Additional file 1: of Precise estimation of human corticospinal excitability associated with the levels of motor imagery-related EEG desynchronization extracted by a locked-in amplifier algorithm Kensho Takahashi Kenji Kato Nobuaki Mizuguchi Junichi Ushiba 10.6084/m9.figshare.7290740.v1 https://springernature.figshare.com/articles/dataset/Additional_file_1_of_Precise_estimation_of_human_corticospinal_excitability_associated_with_the_levels_of_motor_imagery-related_EEG_desynchronization_extracted_by_a_locked-in_amplifier_algorithm/7290740 Figure S1. Peak-to-peak MEP amplitudes during the resting state and motor imagery of right wrist extension at ERD 35% and ERD 70%, calculated by the online FFT or LIA algorithm. The averaged MEP amplitudes were significantly greater in Condition 2 “FFT, ERD35%” (p < 0.05), Condition 3 “FFT, ERD70%” (p < 0.001), Condition 4 “LIA, ERD35%” (p < 0.01), and Condition 5 “LIA, ERD70%” (p < 0.001), compared to Condition 1 “Relaxed.” Each line shows the result obtained from each participant. *p < 0.05, **p < 0.01, ***p < 0.005. ERD, event-related desynchronization; FFT, fast Fourier transformation; LIA; lock-in amplifier; MEP, motor evoked potential. Figure S2. Topography map of true positive rate (%) across subjects. True positive rate is defined as a percentage that exceed the targeted ERD value among 25 trials of the motor imagery task. Both the LIA-based and FFT-based methods can specifically detect the motor-imagery-related ERDs from the vicinity of the C3. (ZIP 3206 kb) 2018-11-01 05:00:00 Brain-computer interface (BCI) Transcranial magnetic stimulation (TMS) Corticospinal excitability Event-related desynchronization (ERD) Electroencephalogram (EEG) Sensorimotor cortex (SM1)