BEGIN:VCALENDAR VERSION:2.0 PRODID:-//128.220.36.25//NONSGML kigkonsult.se iCalcreator 2.26.9// CALSCALE:GREGORIAN METHOD:PUBLISH X-WR-CALNAME:JHU - Institute for Computational Medicine X-WR-CALDESC: X-FROM-URL:https://icm.jhu.edu X-WR-TIMEZONE:America/New_York BEGIN:VTIMEZONE TZID:America/New_York X-LIC-LOCATION:America/New_York BEGIN:STANDARD DTSTART:20231105T020000 TZOFFSETFROM:-0400 TZOFFSETTO:-0500 RDATE:20241103T020000 TZNAME:EST END:STANDARD BEGIN:DAYLIGHT DTSTART:20240310T020000 TZOFFSETFROM:-0500 TZOFFSETTO:-0400 RDATE:20250309T020000 TZNAME:EDT END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT UID:ai1ec-4984606@icm.jhu.edu DTSTAMP:20240328T091024Z CATEGORIES: CONTACT:Mishka\; 14105164116\; mcolomb4@jhu.edu\; https://tinyurl.com/3w5cc 3er DESCRIPTION:
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\n \nModeling electrical stimulation of neural elements can be perf ormed in two steps. The first step involves the calculation of the spatial distributions of the induced electric fields in cortical volume produced by stimulating electrodes. The second step is to model the response of neu ronal elements to an electric field using multicompartmental representatio ns of neurons. The response of an individual neuron to electrical stimulat ion is determined by several factors like neuronal morphology and the cort ical geometry that affects electric field distribution in the cortical vol ume. We use computational models of cortical neurons to investigate the ef fects of cortical and intracortical electrical stimulations in a cortical volume. Two high-resolution cortical network models will be presented that were developed to study 1) cortical responses to subdural cortical stimul ations and 2) neuronal recruitment by intracortical microstimulation for r estoring touch sensation.
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