Objective To evaluate the variability of four parameters of multi-focal electroretinogram (mERG) a-wave amplitude, b-wave amplitude, awave latent period, b-wave latent period. Methods Sixty normal eyes of 46 volunteers were divided into 3 groups of different ages. RETIscan 3-12 system was used to carry out mERG examination. The stimulus matrix of 61 hexagonal elements spanning the central 24deg;of the visual field. These hexons were scaled with eccentricity and divide d into 5 rings. First-order kernel was selected. Results The variability of four parameters of mERG was great. The variability of b-wave latent period was the smallest, its coefficient of variatian was 4.52%~15.62%;that of a-wave latent period held the second place:10.29%~48.67%;that of b-wave amplitude was greater:25.92%~76.11%;that of a-wave amplitude was the greatest:43.82%~88.23%. The results of three groups showed that b-wave amplitude of ring 1 had the smallest variability. Conclusions The variability of latent period is smaller than that of amplitude; the variability of b-wave was smaller than that of a-wave. The longer the centrifugal distance, the lower the amplitude density of a-wave and b-wave. Physiological and anatomical factors might be important for the variability of parameters of multi-focal electroretinogram. (Chin J Ocul Fundus Dis, 2001,17:277-279)
Objective Toinvestigate the influence of photocoagulation on macular function and morphous in patients with diabetic retinopathy (DR).Methods Forty eyes of thirty patients with severe nonproliferative diabetic retinopathy (NPDR) were examined by multifocal electroretinogram (mfERG) and optical coherence tomography (OCT) before and 2,7, and 14 days after photocoagulation. The results were statistically analyzed by using analysis of variance and t test; the changes of macular function and macular fovea thickness were detected and observed.Results P1 response densities of ring 1,3,and 5 were 131.79plusmn;50.92,37.50plusmn;17.27,24.07plusmn;11.49,respectively,2 days after photocoagulation; and were 212.96plusmn;53.75,46.70plusmn;15.89,and 30.91plusmn;10.78, respectively, before photocoagulation. The densities before and after photocoagulation differed much(t=7.910, 2.174, 2.205; Plt;0.05). N1 response density of ring 4 was(60.39plusmn;20.69) and the prephotocoagulation corresponding response density was (107.11plusmn;44.63); the difference was significant(t=5.375,Plt;0.01). The latency of P1 of ring 4 was(41.83plusmn;3.41),which had significant statistically difference(t=-2.770,Plt;0.05) with that before photocoagulation(39.52plusmn;2.64); there was no significant changes in the latency of N1 (Pgt;0.05). The most significant changes of P1 and N1 response densities occurred in the central macular 5deg; area. Seven days after photocoagulation, the response density of P1 and N1 in the central macular 5deg; area seemed to be recoverd to some extend and increased to (179.70plusmn;47.10)and (81.11plusmn;34.18) respectively until 14 days after photocoagulation, which was still much lower than that before the photocoagulation(t=3.840, 2.746; P<0.05); the response densities of other areas had no significant differences (P>0.05). Seven days after photocoagulation,the latency of P1 in ring 4 was delayed to(41.78plusmn;3.57), which had significant difference(t=-3.144,P<0.01)with that before the photocoagulation(39.52plusmn;2.64) ; but there was no significant difference between 14 days after photocoagulation and prephotocoagulation (t=-1.809,P>0.05). The latency of N1 in ring 1 was(20.67plusmn;3.85)at seven days after photocoagulation, It had no significant difference (t=-1.171,P>0.05) with that before the phtocoaguation(18.78plusmn;3.29). Before and 2 days after photocoagulation, the macular fovea thickness were(224.42plusmn;122.88)and(274.85plusmn;108.20)respectively, and the difference was statistically significant(t=-2.420,P<0.05). Forteen days after photocoagulation,the macular fovea thickness was(236.29plusmn;70.45),It had no significant difference with that before the photocoagulation(t=-0.578,P>0.05). Before and seven days after photocoagulation, P1 response density had obvious negative correlation with corresponding macular fovea thickness(r=-0.755,Plt;0.01; r=-0.594,Plt;0.05). Conclusions After photocoagulation in patients with DR,the macular function decreased in a certain degree,and the relationship of macular retinal function and macular morphology changes was close; combination of mfERG and OCT can evaluate macular function and macular morphology structure comprehensively and objectively.
ObjectiveTo evaluate the characteristics of electroretinagram (EGR) in children with history of pre-threshold or threshold retinopathy of prematurity (ROP). MethodsA total of 24 children (48 eyes) with history of pre-threshold ROP or threshold ROP received F-ERG examination.Ten age and body weight-matched children with a history of premature birth (20 eyes) but without ROP were recruited as control group. The rod response, maximal rod-cone response and cone response of F-ERG were recorded respectively following the International Standard Protocal of ISCEV (2000 version).The latency and amplitude of a-wave and b-wave of various responses were analyzed. The trial was approved by the Ethic Committee of Hunan Children's Hospital and informed consent was obtained from the parents of patients prior to any medical procedure. ResultsThere was significant difference between ROP and control group in rod response,the latency was longer (t=5.643,P<0.05) and the amplitude was lower in ROP group(t=7.068,P<0.05).In maximal rod-cone response both in a and b wave, the latency wave was longer(t=3.099, 2.886;P<0.05) and the amplitude was lower(t=5.614, 2.850;P<0.05) in ROP group. But there is no difference between ROP and control group in cone response latency(t=0.819, 0.948)and amplitude(t=0.904, 0.850). ConclusionERG in ROP children with history of pre-threshold or threshold ROP is abnormal, which mainly in rod response,but the cone response remains normal.
