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假体电极下视网膜的高分辨率光学相干弹性成像

High resolution optical coherence elastography of retina under prosthetic electrode.

作者信息

Li Runze, Du Zhaodong, Qian Xuejun, Li Yan, Martinez-Camarillo Juan-Carlos, Jiang Laiming, Humayun Mark S, Chen Zhongping, Zhou Qifa

机构信息

Department of Biomedical Engineering, University of Southern California, Los Angeles, CA, USA.

USC Roski Eye Institute, University of Southern California, Los Angeles, CA, USA.

出版信息

Quant Imaging Med Surg. 2021 Mar;11(3):918-927. doi: 10.21037/qims-20-1137.

DOI:10.21037/qims-20-1137
PMID:33654665
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7829169/
Abstract

BACKGROUND

Quantitatively investigating the biomechanics of retina with a retinal prosthetic electrode, we explored the effects of the prosthetic electrode on the retina, and further supplemented data for a potential clinical trial.

METHODS

Biomechanical properties were assessed with a high resolution optical coherence tomography (OCT) based elastography (OCE) system. A shaker was used to initiate elastic waves and an OCT system was used to track axial displacement along with wave propagation. Rabbits received surgery to implant the retinal prosthetic electrode, and elastic wave speed was measured before and after implantation; anatomical B-mode images were also acquired.

RESULTS

Spatial-temporal maps of each layer in retina with and without prosthetic electrodes were acquired. Elastic wave speed of nerve fiber to inner plexiform layer, inner nuclear to outer nuclear layer, retinal pigmented epithelium layer and choroid to sclera layer without prosthetic electrode were found to be 3.66±0.36, 5.33±0.07, 6.85±0.37, and 9.69±0.24 m/s, respectively. With prosthetic electrode, the elastic wave speed was found to be 4.09±0.26, 5.14±0.11, 6.88±0.70, and 9.99±0.73 m/s, respectively in each layer.

CONCLUSIONS

Our results show that the elastic wave speed in each layer of retina is slightly faster with the retinal electrode, and further demonstrate that the retinal prosthetic electrode does not affect biomechanical properties significantly. In the future, we expect OCE technology to be used by clinicians where it could become part of routine testing and evaluation of the biomechanical properties of the retina in response to long term use of prosthetic electrodes in patients.

摘要

背景

通过视网膜假体电极定量研究视网膜生物力学,我们探讨了假体电极对视网膜的影响,并进一步为潜在的临床试验补充数据。

方法

使用基于高分辨率光学相干断层扫描(OCT)的弹性成像(OCE)系统评估生物力学特性。使用振动器引发弹性波,并使用OCT系统跟踪轴向位移以及波的传播。兔子接受手术植入视网膜假体电极,并在植入前后测量弹性波速度;还采集了解剖学B模式图像。

结果

获取了有无假体电极时视网膜各层的时空图。发现无假体电极时神经纤维层至内丛状层、内核层至外核层、视网膜色素上皮层以及脉络膜至巩膜层的弹性波速度分别为3.66±0.36、5.33±0.07、6.85±0.37和9.69±0.24米/秒。有假体电极时,各层的弹性波速度分别为4.09±0.26、5.14±0.11、6.88±0.70和9.99±0.73米/秒。

结论

我们的结果表明,使用视网膜电极时视网膜各层的弹性波速度略快,进一步证明视网膜假体电极不会显著影响生物力学特性。未来,我们期望临床医生使用OCE技术,该技术可成为对长期使用假体电极患者视网膜生物力学特性进行常规检测和评估的一部分。