Abstract
Purpose
The purpose of this study is to compare the amplitudes and peak times of the flicker electroretinograms (ERGs) recorded before and after cataract surgery with the RETeval system (LKC Technologies, Gaithersburg, MD, USA) from eyes without dilation.
Patients and methods
Thirty-two eyes of 32 patients (77.3±6.5 years) that had grade 2 Emery–Little nuclear or cortical cataract without any other abnormalities were studied. Flicker ERGs were recorded with the RETeval system under mydriatic-free conditions. Skin electrodes were used to pick-up the ERGs that were elicited by white light delivered at a rate of 28.3 Hz and intensity of 2, 8, and 32 Td-s. The amplitudes and peak times of the flicker ERGs before and after cataract surgery were compared.
Results
The mean amplitudes were significantly increased after the removal of the cataractous lenses at the three stimulus intensities (2 Td-s, P<0.0001; 8 Td-s, P<0.0001; and 32 Td-s, P<0.0001). The mean peak times of the flicker ERGs elicited by 2 and 8 Td-s were significantly shortened after the surgery (2 td-s, P<0.0001 and 8 td-s, P=0.0127) but not at 32 td-s (P=0.595).
Conclusions
These results indicate that the presence of cataracts will affect both the amplitudes and the peak times of the flicker ERGs even if the cataract is mild. In addition, the results indicate that as stimulus intensity increases, the peak times is less affected by a cataract. The clarity of the crystalline lens should be considered when interpreting the flicker ERGs recorded with the RETeval system.
Introduction
The RETeval system (LKC Technologies) is a noninvasive, mydriatic-free flicker electroretinographic (ERG) system that can elicit and record flicker ERGs.1 The RETeval system is widely used to detect and assess the retinal ischemic damages in eyes with diabetic retinopathy and retinal vein occlusions.2, 3, 4 We have reported that the amplitudes and peak times of the flicker ERGs recorded with the RETeval system at 8 Td-s were affected by cataracts.5 In that study, we examined the amplitudes and peak times of the flicker ERGs elicited by a stimulus intensity of 8 Td-s in eyes with Grade 2 and Grade 3 cataracts, and also from pseudophakic eyes. Our results showed that the mean amplitude was significantly smaller and the mean peak times was significantly longer in eyes with both grades of cataracts. However, the stimulus intensity, which is the recommended default setting for flicker ERGs for eyes without dilation in the RETeval system, is much weaker than the intensity recommended by International Society for Clinical Electrophysiology of Vision for conventional ERGs.6 In addition, the eyes were from different populations in the two cataract groups and also for the IOL group.
A cataract is one of the most frequent type of ophthalmologic disorder especially in the elderly, so it is important to know how much impact cataracts will have on the flicker ERGs elicited by different stimulus intensities and recorded with the RETeval system.
Thus, the purpose of this study was to determine the effect of a cataract on the RETeval flicker ERGs elicited by different stimulus intensities and recorded from the same eye before and after cataract surgery.
Materials and methods
Thirty-two eyes of 32 patients that had undergone cataract surgery at the Chiba University Hospital between June 2015 and June 2016 were studied. All of the patients had had mydriasis-free flicker ERGs recorded before and after the surgery. The procedures used in this study conformed to the tenets of the Declaration of Helsinki and were approved by the Institutional Review Board of Chiba University Hospital (number 2075). An informed consent was obtained from each patient for the surgery and for the ERG recordings.
All patients had a complete ophthalmic examination including measurements of the best-corrected visual acuity (BCVA) and intraocular pressure. In addition, all had slit-lamp examinations and indirect ophthalmoscopy. The BCVA was measured monocularly using a Japanese standard Landolt ring chart (System Charts SC-2000 Nidek Instruments, Gamagori, Japan) at a distance of 5 m. The decimal visual acuities were converted to the logarithm of the minimum angle of resolution (logMAR) units for the statistical analyses. Only subjects with Grade 2 cataract based on the Emery–Little classification7 were studied.
None of the patients had any other ocular abnormalities in the anterior segment, media, and fundus, and all eyes had phacoemulsification and intraocular lens implantation surgery through a superior sclera-corneal incision without any complications. Yellow-colored acrylic foldable intraocular lenses were implanted in all of the eyes. None of the patients had any surgery-related complications. Eyes with refractive errors (spherical equivalents) greater than ±6 diopters and patients with diabetes mellitus were excluded.
