Morphometrical analysis of myelinated nerve fibers: is there a room for improvement?

IF 1.2 4区 医学 Q3 ANATOMY & MORPHOLOGY Anatomical Science International Pub Date : 2024-09-10 DOI:10.1007/s12565-024-00801-6
Taras Kotyk, Thomas C. Varkey, Anastasiia Demydchuk, Svitlana Shamalo, Nadiya Tokaruk, Viktoriia Bedei, Omelian Yurakh, Oksana Popadynets
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Abstract

Despite advancements in automatic approaches for histomorphometry analysis of peripheral nerves, manual and semi-automated methods are widely utilized. Standard software functions are often unsuitable for analysis due to their irregular shapes, especially in pathological conditions. This study aims to assess the reproducibility of nerves morphometric analysis and compare results obtained using both default and new alternative algorithms. Sciatic nerves from Wistar rats (untreated and after administration of intraperitoneal hydrargyrum chloride), previously embedded in resin, were used. Morphometric analysis (diameters, myelin thickness, g-ratio, and circularity) was conducted using ImageJ on semithin sections, with axon and myelin boundaries manually outlined. Default diameters were calculated as the mean of Feret diameters, with subsequent calculations for myelin thickness and g-ratio. The alternative approach estimated diameters based on the geometric center of axons, iterating through selected coordinates; myelin thickness was obtained using line equations. In the control group, inter-rater agreement was higher or within expected reliability (0.8 ± 0.05). However, in the experimental group, myelin thickness, g-ratio, and axon circularity showed lower agreement (0.66, 0.58, and 0.68, respectively) without visible patterns on Bland–Altman plots. The alternative approach did not reveal significant differences between approaches, except for g-ratio in the control group and fiber diameter in the experimental group (p < 0.05), with effect sizes of 0.29–0.30 and 0.19–0.20, respectively. This study highlights reduced agreement among investigators analyzing nerve fibers under pathological conditions, raising concerns about the current standard measurement methods. The proposed approach, based on a single geometric center, provides more natural estimations for irregular fibers, and can be implemented in automated nerve fibers acquisition systems.

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髓鞘神经纤维形态计量分析:是否有改进的余地?
尽管外周神经组织形态分析的自动方法不断进步,但手动和半自动方法仍被广泛使用。由于神经形状不规则,特别是在病理情况下,标准软件功能往往不适合分析。本研究旨在评估神经形态计量分析的可重复性,并比较使用默认算法和新替代算法得出的结果。研究使用了 Wistar 大鼠的坐骨神经(未经处理和腹腔注射氯化氢脲后),这些坐骨神经之前已嵌入树脂中。使用 ImageJ 对半薄切片进行形态计量分析(直径、髓鞘厚度、g 比率和圆度),并手动勾勒出轴突和髓鞘的边界。默认直径以 Feret 直径的平均值计算,随后计算髓鞘厚度和 g 比率。另一种方法是根据轴突的几何中心估算直径,通过选定的坐标进行迭代;髓鞘厚度则通过线性方程计算得出。在对照组中,评分者之间的一致性较高或在预期的可靠性范围内(0.8 ± 0.05)。然而,在实验组中,髓鞘厚度、g 比率和轴突圆度的一致性较低(分别为 0.66、0.58 和 0.68),在布兰-阿尔特曼图上没有明显的模式。除了对照组的 g 比率和实验组的纤维直径(p <0.05)的效应大小分别为 0.29-0.30 和 0.19-0.20 外,替代方法并未显示出不同方法之间的显著差异。这项研究强调了在病理条件下分析神经纤维的研究人员之间的一致性降低,从而引起了人们对当前标准测量方法的担忧。所提出的方法以单一几何中心为基础,可对不规则纤维进行更自然的估计,并可在自动神经纤维采集系统中实施。
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来源期刊
Anatomical Science International
Anatomical Science International 医学-解剖学与形态学
CiteScore
2.80
自引率
8.30%
发文量
50
审稿时长
>12 weeks
期刊介绍: The official English journal of the Japanese Association of Anatomists, Anatomical Science International (formerly titled Kaibogaku Zasshi) publishes original research articles dealing with morphological sciences. Coverage in the journal includes molecular, cellular, histological and gross anatomical studies on humans and on normal and experimental animals, as well as functional morphological, biochemical, physiological and behavioral studies if they include morphological analysis.
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