Precise longitudinal monitoring of corneal change through in vivo confocal microscopy in a rat dry eye disease model.

IF 1.8 3区医学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecular Vision Pub Date : 2024-03-20 eCollection Date: 2024-01-01

Minjie Chen, Stefanie Seo, Xianni Simmons, Youssef Maroud, Trystin Wong, William Schubert, Samuel C Yiu

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引用次数: 0

Abstract

Purpose: While lacrimal gland removal is commonly used in animal models to replicate dry eye disease, research into systematically monitoring dry eye disease's longitudinal pathological changes is limited. In vivo confocal microscopy (Heidelberg Retina Tomograph 3 with a Rostock Cornea Module, Heidelberg Engineering Inc., Franklin, MA) can non-invasively reveal corneal histopathological structures. To monitor dry-eye-disease-related changes in corneal structures, we developed a precise monitoring method using in vivo confocal microscopy in a rat double lacrimal gland removal model.

Methods: Five Sprague-Dawley rats (age 8-9 weeks, male) underwent double lacrimal gland removal. Modified Schirmer's tear test, blink tests, and in vivo confocal microscopy images were acquired pre-surgery and at 1, 2, and 4 weeks post-surgery. Three individual stromal nerves were selected per eye as guide images, and images of the corresponding sub-basal nerve plexus area were acquired via volume acquisition. The same area was re-imaged in subsequent weeks.

Results: After double lacrimal gland removal, tear production was reduced by 60%, and the blink rate increased 10 times compared to pre-surgery. Starting from 1 week after surgery, in vivo confocal microscopy showed increased sub-basal nerve plexus nerve fiber density with inflammatory cell infiltration at the sub-basal nerve plexus layer and remained at an elevated level at 2 and 4 weeks post-surgery.

Conclusions: We demonstrated that our precise monitoring method revealed detailed changes in the corneal nerves, the epithelium, and the stroma.

本刊更多论文

在大鼠干眼症模型中，通过体内共聚焦显微镜精确纵向监测角膜变化。

目的：虽然泪腺摘除通常用于复制干眼症动物模型，但系统监测干眼症纵向病理变化的研究却很有限。体内共焦显微镜（带罗斯托克角膜模块的海德堡视网膜断层显像仪 3，马萨诸塞州富兰克林市海德堡工程公司）可以非侵入性地显示角膜组织病理学结构。为了监测干眼症相关的角膜结构变化，我们在大鼠双泪腺摘除模型中使用体内共聚焦显微镜开发了一种精确的监测方法：方法：五只 Sprague-Dawley 大鼠（8-9 周龄，雄性）接受双泪腺摘除术。在手术前和手术后 1、2 和 4 周采集了改良施尔默泪液试验、眨眼试验和体内共聚焦显微镜图像。每只眼睛选择三条基质神经作为引导图像，并通过容积采集获得相应基质下神经丛区域的图像。随后几周对同一区域进行再次成像：结果：双泪腺摘除术后，泪液分泌量比术前减少了 60%，眨眼率比术前增加了 10 倍。从术后 1 周开始，体内共聚焦显微镜显示基底神经丛下神经纤维密度增加，基底神经丛下层有炎症细胞浸润，术后 2 周和 4 周仍保持较高水平：我们的精确监测方法显示了角膜神经、上皮和基质的详细变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Vision 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Molecular Vision is a peer-reviewed journal dedicated to the dissemination of research results in molecular biology, cell biology, and the genetics of the visual system (ocular and cortical). Molecular Vision publishes articles presenting original research that has not previously been published and comprehensive articles reviewing the current status of a particular field or topic. Submissions to Molecular Vision are subjected to rigorous peer review. Molecular Vision does NOT publish preprints. For authors, Molecular Vision provides a rapid means of communicating important results. Access to Molecular Vision is free and unrestricted, allowing the widest possible audience for your article. Digital publishing allows you to use color images freely (and without fees). Additionally, you may publish animations, sounds, or other supplementary information that clarifies or supports your article. Each of the authors of an article may also list an electronic mail address (which will be updated upon request) to give interested readers easy access to authors.