Super-Resolution Microscopy: A Technique to Revolutionize Research and Diagnosis of Glomerulopathies.

Glomerular diseases Pub Date : 2023-01-01 DOI:10.1159/000528713

Florian Siegerist, Vedran Drenic, Thor-Magnus Koppe, Nihal Telli, Nicole Endlich

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引用次数: 3

Abstract

Background: For decades, knowledge about glomerular (patho)physiology has been tightly linked with advances in microscopic imaging technology. For example, the invention of electron microscopy was required to hypothesize about the mode of glomerular filtration barrier function.

Summary: Super-resolution techniques, defined as fluorescence microscopy approaches that surpass the optical resolution limit of around 200 nm, have been made available to the scientific community. Several of these different techniques are currently in use in glomerular research. Using three-dimensional structured illumination microscopy, the exact morphology of the podocyte filtration slit can be morphometrically analyzed and quantitatively compared across samples originating from animal models or human biopsies.

Key messages: Several quantitative image analysis approaches and their potential influence on glomerular research and diagnostics are discussed. By improving not only optical resolution but also information content and turnaround time, super-resolution microscopy has the potential to expand the diagnosis of glomerular disease. Soon, these approaches could be introduced into glomerular disease diagnosis.

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超分辨率显微镜:一种革新肾小球疾病研究和诊断的技术。

背景:几十年来，关于肾小球(病理)生理学的知识与显微成像技术的进步紧密相关。例如，需要发明电子显微镜来推测肾小球滤过屏障功能的模式。摘要:超分辨率技术，定义为超过200纳米光学分辨率极限的荧光显微镜方法，已经提供给科学界。其中几种不同的技术目前正在肾小球研究中使用。使用三维结构照明显微镜，足细胞滤过缝隙的确切形态可以进行形态计量学分析和定量比较来自动物模型或人类活检的样品。本文讨论了几种定量图像分析方法及其对肾小球研究和诊断的潜在影响。通过提高光学分辨率，信息内容和周转时间，超分辨率显微镜有可能扩大肾小球疾病的诊断。不久，这些方法将被引入肾小球疾病的诊断。

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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Glomerular diseases

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