Flicker ERGs were recorded with the RETeval system (LKC Technologies) from all patients under mydriatic-free conditions before and after the cataract surgery. The pupil size of all of the patients ranged from 2 to 4 mm during the ERG recordings. Skin electrodes were used to pick-up the ERGs that were elicited by white light delivered at a frequency of 28.3 Hz and intensity of 2, 8, and 32 Td-s. No background light was used. The contralateral eye was covered during the recordings. The amplitudes and peak times of the fundamental component were automatically extracted and displayed by the RETeval system using an embedded algorithm.
Wilcoxon signed-rank tests were used to determine the significance of the differences in the amplitudes and peak times of the flicker ERGs. A P-value of <0.05 was taken to be statistically significant.
Results
We studied 32 eyes of 32 patients (12 men and 20 women) whose mean age was 77.3±6.5 years with a range of 64 to 90 years. The mean BCVA was 0.51±0.38 logMAR units with a range of 1.30 to 0.04 logMAR units before the cataract surgery and 0.004±0.08 logMAR units with a range of 0.10 to −0.08 logMAR units after the surgery (Table 1). The BCVA was significantly improved after the cataract surgery (P<0.0001).
Table 1. Pre- and postoperative demographics of the patients studied.
| Number of eyes | 32 |
| Age (years) | 77.3±6.5 |
| Sex (male/female) | 12/20 |
| LogMAR VA before surgery | 0.51±0.38 |
| LogMAR VA after surgery | 0.004±0.08 |
| Types of cataract (cortical/nuclear) | 14/18 |
Abbreviation: LogMAR, logarithm of the minimum angle of resolution.
Data are expressed as mean±SD.
The mean amplitude and peak times before surgery were 2.7±1.3 μV and 40.7±2.2 ms with 2 Td-s, 7.8±2.9 μV and 35.4±2.3 ms with 8 Td-s, and 12.6±4.3 μV and 31.4±2.5 ms with 32 Td-s. The mean amplitude and peak times after surgery were 4.5±2.1 μV and 39.5±2.2 ms with 2 Td-s, 12.3±4.9 μV and 35.0±2.1 ms with 8 Td-s, and 19.0±5.5 μV and 31.3±2.2 ms with 32 Td-s (Tables 2 and 3). The mean amplitudes were significantly increased after the removal of the cataractous lens for all stimulus intensities (P<0.0001, 2 Td-s; P<0.0001, 8 Td-s; and P<0.0001, 32 Td-s). The mean peak times for intensities of 2 and 8 Td-s were significantly shortened after the surgery (2 td-s, P<0.0001 and 8 td-s, P=0.0127), but not for 32 Td-s. The mean peak times for the flicker ERGs elicited by 32 Td-s was not significantly different after the cataract surgery (P=0.595).
Table 2. Amplitudes of flicker ERGs recorded before and after cataract surgery elicited by a stimulus intensity of 2, 8, or 32 Td-s.
| Intensity (Td-s) | Before surgery (μv) | After surgery (μv) | P-value |
|---|---|---|---|
| 2 | 2.7±1.3 | 4.5±2.1 | <0.0001 |
| 8 | 7.8±2.9 | 12.3±4.9 | <0.0001 |
| 32 | 12.6±4.3 | 19.0±5.5 | <0.0001 |
Table 3. Peak times of flicker ERGs recorded before and after cataract surgery elicited by intensity of 2, 8, or 32 Td-s.
| Intensity (Td-s) | Before surgery (ms) | After surgery (ms) | P-value |
|---|---|---|---|
| 2 | 40.7±2.2 | 39.5±2.2 | <0.0001 |
| 8 | 35.4±2.3 | 34.9±2.2 | 0.0127 |
| 32 | 31.4±2.5 | 31.3±2.2 | 0.595 |
Eighteen eyes had nuclear cataracts and 14 eyes had cortical cataracts. The mean amplitude of the flicker ERGs before surgery was 2.9±1.4 μV with 2 Td-s, 8.0±3.2 μV with 8 Td-s, and 12.2±4.7 μV with 32 Td-s for eyes with nuclear cataract. The mean amplitude of the flicker ERGs before surgery was 2.5±1.0 μV with 2 Td-s, 7.4±2.4 μV with 8 Td-s, and 13.0±3.7 μV with 32 Td-s for eyes with cortical cataract. There was no significant difference between the amplitudes for both types of cataracts before surgery (P=0.38, 2 Td-s; P=0.50, 8 Td-s; and P=0.62, 32 Td-s). The average peak times of the flicker ERGs before surgery was 40.0±1.5 ms with 2 Td-s, 35.2±1.6 ms with 8 Td-s, and 31.1±1.8 ms with 32 Td-s for eyes with nuclear cataract. The average peak times of the flicker ERGs before surgery was 41.4±2.8 ms with 2 Td-s, 35.6±3.0 ms with 8 Td-s, and 31.8±3.3 ms with 32 Td-s for eyes with cortical cataracts. There was no significant difference between the peak times for both types of cataracts (P=0.15, 2 Td-s; P=0.62, 8 Td-s; and P=0.43, 32 Td-s) (Figure 1).
