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Brian Andrews
Also published under:B. J. Andrews, B. Andrews
Affiliation
Nuffield Department of Surgical Sciences, University of Oxford, Oxford, U.K.
School of Engineering, University of Warwick, Coventry, U.K.
School of Engineering, University of Warwick, Coventry, U.K.
Topic
Electrical Stimulation,Electrostatic Potential,Finite Element,Action Potential,Activation Function,Activation Threshold,Biophysical Model,Electrode Design,Electrode Size,Functional Electrical Stimulation,Inter-electrode Distance,Tissue Model,Accuracy Of Model,Action Potential Generation,Adaptive Mesh,Anatomical Model,Anodal Stimulation,Axonal Membrane,Best Practices,Central Nervous System,Clinical Protocol,Coarse Mesh,Computational Constraints,Computational Efficiency,Computational Model,Contact Resistance,Coordinate Frame,Current Flow,Current Intensity,Cylindrical Coordinates,Edge Of Electrode,Effect Of Different Parameters,Effect Of Distance,Electrode,Electrode Geometry,Electrodes For Electrical Stimulation,Extracellular Field,FEM Model,Femoral Nerve,Field In Order,Field Point,Fine Mesh,Finite Element Method,Finite Element Model,Fredholm Integral Equation,Frequency Response,Function Of Orientation,Geometric Model,Gray Matter,Greater Distance,
Biography
Brian J. Andrews was trained in cybernetics, control systems, and bioengineering at the Universities of Reading, Sheffield, and Strathclyde, U.K.
He has held academic and clinical positions in the U.K., USA, and Canada and is presently a professor of biomedical engineering at the National Spinal Injuries Centre, Stoke Mandeville Hospital, U.K., with academic appointments at Reading and Oxford Universities. His research interests focus on the application of bioengineering in spinal injuries.
He has held academic and clinical positions in the U.K., USA, and Canada and is presently a professor of biomedical engineering at the National Spinal Injuries Centre, Stoke Mandeville Hospital, U.K., with academic appointments at Reading and Oxford Universities. His research interests focus on the application of bioengineering in spinal injuries.