Evaluation of the possibility and response characteristics of laser-induced tactile sensation

•Laser-induced tactile sensation on the fingertip was examined.•Laser energy affect the possibility and response characteristics of tactile sensation.•Precision and specificity were high but, accuracy and sensitivity were not high.•Laser energy density is positively correlated with tactile perceptio...

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Bibliographic Details
Published in:Neuroscience letters 2015-08, Vol.602, p.68-72
Main Authors: Kim, Hyung-Sik, Kim, Ji-Sun, Jung, Gu-In, Jun, Jae-Hoon, Park, Jong-Rak, Kim, Sung-Phil, Choi, Seungmoon, Park, Sung-Jun, Choi, Mi-Hyun, Chung, Soon-Cheol
Format: Article
Language:English
Subjects:
Female
Humans
Laser energy density
Lasers
Male
Physical Stimulation
Possibility evaluation
Pulse laser
Tactile sense
Touch
Touch Perception
Young Adult
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Summary:•Laser-induced tactile sensation on the fingertip was examined.•Laser energy affect the possibility and response characteristics of tactile sensation.•Precision and specificity were high but, accuracy and sensitivity were not high.•Laser energy density is positively correlated with tactile perception. In this study, we examined the possibility and perceptual response characteristics of tactile sense induced by laser stimulation to the finger with different laser energy densities through human response experiments. 15 healthy adult males and 4 healthy adult females with an age of 22.6±2.2 years were tested. A frequency-doubled Q-switched laser was used with a wavelength of 532nm and a 5ns pulse width. The experimental trial spanned a total of 30s and included a rest phase (19s), a stimulation phase (7s), and a response phase (4s). During the rest phase, subjects kept their fingers comfortable. During the stimulation phase, one of three types of laser energy density (13.5, 16.6, 19.8mJ/cm2) or a sham stimulation was used to irradiate the distal phalanx on the right index finger. During the response phase, the cognitive response to the laser stimulation was recorded by a PC by pressing the response button. The confusion matrix was configured to evaluate the possibility that the tactile sense was caused by the laser. In addition, changes in the response characteristics were observed according to three types of laser energy densities. From the analysis of the confusion matrix, the accuracy and sensitivity were not high. In contrast, precision and specificity were found to be high. Furthermore, there was a strong positive correlation between the laser irradiation and tactile perception, indicating that tactile sense can be induced using a laser in a mid-air manner. In addition, it was found that as the laser energy density increased, the tactile perception possibility also increased.
ISSN:0304-3940
1872-7972
DOI:10.1016/j.neulet.2015.06.053