Searched for: subject%3A%22Conductance%22
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van der Cruijsen, J. (author), Dooren, R.F. (author), Schouten, A.C. (author), Oostendorp, Thom F. (author), Frens, Maarten A. (author), Ribbers, G.M. (author), van der Helm, F.C.T. (author), Kwakkel, Gert (author), Selles, R.W. (author)
Transcranial direct current stimulation (tDCS) is a promising tool to improve and speed up motor rehabilitation after stroke, but inconsistent clinical effects refrain tDCS from clinical implementation. Therefore, this study aimed to assess the need for individualized tDCS configurations in stroke, considering interindividual variability in...
journal article 2022
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van der Cruijsen, J. (author), Piastra, Maria Carla (author), Selles, R.W. (author), Oostendorp, Thom F. (author)
The inconsistent response to transcranial electric stimulation in the stroke population is attributed to, among other factors, unknown effects of stroke lesion conductivity on stimulation strength at the targeted brain areas. Volume conduction models are promising tools to determine optimal stimulation settings. However, stroke lesion...
journal article 2021
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Piastra, Maria Carla (author), van der Cruijsen, J. (author), Piai, Vitória (author), Jeukens, Floor E.M. (author), Manoochehri, M. (author), Schouten, A.C. (author), Selles, R.W. (author), Oostendorp, Thom (author)
Objective. Large structural brain changes, such as chronic stroke lesions, alter the current pathways throughout the patients' head and therefore have to be taken into account when performing transcranial direct current stimulation simulations. Approach. We implement, test and distribute the first MATLAB pipeline that automatically generates...
journal article 2021