Multifocal electroretinography increases following experimental glaucoma in nonhuman primates with retinal ganglion cell axotomy.

IF 2.6 4区 医学 Q2 OPHTHALMOLOGY Documenta Ophthalmologica Pub Date : 2023-04-01 Epub Date: 2023-02-10 DOI:10.1007/s10633-023-09922-1
T Michael Nork, Charlene B Y Kim, Alexander W Katz, Carol A Rasmussen, Mark Banghart, James N Ver Hoeve
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Abstract

Purpose: To determine whether short-latency changes in multifocal electroretinography (mfERG) observed in experimental glaucoma (EG) are secondary solely to retinal ganglion cell (RGC) loss or whether there is a separate contribution from elevated intraocular pressure (IOP).

Methods: Prior to operative procedures, a series of baseline mfERGs were recorded from six rhesus macaques using a 241-element unstretched stimulus. Animals then underwent hemiretinal endodiathermy axotomy (HEA) by placing burns along the inferior 180° of the optic nerve margin in the right eye (OD). mfERG recordings were obtained in each animal at regular intervals following for 3-4 months to allow stabilization of the HEA effects. Laser trabecular meshwork destruction (LTD) to elevate IOP was then performed; first-order kernel (K1) waveform root-mean-square (RMS) amplitudes for the short-latency segment of the mfERG wave (9-35 ms) were computed for two 7-hexagon groupings-the first located within the superior (non-axotomized) macula and the second within the inferior (axotomized) macula. Immunohistochemistry for glial fibrillary acidic protein (GFAP) was done.

Results: By 3 months post HEA, there was marked thinning of the inferior nerve fiber layer as measured by optical coherence tomography. Compared with baseline, no statistically significant changes in 9-35 ms K1 RMS amplitudes were evident in either the axotomized or non-axotomized portions of the macula. Following LTD, mean IOP in HEA eyes rose to 46 ± 9 compared with 20 ± 2 mmHg (SD) in the fellow control eyes. In the HEA + EG eyes, statistically significant increases in K1 RMS amplitude were present in both the axotomized inferior and non-axotomized superior portions of the OD retinas. No changes in K1 RMS amplitude were found in the fellow control eyes from baseline to HEA epoch, but there was a smaller increase from baseline to HEA + EG. Upregulation of GFAP in the Müller cells was evident in both non-axotomized and axotomized retina in eyes with elevated IOP.

Conclusions: The RMS amplitudes of the short-latency mfERG K1 waveforms are not altered following axotomy but undergo marked increases following elevated IOP. This suggests that the increase in mfERG amplitude was not solely a result of RGC loss and may reflect photoreceptor and bipolar cell dysfunction and/or changes in Müller cells.

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非人灵长类实验性青光眼视网膜神经节细胞轴突切除术后多灶视网膜电图增加。
目的:确定在实验性青光眼(EG)中观察到的多焦点视网膜电图(mfERG)的短时程变化是否仅继发于视网膜神经节细胞(RGC)缺失,或者是否与眼压(IOP)升高有关:方法:在手术前,使用 241 元非拉伸刺激物记录了六只猕猴的一系列基线 mfERG。然后,通过在右眼(OD)视神经缘下180°处放置烧伤物,对动物进行半视网膜内放射热疗轴切术(HEA)。在术后3-4个月内,每只动物都会定期获得mfERG记录,以便稳定HEA的效果。然后进行激光小梁网破坏(LTD)以升高眼压;计算了两个 7 六角形分组的 mfERG 波短延时段(9-35 毫秒)的一阶核(K1)均方根(RMS)振幅--第一个分组位于黄斑上部(非轴切),第二个分组位于黄斑下部(轴切)。对神经胶质纤维酸性蛋白(GFAP)进行免疫组化:结果:HEA术后3个月,光学相干断层扫描显示下神经纤维层明显变薄。与基线相比,在黄斑的轴切或非轴切部分,9-35 毫秒 K1 RMS 振幅均无明显的统计学变化。LTD后,HEA眼的平均眼压升至46 ± 9 mmHg(标清),而对照组眼的平均眼压为20 ± 2 mmHg(标清)。在 HEA + EG 眼睛中,视网膜外侧轴切下部和非轴切上部的 K1 RMS 振幅都出现了统计学意义上的显著增加。同组对照眼的 K1 RMS 振幅从基线到 HEA 时程没有变化,但从基线到 HEA + EG 时程的增幅较小。在眼压升高的非轴切眼和轴切眼视网膜中,Müller细胞中的GFAP均明显上调:结论:轴切术后,短延时 mfERG K1 波形的有效值振幅没有改变,但眼压升高后,其有效值振幅明显增加。这表明,mfERG振幅的增加并不仅仅是RGC缺失的结果,它可能反映了感光细胞和双极细胞的功能障碍和/或Müller细胞的变化。
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来源期刊
Documenta Ophthalmologica
Documenta Ophthalmologica 医学-眼科学
CiteScore
3.50
自引率
21.40%
发文量
46
审稿时长
>12 weeks
期刊介绍: Documenta Ophthalmologica is an official publication of the International Society for Clinical Electrophysiology of Vision. The purpose of the journal is to promote the understanding and application of clinical electrophysiology of vision. Documenta Ophthalmologica will publish reviews, research articles, technical notes, brief reports and case studies which inform the readers about basic and clinical sciences related to visual electrodiagnosis and means to improve diagnosis and clinical management of patients using visual electrophysiology. Studies may involve animals or humans. In either case appropriate care must be taken to follow the Declaration of Helsinki for human subject or appropriate humane standards of animal care (e.g., the ARVO standards on Animal Care and Use).
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