Commonly clinical visual electrophysiological detection methods include flash ERG, pattern ERG, VEP and multifocal ERG, etc. These inspection methods play an important role in disease identification and visual function judgment. However, lacking of understand the basic principles of electrophysiological testing, misunderstandings of the clinician influence the choice of examination methods or interpretation of examination results. The understanding of the basic principles of electrophysiological testing and analysis of the causes of these misunderstandings have important clinical significance in the correct application of visual electrophysiological testing technology.
ObjectiveTo observe the full-field ERG (ff-ERG) characteristics of patients with acute regional occult outer retinopathy (AZOOR).MethodsA retrospective observational study. From June 2017 to June 2019, 62 eyes of 42 patients (AZOOR group) who were diagnosed with AZOOR in the Department of Ophthalmology of West China Hospital of Sichuan University were included in the study. All patients had no obvious localized disease on the fundus. Among 62 eyes, BCVA of 16 eyes were<0.1, BCVA of 27 eyes were ≤0.5, and BCVA of 19 eyes were>0.5. From June 2018 to January 2019, 40 normal volunteers (80 eyes) who attended the outpatient clinic of West China Hospital of Sichuan University and passed detailed ophthalmological examination to exclude all eye diseases including refractive errors were selected as the normal control group. All the examined eyes were tested with ff-ERG using the German Roland visual electrophysiological inspection system. The peak times and amplitudes of the waveforms induced by each response of dark adaptation 0.01 ERG, dark adaptation 3.0 ERG, dark adaptation 3.0 ERG, light adaptation 3.0 ERG, and light adaptation 30 Hz flicker ERG were recorded, respectively. The peak time and amplitude of each ff-ERG response between the two groups were compared by independent sample t test. The peak time and amplitude of each ff-ERG response between different BCVA eyes in the AZOOR group were compared by variance test.ResultsCompared with the normal control group, 0.01 ERG b wave of the dark adaptation of AZOOR group (t=3.601, -6.120), 3.0 ERG a wave and b wave of dark adaptation (t=2.627, -4.263, 3.719, -5.866), 3.0 Oscillation potential P2 wave of dark adaptation (t=-6.625), 3.0 ERG a wave and b wave of bright adaptation (t=3.762, -3.612, 3.648, -3.739) and 30 Hz flicker ERG P wave of bright adaptation (t=-3.832), all peak time of those were significantly delayed, the amplitude decreased, and the difference was statistically significant (P<0.05). Comparison of different BCVA eyes in the AZOOR group showed that 0.01 ERG b wave amplitude of dark adaptation (F=3.950), 3.0 ERG a peak and b wave amplitude of dark adaptation (F=4.408, 4.876), oscillation potential P2 wave amplitude of dark adaptation (F=4.295), 3.0 ERG b wave amplitude of bright adaptation (F=4.344) and 30 Hz flicker ERG P wave amplitude of bright adaptation (F=4.483) of differences were statistically significant (P<0.05). There was no statistically significant difference in waveform peak time and amplitude of the other reactions (P>0.05). Pairwise comparison results showed that, compared with those with 0.1≤BCVA≤0.5 and BCVA>0.5, those with BCVA<0.1 dark adaptation to 0.01 ERG b wave, dark adaptation 3.0 ERG b wave, dark adaptation oscillation potential P2 wave, and light adaptation 3.0 ERG b wave and light adaptation 30 Hz scintillation ERG P wave amplitude were significantly reduced, and dark adaptation to 3.0 ERG a peak was significantly delayed, the difference was statistically significant (P<0.05).ConclusionsThe ff-ERG of patients with AZOOR show delayed peak time and decreased amplitude of each response. The worse BCVA are accompanied by the more obvious decrease of each response amplitude of ff-ERG.
