Exploration of Multifocal Rod Electroretinograms Recording in Human 被引量：3

Exploration of Multifocal Rod Electroretinograms Recording in Human

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摘要 Purpose:To test the feasibility of recording rod multifocal electroretinograms (ERG) in humans and observe appropriate recording conditions.Methods: Multifocal rod ERG were recorded using a stimulus array of 61 equalsized hexagons in two normal subjects after the dark adaptation. Flashes were blue (W47B). Blank frames between two successive flashes of hexagons varied from 0 to 14. Length of the m-sequence, bandwidth, flash frequency, flash intensities and background intensities were changed to obtain appropriate recording conditions for the clinical use.Results:Multifocal rod ERG were clearly recordable and well formed. They had an early implicit time, very small negative wave and a late implicit time, large positive wave. The positive wave was bimodal, whose timing and waveform were similar to the full-field rod ERG. The local response amplitudes can be suppressed with increase in flash frequency or background intensity, decrease in flash intensity or the size of stimulus elements.Conclusions: Multifocal rod ERG can be recorded in human and can provide topographical maps of retinal function that have clinical usage. 212-1 m-sequence length, 3F blank frames and 3～ 300 Hz bandwidth were suggested to appropriate recording conditions. Purpose: To test the feasibility of recording rod multifocal electroretinograms(ERG) in humans and observe appropriate recording conditions. Methods: Multifocal rod ERG were recorded using a stimulus array of 61 equalsized hexagons in two normal subjects after the dark adaptation. Flashes were blue (W47B). Blank frames between two successive flashes of hexagons varied from 0 to 14. Length of the m-sequence, bandwidth, flash frequency, flash intensities and background intensities were changed to obtain appropriate recording conditions for the clinical use. Results: Multifocal rod ERG were clearly recordable and well formed. They had an early implicit time, very small negative wave and a late implicit time, large positive wave. The positive wave was bimodal, whose timing and waveform were similar to the full-field rod ERG. The local response amplitudes can be suppressed with increase in flash frequency or background intensity, decrease in flash intensity or the size of stimulus elements. Conclusions: Multifocal rod ERG can be recorded in human and can provide topographical maps of retinal function that have clinical usage. 2!2-l m-sequence length, 3F blank frames and 3 - 300 Hz bandwidth were suggested to appropriate recording conditions. Eye Science 2002; 18: 136 - 142.

作者 Changzheng Chen, Lezheng Wu, De-Zheng Wu, Shixian Long Jiongji Liang, Futian Jiang, Libing JiangZhongshan Ophthalmic Center, Sun Yat-sen University, Guangzhou 510060, China

出处《眼科学报》 2002年第3期136-142,共7页 Eye Science

关键词多源杆视网膜电图人体记录方法 multifocal electroretinograms, rod

分类号 R770.43 [医药卫生—眼科]

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参考文献10

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Exploration of Multifocal Rod Electroretinograms Recording in Human 被引量：3

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