定量分析和人类肌间神经丛的神经化学编码：远端结肠和直肠之间无区域性差异。

Quantification and neurochemical coding of the myenteric plexus in humans: No regional variation between the distal colon and rectum.

机构信息

Academic Colorectal Unit, Sydney Medical School - Concord, University of Sydney, Concord, New South Wales, Australia.

Department of Integrative Physiology, School of Medicine, University of Western Sydney, Campbelltown, New South Wales, Australia.

出版信息

Neurogastroenterol Motil. 2018 Mar;30(3). doi: 10.1111/nmo.13193. Epub 2017 Aug 24.

DOI:10.1111/nmo.13193

PMID:28836741

Abstract

BACKGROUND

It remains unclear whether regional variation exists in the human enteric nervous system (ENS) ie, whether intrinsic innervation varies along the gut. Recent classification of gastrointestinal neuropathies has highlighted inadequacies in the quantification of the human ENS. This study used paired wholemounts to accurately quantify and neurochemically code the hindgut myenteric plexus, comparing human distal colon and rectum.

METHODS

Paired human descending colonic/rectal specimens were procured from 15 patients undergoing anterior resection. Wholemounts of myenteric plexi were triple-immunostained with anti-Hu/NOS/ChAT antibodies. Images were acquired by motorized epifluorescence microscopy, allowing assessment of ganglionic density/size, ganglionic area density, and neuronal density. 'Stretch-corrected' values were calculated using stretched/relaxed tissue dimensions.

KEY RESULTS

Tile-stitching created a collage with average area 99 300 000 μm . Stretch-corrected ganglionic densities were similar (colon: median 510 ganglia/100 mm [range 386-1170], rectum: 585 [307-923]; P = .99), as were average ganglionic sizes (colon: 57 593 μm [40 301-126 579], rectum: 54 901 [38 701-90 211], P = .36). Ganglionic area density (colon: 11.92 mm per 100 mm [7.53-18.64], rectum: 9.84 [5.80-17.19], P = .10) and stretch-corrected neuronal densities (colon: 189 neurons/mm [117-388], rectum: 182 [89-361], P = .31) were also similar, as were the neurochemical profiles of myenteric ganglia, with comparable proportions of NOS+ and ChAT+ neurons (P > .10).

CONCLUSIONS AND INFERENCES

This study has revealed similar neuronal and ganglionic densities and neurochemical profiles in human distal colon and rectum. Further investigation of other components of the ENS, incorporating additional immunohistochemical markers are required to confirm that there is no regional variation in the human hindgut ENS.

摘要

背景

人类肠神经系统（ENS）是否存在区域性差异尚不清楚，即内在神经支配是否沿肠道变化。最近对胃肠道神经病变的分类突出了量化人类 ENS 的不足。本研究使用配对的全层切片准确地定量和神经化学编码回肠固有层神经丛，比较了人类远端结肠和直肠。

方法

从 15 例接受前切除术的患者中获取配对的降结肠/直肠远端标本。用抗 Hu/NOS/ChAT 抗体对全层固有层神经丛进行三重免疫染色。通过电动荧光显微镜采集图像，允许评估神经节密度/大小、神经节面积密度和神经元密度。使用拉伸/松弛组织尺寸计算“拉伸校正”值。

主要结果

平铺拼接创建了一个平均面积为 9930 万 μm 的拼贴画。拉伸校正后的神经节密度相似（结肠：中位数 510 个神经节/100mm [范围 386-1170]，直肠：585 [307-923]；P=0.99），平均神经节大小也相似（结肠：57593 μm [40301-126579]，直肠：54901 μm [38701-90211]，P=0.36）。神经节面积密度（结肠：每 100mm 11.92mm [7.53-18.64]，直肠：9.84 [5.80-17.19]，P=0.10）和拉伸校正后的神经元密度（结肠：189 个神经元/mm [117-388]，直肠：182 [89-361]，P=0.31）也相似，固有层神经节的神经化学特征相似，NOS+和 ChAT+神经元的比例相当（P>0.10）。

结论和推论

本研究揭示了人类远端结肠和直肠中相似的神经元和神经节密度和神经化学特征。需要进一步研究 ENS 的其他成分，结合其他免疫组织化学标志物，以确认人类回肠 ENS 没有区域性差异。

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定量分析和人类肌间神经丛的神经化学编码：远端结肠和直肠之间无区域性差异。

Quantification and neurochemical coding of the myenteric plexus in humans: No regional variation between the distal colon and rectum.

机构信息

出版信息

BACKGROUND

METHODS

KEY RESULTS

CONCLUSIONS AND INFERENCES

背景

方法

主要结果

结论和推论

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