ELECTROPHYSIOLOGICAL PROPERTIES OF HUMAN OCULAR EXTRAMISSION

Abstract

The author presents evidence supporting the hypothesis that human ocular extramission, the emission of brain waves through the eye, can be detected using qEEG equipment or two-channel neurofeedback equipment. A high-impedance electrode housed inside electromagnetically insulated goggles was employed that makes no physical contact with the body and is about two centimeters in front of the pupil. Readings were taken with two-channel biofeedback equipment and with a qEEG The waveform of ocular extramission is physiologically active compared to the reading from a control electrode suspended in space in front of the goggles: it is similar to the waveform of frontal leads in overall structure and in the appearance of eye blink and muscle artifact in the tracing, combined with an absence of heart artifact. The waveform for a control electrode showed only consistent high-frequency, low amplitude background and heart beat artifact. It may be possible to study a variety of disease states by recording ocular extramission, using a high-impedance noncontact electrode.