Effect of spatial frequency on transient and steady-state VEPs: stimulation with checkerboard, square-wave grating and sinusoidal grating patterns

We recorded VEPs to the alternation of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8...

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Published inJournal of the neurological sciences Vol. 118; no. 1; pp. 17 - 24
Main Authors Tobimatsu, Shozo, Kurita-Tashima, Shizuka, Nakayama-Hiromatsu, Miyuki, Kato, Motohiro
Format Journal Article
LanguageEnglish
Published Shannon Elsevier B.V 01.08.1993
Elsevier Science
Subjects
Adult
Biological and medical sciences
Central nervous system
Checkerboard pattern
Electrophysiology
Evoked Potentials, Visual - physiology
Female
Fourier Analysis
Fundamental and applied biological sciences. Psychology
Grating pattern
Humans
Male
Pattern Recognition, Visual - physiology
Photic Stimulation
Space Perception - physiology
Spatial frequency
VEPs
Vertebrates: nervous system and sense organs
Spatial frequency
Grating pattern
Checkerboard pattern
VEPs
Human
Stimulus
Central nervous system
Electrophysiology
Visual evoked potential
Square wave
Online AccessGet full text
ISSN0022-510X
1878-5883
DOI10.1016/0022-510X(93)90239-U

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Abstract We recorded VEPs to the alternation of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8.0 c/deg. Both the transient VEP (T-VEP) and steady-state VEP (S-VEP) were obtained. The latency and amplitude of P100 of T-VEPs were measured. S-VEPs were Fourier analyzed, and phase and amplitude of the second harmonic response were measured. The mean P100 latency and the mean phase had a U-shaped function with a peak at a fundamental spatial frequency of 2.0 c/deg irrespective of the stimulus patterns, while the mean P100 amplitude and the mean amplitude of S-VEPs did not show such spatial selectivity. At low and medium spatial frequencies, differences in P100 latency, phase and amplitude between pattern types were more pronounced. However, this difference became insignificant at high spatial frequencies. These results indicate that VEP responses are predominantly determined by the fundamental spatial frequency, and that the contribution of higher harmonics to VEP responses is not negligible. Our results are consistent with the concept that the human visual system may use spatial frequency-domain information.
AbstractList We recorded VEPs to the alteration of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8.0 c/deg. Both the transient VEP (T-VEP) and steady-state VEP (S-VEP) were obtained. The latency and amplitude of P100 of T-VEPs were measured. S-VEPs were Fourier analyzed, and phase and amplitude of the second harmonic response were measured. The mean P100 latency and the mean phase had a U-shaped function with a peak at a fundamental spatial frequency of 2.0 c/deg irrespective of the stimulus patterns, while the mean P100 amplitude and the mean amplitude of S-VEPs did not show such spatial selectivity. At low and medium spatial frequencies, differences in P100 latency, phase and amplitude between pattern types were more pronounced. However, this difference became insignificant at high spatial frequencies. These results indicate that VEP responses are predominantly determined by the fundamental spatial frequency, and that the contribution of higher harmonics to VEP responses is not negligible. Our results are consistent with the concept that the human visual system may use spatial frequency-domain information.
We recorded VEPs to the alternation of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8.0 c/deg. Both the transient VEP (T-VEP) and steady-state VEP (S-VEP) were obtained. The latency and amplitude of P100 of T-VEPs were measured. S-VEPs were Fourier analyzed, and phase and amplitude of the second harmonic response were measured. The mean P100 latency and the mean phase had a U-shaped function with a peak at a fundamental spatial frequency of 2.0 c/deg irrespective of the stimulus patterns, while the mean P100 amplitude and the mean amplitude of S-VEPs did not show such spatial selectivity. At low and medium spatial frequencies, differences in P100 latency, phase and amplitude between pattern types were more pronounced. However, this difference became insignificant at high spatial frequencies. These results indicate that VEP responses are predominantly determined by the fundamental spatial frequency, and that the contribution of higher harmonics to VEP responses is not negligible. Our results are consistent with the concept that the human visual system may use spatial frequency-domain information.
We recorded VEPs to the alteration of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8.0 c/deg. Both the transient VEP (T-VEP) and steady-state VEP (S-VEP) were obtained. The latency and amplitude of P100 of T-VEPs were measured. S-VEPs were Fourier analyzed, and phase and amplitude of the second harmonic response were measured. The mean P100 latency and the mean phase had a U-shaped function with a peak at a fundamental spatial frequency of 2.0 c/deg irrespective of the stimulus patterns, while the mean P100 amplitude and the mean amplitude of S-VEPs did not show such spatial selectivity. At low and medium spatial frequencies, differences in P100 latency, phase and amplitude between pattern types were more pronounced. However, this difference became insignificant at high spatial frequencies. These results indicate that VEP responses are predominantly determined by the fundamental spatial frequency, and that the contribution of higher harmonics to VEP responses is not negligible. Our results are consistent with the concept that the human visual system may use spatial frequency-domain information.We recorded VEPs to the alteration of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial frequency and higher harmonic components in 12 normal subjects. Their fundamental spatial frequencies were equated and ranged from 0.5 to 8.0 c/deg. Both the transient VEP (T-VEP) and steady-state VEP (S-VEP) were obtained. The latency and amplitude of P100 of T-VEPs were measured. S-VEPs were Fourier analyzed, and phase and amplitude of the second harmonic response were measured. The mean P100 latency and the mean phase had a U-shaped function with a peak at a fundamental spatial frequency of 2.0 c/deg irrespective of the stimulus patterns, while the mean P100 amplitude and the mean amplitude of S-VEPs did not show such spatial selectivity. At low and medium spatial frequencies, differences in P100 latency, phase and amplitude between pattern types were more pronounced. However, this difference became insignificant at high spatial frequencies. These results indicate that VEP responses are predominantly determined by the fundamental spatial frequency, and that the contribution of higher harmonics to VEP responses is not negligible. Our results are consistent with the concept that the human visual system may use spatial frequency-domain information.
Author Nakayama-Hiromatsu, Miyuki
Kato, Motohiro
Kurita-Tashima, Shizuka
Tobimatsu, Shozo
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Issue 1
Keywords Spatial frequency
Grating pattern
Checkerboard pattern
VEPs
Human
Stimulus
Central nervous system
Electrophysiology
Visual evoked potential
Square wave
Language English
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Snippet We recorded VEPs to the alternation of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental...
We recorded VEPs to the alteration of checkerboard, square-wave grating and sinusoidal grating patterns to evaluate the contribution of the fundamental spatial...
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SubjectTerms Adult
Biological and medical sciences
Central nervous system
Checkerboard pattern
Electrophysiology
Evoked Potentials, Visual - physiology
Female
Fourier Analysis
Fundamental and applied biological sciences. Psychology
Grating pattern
Humans
Male
Pattern Recognition, Visual - physiology
Photic Stimulation
Space Perception - physiology
Spatial frequency
VEPs
Vertebrates: nervous system and sense organs
Title Effect of spatial frequency on transient and steady-state VEPs: stimulation with checkerboard, square-wave grating and sinusoidal grating patterns
URI https://dx.doi.org/10.1016/0022-510X(93)90239-U
https://www.ncbi.nlm.nih.gov/pubmed/8229046
https://www.proquest.com/docview/76059526
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