BMC Ophthalmology | |
Effects of refractive errors on visual evoked magnetic fields | |
Research Article | |
Ryusuke Kakigi1  Koji Inui1  Mizuki Nagae2  Naoya Kumagai2  Yuko Nagata2  Masaya Suzuki2  | |
[1] Department of Integrative Physiology, National Institute for Physiological Sciences, 444-8585, Okazaki, Japan;R&D Department, Tokai Optical Co., Ltd, 444-2192, Okazaki, Japan; | |
关键词: Magnetoencephalography; Primary visual cortex; Refractive error; Visual evoked magnetic field; | |
DOI : 10.1186/s12886-015-0152-6 | |
received in 2015-08-31, accepted in 2015-10-29, 发布年份 2015 | |
来源: Springer | |
【 摘 要 】
BackgroundThe latency and amplitude of visual evoked cortical responses are known to be affected by refractive states, suggesting that they may be used as an objective index of refractive errors. In order to establish an easy and reliable method for this purpose, we herein examined the effects of refractive errors on visual evoked magnetic fields (VEFs).MethodsBinocular VEFs following the presentation of a simple grating of 0.16 cd/m2 in the lower visual field were recorded in 12 healthy volunteers and compared among four refractive states: 0D, +1D, +2D, and +4D, by using plus lenses.ResultsThe low-luminance visual stimulus evoked a main MEG response at approximately 120 ms (M100) that reversed its polarity between the upper and lower visual field stimulations and originated from the occipital midline area. When refractive errors were induced by plus lenses, the latency of M100 increased, while its amplitude decreased with an increase in power of the lens. Differences from the control condition (+0D) were significant for all three lenses examined. The results of dipole analyses showed that evoked fields for the control (+0D) condition were explainable by one dipole in the primary visual cortex (V1), while other sources, presumably in V3 or V6, slightly contributed to shape M100 for the +2D or +4D condition.ConclusionsThe present results showed that the latency and amplitude of M100 are both useful indicators for assessing refractive states. The contribution of neural sources other than V1 to M100 was modest under the 0D and +1D conditions. By considering the nature of the activity of M100 including its high sensitivity to a spatial frequency and lower visual field dominance, a simple low-luminance grating stimulus at an optimal spatial frequency in the lower visual field appears appropriate for obtaining data on high S/N ratios and reducing the load on subjects.
【 授权许可】
CC BY
© Suzuki et al. 2015
【 预 览 】
Files | Size | Format | View |
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RO202311096614658ZK.pdf | 2364KB | download |
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