临床环境中光适应3.0视网膜电图的明视负反应。

The photopic negative response of the Light-adapted 3.0 ERG in clinical settings.

作者信息

Ortiz Gonzalo, Drucker David, Hyde Connor, Staffetti Joseph, Kremers Jan, Tzekov Radouil

机构信息

Department of Ophthalmology, University of South Florida, Tampa, FL, 33612, USA.

Department of Ophthalmology, University Hospital Erlangen, Erlangen, Germany.

出版信息

Doc Ophthalmol. 2020 Apr;140(2):115-128. doi: 10.1007/s10633-019-09723-5. Epub 2019 Oct 1.

DOI:10.1007/s10633-019-09723-5

PMID:31571069

Abstract

PURPOSE

To analyze the effects of different methods of measurement on the photopic negative response (PhNR), recorded as part of a standard ISCEV Photopic 3.0 ERG responses from patients with a variety of clinical diagnoses.

METHODS

ERGs were recorded from both eyes of 97 patients (187 eyes) as part of a standard clinical assessment. The average age was 56.4 ± 15.7 years, the gender balance was 35 M, 62F, and only recordable responses of acceptable quality were included. PhNR was measured at an identifiable trough before (PhNR1) and after the i-wave (PhNR2), and the amplitudes and peak times were compared with a-, b- and i-wave corresponding parameters. PhNR components were measured: from baseline and from b-wave peak. Correlation between PhNR troughs and with ERG parameters were tested for right eyes. The possibility to predict and substitute PhNR2 amplitude from PhNR1 amplitude was also tested.

RESULTS

PhNR1 was recordable in 97.3% of eyes and PhNR2 in 85.6%. An identifiable PhNR2 peak was found to occur before 65 ms at ~ 50% of the records, while in ~ 38% of the cases was within 65-75 ms in ~ 12%-after 75 ms. The correlation between the PhNR1 and PhNR2 peaks was quite strong (with coefficients 0.81-0.98, depending on method of measurement, and slopes close to 1). The average difference between predicted and measured PhNR2 was reasonably small in absolute (< 2 µV) and relative (< 2%) terms. The correlations between PhNR amplitudes and other ERG component amplitudes showed different ranges of correlation coefficients depending on the method of measurement: for the a-wave amplitudes the range of coefficients was 0.48-0.73, while for the b-wave amplitudes it was 0.30-0.95 and 0.39-0.65 for i-wave.

CONCLUSION

The strong correlation between the two PhNR troughs could allow using PhNR1 when PhNR2 is poorly defined due to artifacts. Different methods of PhNR measurement lead to different correlations with other ERG parameters, and this needs to be considered when analyzing and comparing PhNR data between studies.

摘要

目的

分析不同测量方法对明视负反应（PhNR）的影响，该反应作为标准国际临床视觉电生理学会（ISCEV）明视3.0视网膜电图（ERG）反应的一部分，记录于各种临床诊断的患者。

方法

作为标准临床评估的一部分，记录了97例患者（187只眼）双眼的ERG。平均年龄为56.4±15.7岁，性别比例为男性35例，女性62例，仅纳入质量可接受的可记录反应。在i波之前（PhNR1）和之后（PhNR2）的可识别波谷处测量PhNR，并将其振幅和峰值时间与a波、b波和i波的相应参数进行比较。测量PhNR成分：从基线和b波峰值处测量。测试了右眼PhNR波谷与ERG参数之间的相关性。还测试了根据PhNR1振幅预测和替代PhNR2振幅的可能性。

结果

97.3%的眼可记录到PhNR1，85.6%的眼可记录到PhNR2。发现在约50%的记录中，可识别的PhNR2峰值出现在65毫秒之前，而在约38%的病例中，在65 - 75毫秒之间，约12%在75毫秒之后。PhNR1和PhNR2峰值之间的相关性很强（系数为0.81 - 0.98，取决于测量方法，斜率接近1）。预测的和测量的PhNR2之间的平均差异在绝对值（<2μV）和相对值（<2%）方面都相当小。PhNR振幅与其他ERG成分振幅之间的相关性根据测量方法显示出不同范围的相关系数：对于a波振幅，系数范围为0.48 - 0.73，对于b波振幅为0.30 - 0.95，对于i波为so0.39 - 0.65。

结论

当由于伪迹导致PhNR2定义不明确时，两个PhNR波谷之间的强相关性可能允许使用PhNR1。不同的PhNR测量方法导致与其他ERG参数的不同相关性，在分析和比较不同研究之间的PhNR数据时需要考虑这一点。

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临床环境中光适应3.0视网膜电图的明视负反应。

The photopic negative response of the Light-adapted 3.0 ERG in clinical settings.

作者信息

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出版信息

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METHODS

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CONCLUSION

目的

方法

结果

结论

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