ANALYZING EVENT-RELATED POTENTIALS

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Adavanced Lifespan Neurocognitive Development: EEG signal processing for lifespan research Dr. Manosusos Klados Liesa Ilg ANALYZING EVENT-RELATED POTENTIALS Chair for Lifespan Developmental Neuroscience

What are Event-Related potentials (good for)? Stimuli Response 1 2 3 Continous measures of neural activity 4 1 reseacrhgate.net /examples-of-emotional-expressions 2 http://www.psytoolkit.org/lessons/src.html 3 http://www.drjost.ch/faszination-gehirn.html 4 https://de.wikipedia.org/wiki/ereigniskorrelierte_potentiale Liesa Ilg Event-Related-Potentials 31.05.17 2

How can we obtain ERPs + Trigger Darbietungsrechner Aufzeichnungsrechner Verstärker EEG Liesa Ilg Event-Related-Potentials 31.05.17 3

How can we obtain ERPs Spontaneous acitivity + Event-related activity FPz Liesa Ilg Event-Related-Potentials 31.05.17 4

ERP components - characteristics - Direction (positive/negative) Amplitude Latency Topography 1 2 1 Luck, 2005: An Introduction to the Event-Related Potential Technique 2 Kasper et al., 2013, J. Cognitive Neurosci. Liesa Ilg Event-Related-Potentials 31.05.17 5

What can we investigate by analyzing ERP components? How are the components manipulated by different experimental conditions functional significance Which mechanism is affected by experimental manipulations Which cognitive processes are impaired in specific study samples, e.g. with symptoms of psychiatric disorders Development of cognitive processes across the lifespan: during maturation and aging Use as biomarkers in medical applications Exp.: Mismatch Negativity (MMN) = measure of glutamate binding to NMDA receptor influence of treatment on NMDA recceptor responsiveness Liesa Ilg Event-Related-Potentials 31.05.17 6

Limitations Superposition problem: Waveforms represent sum of multiple components Solutions: Principle component analysis (PCA) Independent component analysis (ICA) Fourier Analysis Inverse problem: Underlying neural generator Solutions: LORETA MUSIC LAURA Beamforming Brain Electric Source Analysis(BESA) 1 http://music.cs.northwestern.edu/includes/projects/separation/separation_1.jpg Liesa Ilg Event-Related-Potentials 31.05.17 7

Limitations Superposition problem: Waveforms represent sum of multiple components Inverse problem: Underlying neural generator Some mental processes without ERP signature Signal-to-noise ratio Many trials are needed Difficult to meassure brain activity extending a few seconds Liesa Ilg Event-Related-Potentials 31.05.17 8

Common ERP components - an overview - Visual sensory potentials 1 C1 P1 N1 N170 P2 Peak: 80 100 ms Posterior Primary visual cortex Peak: 100 130 ms Sensitive to stimulus parameters Modulated by selective attention Auditory sensory potentials ABR MLRs: Midlatency responses Anterior (100-150 ms) Posterior (150-200 ms) Spatial attention Discriminative processing LLR: Long-latency responses Vertex positivity potential Peak: 150-200 ms Central Face perception Anterior/central Target features Frequency of stimuli Auditory brainstem response Automatic Assessment of integrity of auditory pathways 10-50 ms Medial geniculate nucleus + primary auditory cortex P50/P1 Sensory gated N100/N1 fronto-central: 75 ms Vertex: 100 ms Lateral: 150 ms Sensitive to attention P160/P2 Sensitive to stimulus properties Modulated by selective attention 1 Luck, 2005: An Introduction to the Event-Related Potential Technique 2 Takeya & Kasai, 2015; J. of Vivion 3 Dawson et al., 2005; Development and Psychopathology 4 http://www.firstyears.org/c3/c3.htm Liesa Ilg Event-Related-Potentials 31.05.17 9

Common ERP components - an overview - N2 family N2a N2b N2c 100-200 ms Mismatch negativity Pre-attentive Fronto-central Short-memory comparison Anterior Task-relevant oddballs Monitoring stimulusresponse conflicts mpfc; ACC Posterior Task-relevant oddballs Stimulus categorization N2pc: focusing of attention P3 family: Context updating Resource allocation Stimulus categorization P3a P3b frontal parietal 1 1 Crottaz-Herbette & Menon, 2006; J. Cognitive Neurosci. 2 Wetzel, Widmann & Schröger, 2009; Psychophysiology Liesa Ilg Event-Related-Potentials 31.05.17 10

Common ERP components - an overview - Language-related ERPs Long-term memory ERPs Emotion-related ERPs Error-related ERPs N400: Violation in semantic expectancies P600: Syntactic violation Remembered minusforgotten difference Subsequent memory effect Midfrontal old-new effect (FC400) Left-parietal old-new effect N2: Recruitment of additional resources P3: Intrinsic task relevance of emotional stimuli ERN Detection of error/conflict Pe Error recognition Consciously updating task goals 1 Swaab et al., 2011: Language Related ERP components 2 Mao et al., 2015; Biol. Psychiatry 3 Larson, Steffen & Primosch, 2013; Front. Hum. Neurosci. Liesa Ilg Event-Related-Potentials 31.05.17 11

Common ERP components - an overview - CNV Broad negative deflection between warning of a target and target onset stimulus anticipation Readiness Potential responses without eliciting stimuli ~ 1 s before actual response Steady-State ERPs presenting sequence of stimuli at fast regular rate Transient response 1 2 1 Hämmerer et al., 2012; Neuropsychologia 2 https://tulliodesantis.net/2007/07/ 3 Norcia et al., 2015; J. of Vision Liesa Ilg Event-Related-Potentials 31.05.17 12

Cued Continuous Performance Task Liesa Ilg Event-Related-Potentials 31.05.17 13

Cued Continuous Performance Task: conflict monitoring, cue utilization, response anticipation, and response suppression N2 conflict monitoring P3 response inhibition 1 1 Hämmerer et al., 2012; Neuropsychologia Liesa Ilg Event-Related-Potentials 31.05.17 14

Cued Continuous Performance Task: conflict monitoring, cue utilization, response anticipation, and response suppression CNV motor preparation stimulus expectation P3 use of cue information 1 1 Hämmerer et al., 2012; Neuropsychologia Liesa Ilg Event-Related-Potentials 31.05.17 15

Procedure Liesa Ilg Event-Related-Potentials 31.05.17 16

Cued Continuous Performance Task: stimulus event types Go 1 Prime-bases NoGo 2 Non-Cue 3 1 12 13 2 22 23 3 32 33 4 42 43 5 52 53 6 62 63 7 72 73 8 82 83 9 92 93 10 102 103 Cue 4 Resp-based NoGo 5 11 114 12 121 125 Liesa Ilg Event-Related-Potentials 31.05.17 17

Cued Continuous Performance Task: response event types (22) Go 1 Prime-bases NoGo 2 Non-Cue 3 1 222 223 2 222 223 3 222 223 4 222 223 5 222 223 6 222 223 7 222 223 8 222 223 9 222 223 10 222 223 Cue 4 Resp-based NoGo 5 11 224 12 221 225 Liesa Ilg Event-Related-Potentials 31.05.17 18

Liesa Ilg Event-Related-Potentials 31.05.17 19

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