Dark-adapted luminance-response functions with skin and corneal electrodes

Wali, Naheed; Leguire, Lawrence E.

doi:10.1007/bf00142675

Cited by 20 publications

(17 citation statements)

References 20 publications

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“…In our results, Vmax was significantly less variable than K in terms of intersubject CoV and also, in some cases, for inter-ocular and inter-session LoA. Wali and Leguire also found K to be the most variable parameter for the intensity-response series of the scotopic b-wave [43]. In a previous paper, we reported the variability of PhNR amplitudes measured in different ways in response to a stimulus of intensity 1.76 log phot td.s [21].…”

Section: Discussionsupporting

confidence: 64%

“…Bradshaw et al, (2004) also found that, when scaled for amplitude, the b-wave intensity-response series of the skin and corneal electrodes were similar [47]. In contrast, Wali and Leguire (1991) found skin electrode responses to have a lower K value than corneal electrode responses [43], indicating a greater sensitivity of the responses recorded using the skin electrode. However they were analysing scotopic b-wave amplitudes, rather than photopic ERGS.…”

Section: Discussionmentioning

confidence: 99%

“…These factors indicate that the DTL electrode is more suitable for clinically assessing the intensity-response series of the PhNR. Wali and Leguire (1991) compared the parameters of the dark adapted b-wave intensity-response function recorded using skin and corneal (jet contact lens) electrodes [43] and also reported that Vmax was more variable for the skin electrode, although they found the variability of K to be similar between electrode types.…”

Section: Discussionmentioning

confidence: 99%

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The relationship between stimulus intensity and response amplitude for the photopic negative response of the flash electroretinogram

2011

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Section: Discussionsupporting

confidence: 64%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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The relationship between stimulus intensity and response amplitude for the photopic negative response of the flash electroretinogram

2011

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“…Dark-adapted ERG amplitudes over a range of stimulus intensities constitute the luminance-response (L-R) function, which can be fitted by the Naka-Rushton equation [1]: V= (Vmax In)/(I n + Kn), with the use of nonlinear [2][3][4][5] or linear [6][7] regression. V is the measured b-wave amplitude at luminance I, Vmax is the maximum b-wave amplitude obtained, K is the half saturation constant (i.e., the luminance at which V = 89 Vmax) and n is a dimensionless constant that represents the slope of the function.…”

Section: Introductionmentioning

confidence: 99%

Fundus pigmentation and the dark-adapted electroretinogram

Wali

Leguire

1992

Doc Ophthalmol

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Dark-adapted electroretinograms were obtained over a 3.6-log range of stimulus intensities from 17 black and 15 white normal subjects. Subjects were grouped on the basis of light or dark fundus pigmentation, determined from digitized fundus photographs. B-wave amplitudes for each group were fitted by the Naka-Rushton equation, and the measures Vmax, log K, and n were determined. The luminance-response functions revealed that subjects with light fundi had larger b-wave amplitudes at all luminance levels. There was a significant difference between groups for Vmax and n but not for log K. A comparison of b-wave implicit times showed no significant difference between subjects with dark and light fundi. Ancillary tests and multiple regression analysis suggested that the relationship between Vmax and fundus pigmentation could not be attributed to age, gender, refractive error, axial length or intraocular pressure. The results have implications for the collection of normative electroretinographic data and for the interpretation of electroretinogram results.

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“…Previous studies with skin electrodes have demonstrated that peak-to-peak amplitude can show variability as the skin electrode can move during the exam, reducing the amplitudes on the final steps as the electrodes lose adherence to the skin (11) . However, comparative studies demonstrated that the variability found with skin electrodes is similar to the variability found with corneal contact electrodes, and examiners need to ensure that the electrode is correctly placed close to the lower orbital rim during the entire exam (9,22) . The ISCEV protocol and the recommendation for each laboratory to determine its own normative values are extremely important for a high quality test.…”

Section: Discussionmentioning

confidence: 99%

Full-field electroretinogram recorded with skin electrodes in normal adults

Salomão¹,

Pereira²,

Berezovsky³

2016

Arquivos Brasileiros De Oftalmologia

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Approved by the following research ethics committee: Universidade Federal de São Paulo UNIFESP (#0174/04). ABSTRACT Purpose:Alternative recording methods have been tested to allow the electroretinogram (ERG) recording in uncooperative patients and/or patients with palpebral alterations, including recordings with skin electrodes. The purpose of this study was to compare ERG recorded with skin electrodes and well-established microfiber electrodes and to determine normative values of ERG parameters for recording with skin electrodes. Methods: Fifty healthy volunteers (17-26 years; mean 20.63 ± 2.01 years) participated in the study. A gold disk skin electrode was placed on the lower orbital rim of a randomly chosen eye. On the contralateral eye, a microfiber electrode was positioned in the lower conjunctival sac. Gold disc electrodes were positioned at the ipsilateral outer canthus of both eyes acting as reference electrodes for the creation of a potential difference. Two ground electrodes were placed on the lobe of each ear. ERGs were recorded according to the International Society of Clinical Electrophysiology Visual (ISCEV) protocol using the VERIS 5.1.9 system for data acquisition and analysis. Results: Both types of electrodes showed similar wave response morphologies. The implicit time of responses between the two electrodes was comparable. On peak-to-peak amplitude, skin electrode recordings showed an amplitude reduction of 61.4% for rod responses, 61.5% for maximal responses, 46.2% for oscillatory potentials, 57.4% for cone responses, and 54.4% for 30Hz-flicker responses, when compared with microfiber electrode recordings. Based on these findings, normative values for peak-to-peak amplitude and implicit time to be used as a reference for ERGs recorded with skin electrodes were determined. Conclusions: ERGs recorded with skin electrodes presented lower peak-to-peak amplitude compared with microfiber electrodes. However, using appropriate normative values, skin electrodes may be useful for specific target populations such as uncooperative infants and/or patients with ocular surface alterations.

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Dark-adapted luminance-response functions with skin and corneal electrodes

Cited by 20 publications

References 20 publications

The relationship between stimulus intensity and response amplitude for the photopic negative response of the flash electroretinogram

The relationship between stimulus intensity and response amplitude for the photopic negative response of the flash electroretinogram

Fundus pigmentation and the dark-adapted electroretinogram

Full-field electroretinogram recorded with skin electrodes in normal adults

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