<p>Latency values are in ms. Amplitude values are in µV. Minimum and maximum values are underlined.</p
<p>The mean (with SD) peak latency (ms) of each component in response to different affective picture...
Table of tcMEP latencies and amplitudes on the forelimb and on the hind limb as well as latencies an...
<p>The negative-going deflection following a stop error is the ERN. Note the increased amplitude of ...
<p>Filter band-pass 0.01–30 Hz. EEG averaging from 500 ms pre-stimulus to 2000 ms post-stimulus. (a)...
<p>Bar graphs of mean ERP amplitudes at electrode sites Fz and Cz (0–100 ms after response) for the ...
The a) mean N1 peak latency and b) mean N1 peak amplitude from the ERPs at Cz for the opposing (Opp)...
(Note that data of able-bodied individuals and TTA are retrieved from Cz, and data of TFA mainly fro...
<p><b>A</b>: The mean amplitudes' peak for occipito-perietal P1, N1, P2 and LPP, (lower) and frontal...
The a) mean P2 peak latency and b) mean P2 peak amplitude from the ERPs at Cz for the opposing (Opp)...
<p>For each electrode, the horizontal axis denotes time in ms, with the N100 and P300 time-windows u...
<p>Amplitude of the P3b component (target tones) was maximum at Pz, whereas amplitude of the P3a com...
<p>AEP latencies (ms) and amplitudes (µV) of CI users and NH controls (SD given in parentheses).</p
<p>ERP amplitudes for standards, emotionally congruent deviants, and emotionally incongruent deviant...
<p>Mean peak-latencies in milliseconds (± SD) for the frontal novelty-P3 and the centro-parietal odd...
<p>(A) Amplitudes of N170. Negative amplitudes are plotted upward. (B) Latencies of N170. (C) Amplit...
<p>The mean (with SD) peak latency (ms) of each component in response to different affective picture...
Table of tcMEP latencies and amplitudes on the forelimb and on the hind limb as well as latencies an...
<p>The negative-going deflection following a stop error is the ERN. Note the increased amplitude of ...
<p>Filter band-pass 0.01–30 Hz. EEG averaging from 500 ms pre-stimulus to 2000 ms post-stimulus. (a)...
<p>Bar graphs of mean ERP amplitudes at electrode sites Fz and Cz (0–100 ms after response) for the ...
The a) mean N1 peak latency and b) mean N1 peak amplitude from the ERPs at Cz for the opposing (Opp)...
(Note that data of able-bodied individuals and TTA are retrieved from Cz, and data of TFA mainly fro...
<p><b>A</b>: The mean amplitudes' peak for occipito-perietal P1, N1, P2 and LPP, (lower) and frontal...
The a) mean P2 peak latency and b) mean P2 peak amplitude from the ERPs at Cz for the opposing (Opp)...
<p>For each electrode, the horizontal axis denotes time in ms, with the N100 and P300 time-windows u...
<p>Amplitude of the P3b component (target tones) was maximum at Pz, whereas amplitude of the P3a com...
<p>AEP latencies (ms) and amplitudes (µV) of CI users and NH controls (SD given in parentheses).</p
<p>ERP amplitudes for standards, emotionally congruent deviants, and emotionally incongruent deviant...
<p>Mean peak-latencies in milliseconds (± SD) for the frontal novelty-P3 and the centro-parietal odd...
<p>(A) Amplitudes of N170. Negative amplitudes are plotted upward. (B) Latencies of N170. (C) Amplit...
<p>The mean (with SD) peak latency (ms) of each component in response to different affective picture...
Table of tcMEP latencies and amplitudes on the forelimb and on the hind limb as well as latencies an...
<p>The negative-going deflection following a stop error is the ERN. Note the increased amplitude of ...