Flicker and photopic eletroretinogram(ERG)were recorded for 45 eyes of dry type of age-related macular degeneration(AMD)and 24 eyes of wet type of AMD respectively,the amplitud and phase of fundamental response compomeng(30Hz)by discrete Fourier tranform(DFT)were analysed.The abnormality ratios of phases and amplitudes in fundamental responses,amplitudes of photopic white or red b-waves were 48.89%,8.89%,10.11% and 8.89% respectively.The visual acuities of 24 eyes were 1.0 or better,the abnormality ratios of phases were up to 37.50%.These suggest that the change of phases is a sensitive method for detecting the early abnormality of visual function in AMD.The abnormality ratios of phases and amplitudes in fundamental responses were 62.5% and 45.84% in wet type of AMD.The differences between dry type and wet type in amplitudes of fundamental responses and photopic b-waves were statistically significant(P<0.01).This shows that the change of amplitudes is associated with the degree of pathological change of AMD. (Chin J Ocul Fundus Dis,1996,12: 41-43)
Objective To explore the effect of ischemia-reperfusion injury on the retinal functions of rats. Methods Seventy Wistar rats were selected, 20 of which were selected randomly and divided into two groups (control group and single-irrigated group). The rats were anesthetized and their anterior chambers of the right eyes were cannulated with a 7-gauge needle connected to a reservoir containing ringers balanced salt solution, which was maintained at the same level o f the eye for 1 hour. After that, ERG was recorded in both eyes of all rats. All the left rats were divided randomly into 10 groups and they were treated as the single-irrigated group. Retinal ischemia was induced by raising the reservoir to a height of 150 mm Hg. One hour later except the single ischemia group, all o f t he groups resumed perfusion after 3,6,12,and 24 hours and 3,5,7,14,and 21 days s eparately. ERG was recorded in both eyes of all rats.Results There was no difference in the results of ERG between left and right eyes in either the control group or the single-irrigated group. All the waves of ERG vanished in the single-ischemia group after 1 hour. In the ischemia-reperfusion groups, the waves of ERG partly recovered and the amplitude reduced persistently and progressively.Conclusion Ischemia-reperfusion injury may affect the function of the retina persistently and progressively. (Chin J Ocul Fundus Dis,2003,19:201-268)
Purpose To measure and compare the difference of multifocal electroretinogram in normal subjects and patients with age-related macular degeneration. Methods Seventeen cases(20 eyes)of normal subjects,7 cases(10 eyes)of dry form AMD(age-related macular degeneration),8 cases(8 eyes)of wet-form AMD and 11 cases(11 eyes)of idiopathic macular hole(IMH)were tested with VERIS SciencesTM 4.0 made by EDI company of America.The latencies and average response densities of 6 ring retinal regions in normal subjects were compared with those in various types of age-related maculopathies. Results The N1 and P1 wave latencies of all 6 rings in wet-form AMD and the N1 wave latencies of 3~6 rings in dry-form AMD were delayed statistically.The N1 and P1 wave average response densities of 1~4 rings in and the P1 wave average response densities of 1-6 rings wet-form AMD and the N 1 wave average response densities of 1~5 and the P1 wave average response densties of 1-6 rings in dry-form AMD were decreased statistically.The N1 and P1 wave average response densities of 1~2 and the P1 wave average esponse densities of 1~3 rings were decrease statistically in IMH. Conclusion Multifocal electroretinogram can be used to quantitate the visual function of the affected location in age-related macular degeneration. (Chin J Ocul Fundus Dis,2000,16:224-226)
Objective To explore the clinical application value of multifocal oscillatory potentials (MOPs) in retinal vein occlusion (RVO). Methods MOPs were tested using VERIS 4.0 visual evoked response imaging system for 19 cases (19 eyes) of RVO,among them 8 cases of central retinal vein occlusion (CRVO) and 11 cases of branch retinal vein occlusion (BRVO). Twenty normal subjects were as normal control group. The stimulative visual angles subtended ±26.6°horizontally and ±22.1°vertically. The filter setting was bandpass 100~1000 Hz. The retinal responses from 103 hexagons were recorded in 4 min (8 segments). Results In normal control group, OP-1, OP-2 and OP-3 were recorded during 37 ms for first order and 47 ms for second order first slice in whole test field and 5 ring retinal regions, the oscillatory wave shapes of second order were clearer than those of first order. In RVO groups, 91.6% latencies of OP-1, OP-2 and OP-3 were delayed, and 70.8% amplitudes of OP-1, OP-2 and OP-3 were reduced. The delay of the latencies and the decrease of the amplitude in CRVO were more markedly than those in BRVO. Conclusion MOPs can be effectively and quantitatively used to evaluate the retinal function of the different location in RVO. (Chin J Ocul Fundus Dis,2002,18:20-22)
Objective To observe the changes of the multifocal electr oretinograph (mf-ERG) in commotio retinae. Methods The affected eyes (traumatic group) and the fellow eyes (control group) of 31 patients with unilateral commotio retinae were examined by RETI scan 3.15 system. The responses of 61 retinal regions were recorded, and the average amplitude densities of the N1 (the first negative) wave and P1 (the first positive) wave in different regions of retinal were analyzed. Results The average amplitude densities of 1-4 rings in N1wave and 1-5 rings in P1wave were much lower in traumatic group than those in the control. Conclusions The average amplitude densities of N1wave and P1wave of mf-ERG in retin al affected regions decreases markedly in eyes with commotio retina; mf-ERG may provide the quantificational and orientational detection for the visual ability of the eyes with commotio retinae.(Chin J Ocul Fundus Dis,2004,20:226-228)