Optimal signal bandwidth for the recording of surface EMG activity of facial, jaw, oral, and neck muscles

Spontaneous pericranial electromyographic (EMG) activity is generally small and is contaminated by strong low‐frequency artifacts. High‐pass filtering should suppress artifacts but affect EMG signal power only minimally. In 24 subjects who performed a warned simple reaction time task, the optimal high‐pass cut‐off frequency was examined for nine different pericranial muscles. From four experimental conditions (visual and auditory reaction signals combined with hand and foot responses), 1‐min EMG recordings were selected (bandwidth: 0.4–512 Hz) and divided into 60 1‐s data segments. These segments were high‐pass filtered, the −3‐dB cut‐off frequency varying from 5 to 90 Hz, and subjected to power spectral analysis. Optimal high‐pass filter frequencies were determined for the mean power spectra based on visual estimation or comparison with a theoretical spectrum of the artifact‐free EMG signal. The optimal frequencies for the different muscles varied between 15 and 25 Hz and were not influenced by stimulus or response modality. For all muscles, a low‐pass filter frequency between 400 and 500 Hz was appropriate.