Figure 1.
Representative flicker ERGs recorded with the RETeval system elicited intensity of 2 (a, d), 8 (b, e) and 32 (c, f) Td-s before (a, b, c) and after (d, e, f) cataract surgery. Dotted lines are the superimposed fundamental component extracted by the RETeval system. Black lines are the actual waveforms.
Discussion
Our results showed that Grade 2 cataracts will affect both the amplitudes and peak times of the flicker ERGs elicited by stimulus intensities of <8 Td-s. Although the subjects in this study were different from those used in our earlier study, the results were quite similar.5
The new and important finding in this study was that the lens opacities can increase the peak times probably by weakening the intensity of the light stimulus, but the effect will be essentially eliminated when the stimulus intensity was equal to 32 Td-s. This study was performed only on eyes with Grade 2 Emery and Little cataracts, which are described as being ‘semisoft: yellowish white,’ which means that they were comparatively mild lens opacities. If cataracts denser than Grade 2 are present, the effect of the lens opacity on the flicker ERGs would be expected to be greater than the results of this study. These findings indicate that when testing for mild retinal ischemia, it is necessary to take into account the effects of cataracts.
We studied eyes with nuclear cataracts and cortical cataracts. Earlier studies reported that the density of multifocal ERGs were affected different in the different areas of the area of the retina because of the light scattering by a cataract.8, 9 De waad et al10 reported that the different types of cataract display different light scatter characteristics.
Thus, to confirm whether there is a difference in the influence of the scattering of the light depending on the type of cataract, we investigated the differences between the amplitudes and the peak times of each type of cataract. Our results showed that there was no significant difference in the amplitudes and peak times between the two types of cataracts. These results indicate that the type of cataract most likely has no effect on the flicker ERGs in the mydriasis-free conditions when recordings are made with the RETeval system.
Kato et al1 showed that the peak times of the RETeval flicker ERGs was significantly prolonged when the pupil was larger than ~6.5 mm. The pupil sizes of all of our subjects ranged from 2 to 4 mm during the ERG recordings. Thus, our results should not be affected by the pupil diameter although the pupil size should be monitored and the peak times need to be analyzed carefully when examining the RETeval flicker ERGs.
There are some limitations in this study. The first limitation was that all of the patients were examined under mydriatic-free conditions. Thus, it is not entirely known how the lens opacities affect the flicker ERGs if the pupil diameter is different and the distribution of the light stimulus on the entire retina different. Thus, the impact of the cataract type and the degree of light scattering may also be different.
The second limitation was that only flicker ERGs were investigated. It is not known how lens opacities affect the other ERG components, especially the rod system because the flicker ERG mainly originated from the neural activity of the cone system.11 As the location of the cones in the retina is different from that of rods, it is estimated that the effect of lens opacities on the rod ERGs will be different.
The other limitation was that we did not compare waveforms of RETeval system and those recorded with the conventional ERG system. There have been several reports about the effects of cataracts on the amplitudes of conventional ERGs and densities of multifocal ERGs.9, 12 They reported that amplitudes of conventional ERGs and densities were significantly decreased in eyes with a cataract. These results are consistent with ours. In addition, Yasuda et al13 reported that both the peak times and amplitudes recorded by the RETeval system and conventional system were significantly correlated. Thus, similar results may be obtained also by the conventional ERG system. Further investigations are needed.
In conclusion, the presence of Grade 2 cataracts affected both of the amplitudes and the peak times of the flicker ERGs, however the effect of lens opacity on the peak times decreased as strengthen the light intensity increased. The presence of lens opacities should be taken into consideration when interpreting the flicker ERGs recorded with the RETeval system even if the cataract is a relatively mild.
Acknowledgments
We thank Professor Duco Hamasaki, Bascom Palmer Eye Institute, University of Miami, for his critical discussion and editing of the final manuscript.
Footnotes
The authors declare no conflict of interest.
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