Functional brain measurements within the prefrontal area on pseudo-“blindsight” induced by extremely low frequency electromagnetic stimulations

For evaluating the effects of phosphene as pseudo-blindsight closely, we used functional near-infrared spectroscopy to investigate whether or not the phosphene appearance itself substantially affects the hemodynamic responses of the prefrontal area. Seven healthy volunteers ranging in age from 22 to...

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Veröffentlicht in:	Journal of applied physics 2015-05, Vol.117 (17)
Hauptverfasser:	Nakagawa, Hidenori, Ueno, Shoogo
Format:	Artikel
Sprache:	eng
Schlagworte:	Brain Delay Field strength Hemodynamic responses Infrared spectra Near infrared radiation Neural networks Perception Phosphene Retina Stimulation
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creator	Nakagawa, Hidenori Ueno, Shoogo
description	For evaluating the effects of phosphene as pseudo-blindsight closely, we used functional near-infrared spectroscopy to investigate whether or not the phosphene appearance itself substantially affects the hemodynamic responses of the prefrontal area. Seven healthy volunteers ranging in age from 22 to 72 participated in the visual stimulation experiments. First, we examined the influences of electromagnetic stimulations at around the threshold (10 mT) for a blindsight-like phosphene on the responses. According to the results of the aged volunteers, we found the possibility that the delay in the phosphene perception might be caused by aging beyond a certain age. In the results of our measurements using the stimulation of 50 mT, no significant difference in the perception delay for all the volunteers could be detected. When the field strength was decreased from 50 mT to the threshold in steps of 10 mT, the results obtained at the threshold are equivalent to that obtained at 50 mT. Our data strongly support the hypothesis that pseudo-blindsight induced by electromagnetic stimulation of above 50 mT is able to excite all the volunteers' retinal photoreceptor cells provisionally. Hence the continuous stimulations for a long period of time might gradually activate synaptic plasticity on the neural network of the retina.
doi_str_mv	10.1063/1.4917188
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subjects	Brain Delay Field strength Hemodynamic responses Infrared spectra Near infrared radiation Neural networks Perception Phosphene Retina Stimulation
title	Functional brain measurements within the prefrontal area on pseudo-“blindsight” induced by extremely low frequency electromagnetic stimulations
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