S., Burridge, J.H., Alt-Murphy, M., Buurke, J., Feys, P., Klamroth-Marganska, V., Lamers, I., Prange-Lasonder, G., Timmermans, A. and Keller, T. Published:2016Publication:Journal of NeuroEngineering and RehabilitationPage Range:1-25
Recovery of sit-to-stand function in patients with intensive-care-unit-acquired muscle weakness: results from the general weakness syndrome therapy (gymnast) cohort study - Thomas, Simone, Burridge, Jane H., Pohl, Marcus, Oehmichen, Frank and Mehrholz, Jan Published:2016Publication:Journal of Rehabiliation MedicineVolume:48Page Range:1-7doi:10.2340/16501977-2135
Design of a smartphone application with integrated functional electrical stimulation (FES) treatment randomization and on-the-fly stimulus parameter adjustment for streamlining the clinical evaluation of FES protocols - Sweeney, D., Corley, G.J., Browne, P., Burridge, J.H., Quinlan, L.R. and O'Laighin, G. Published:2016Publication:Journal of Health & Medical InformaticsVolume:07, (02)Page Range:1-9doi:10.4172/2157-7420.1000220