Anatomy of blood microcirculation in the pig epicardial ganglionated nerve plexus

IF 2 3区 医学 Q2 ANATOMY & MORPHOLOGY Annals of Anatomy-Anatomischer Anzeiger Pub Date : 2024-06-01 DOI:10.1016/j.aanat.2024.152285
Dmitrij Kvitka , Dainius H. Pauza
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Abstract

Embolization of coronary arteries and their terminal arterioles causes ischemia of all tissues distributed within a cardiac wall including the intrinsic cardiac ganglionated nerve plexus (ICGP). The disturbed blood supply to the ICGP causes chronic sympathetic activation with succeeding atrial and ventricular arrhythmias. This study analyses the anatomy of microcirculation of epicardial nerves and ganglia using the hearts of 11 domestic pigs. Our findings demonstrate that thicker epicardial nerves are normally supplied with blood via 12 epineural arterioles penetrating the endoneurium regularly along a nerve, and forming an endoneurial capillary network, which drains the blood into the myocardial blood flow. The mean diameter of intraneural capillaries was 7.2 ± 0.2 µm, while the diameters of arterioles were 25.8 ± 0.7 μm and involved 45 endothelial cells accompanied by circular smooth muscle cells. Usually, two or three arterioles with a mean diameter of 28.9 ± 1.7 μm supplied blood to any epicardial ganglion, in which arterioles proceeded into a network of capillaries with a mean diameter of 6.9 ± 0.3 μm. Both the epicardial nerves and the ganglia distributed near the porta venarum of the heart had tiny arterioles that anastomosed blood vessels from the right and the left coronary arteries. The density of blood vessels in the epicardial nerves was significantly lesser compared with the ganglia. Our electron microscopic observations provided evidence that blood vessels of the pig epicardial nerves and ganglia may be considered as either arterioles or capillaries that have quantitative and qualitative differences comparing to the corresponding blood vessels in humans and, therefore, a pig should not be considered as an animal model of the first choice for further heart functional studies seeking to improve the treatment of cardiac arrhythmias via trans-coronary cardiac neuroablation.

Structured abstract

This study details the anatomy of microcirculation of epicardial nerves and ganglia, from which intracardiac nerves and bundles of nerve fibers extend into all layers of the atrial and ventricular walls in the most popular animal model of experimental cardiology and cardiac surgery - the domestic pig. Our findings provided evidence that blood vessels of the pig epicardial nerves and ganglia may be considered as either arterioles or capillaries that have quantitative and qualitative differences comparing to the corresponding blood vessels in humans and, therefore, a pig should not be considered as an animal model of the first choice for further heart functional studies seeking to improve the treatment of cardiac arrhythmias via trans-coronary cardiac neuroablation.

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猪静脉丛血液微循环解剖学》(ANATOMY OF Blood Micro Circulation IN THE PIG EPICARDIAL GANGLIONATED NERVE PLEXUS)。
冠状动脉及其末端小动脉栓塞会导致分布在心壁内的所有组织缺血,包括固有的心脏节神经丛(ICGP)。ICGP 的血液供应紊乱会导致交感神经慢性激活,继而引发房性和室性心律失常。本研究利用 11 头家猪的心脏分析了心外膜神经和神经节微循环的解剖结构。我们的研究结果表明,较粗的心外膜神经通常通过 12 条外膜动脉血管沿着神经有规律地穿透内膜,形成内膜毛细血管网,将血液引流到心肌血流中。硬膜内毛细血管的平均直径为 7.2 ± 0.2 μm,而动脉血管的直径为 25.8 ± 0.7 μm,涉及 45 个内皮细胞和环状平滑肌细胞。通常有两到三条平均直径为 28.9 ± 1.7 μm 的动脉向任何一个心外膜神经节供血,其中动脉进入平均直径为 6.9 ± 0.3 μm 的毛细血管网。分布在心脏静脉口附近的心外膜神经和神经节都有细小的动脉血管,与来自左右冠状动脉的血管吻合。心外膜神经的血管密度明显低于神经节。我们的电子显微镜观察结果证明,猪心外膜神经和神经节的血管可被视为动脉血管或毛细血管,与人类的相应血管相比在数量和质量上都存在差异,因此不应将猪作为进一步进行心脏功能研究的首选动物模型,以寻求通过经冠状动脉心脏神经消融术改善心律失常的治疗。结构式摘要:本研究详细描述了心外膜神经和神经节微循环的解剖结构,在实验心脏病学和心脏外科最常用的动物模型--家猪中,心内神经和神经纤维束从心外膜神经和神经节延伸到心房壁和心室壁的各层。我们的研究结果证明,猪心外膜神经和神经节的血管可被视为动脉血管或毛细血管,与人类的相应血管相比,它们在数量和质量上都存在差异,因此不应将猪作为进一步进行心脏功能研究的首选动物模型,以寻求通过经冠状动脉心脏神经消融术改善心律失常的治疗。
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来源期刊
Annals of Anatomy-Anatomischer Anzeiger
Annals of Anatomy-Anatomischer Anzeiger 医学-解剖学与形态学
CiteScore
4.40
自引率
22.70%
发文量
137
审稿时长
33 days
期刊介绍: Annals of Anatomy publish peer reviewed original articles as well as brief review articles. The journal is open to original papers covering a link between anatomy and areas such as •molecular biology, •cell biology •reproductive biology •immunobiology •developmental biology, neurobiology •embryology as well as •neuroanatomy •neuroimmunology •clinical anatomy •comparative anatomy •modern imaging techniques •evolution, and especially also •aging
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