Anatomical characterisation of an additional atrioventricular node artery contributing to the arterial complex of proximal conduction components: Bonapace's septal branch or Kugel's collateral artery.

IF 2.8 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Open Heart Pub Date : 2025-09-11 DOI:10.1136/openhrt-2025-003520

Tomokazu Kawashima

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引用次数: 0

Abstract

Background: Transient or permanent iatrogenic conduction disturbances from injury to arteries supplying the cardiac conduction system (CCS) have increased. A more comprehensive understanding of CCS arterial anatomy is essential for advancing electrophysiological studies. Compared with the sinus node (SN) artery, atrioventricular node (AVN) artery is more variable and difficult to identify because of the thicker surrounding myocardium. Arterial sources other than the main AVN artery branching near the cardiac crux-such as the Bonapace's septal branch or Kugel's collateral artery-have often been overlooked or regarded as atypical and remain poorly characterised.

Methods: An alternative origin and course of the AVN artery were examined in 116 hearts via microdissection and in 14 additional hearts using serial histological sections of physiologically aged hearts without coronary artery occlusion.

Results: An additional descending AVN artery was observed in 22.4% of cases and an interatrial septal branch extending to Koch's triangle was found in 11.2% based on the macroscopic analysis-findings aligning well with the histologically verified incidence of 35.7%. These results suggest that approximately one-third of individuals exhibit an additional descending AVN artery with features resembling the normal Bonapace's septal branch. Notably, this additional artery originates from a common trunk with the SN artery and Bachmann's bundle branches, forming an arterial complex supplying the proximal conduction components.

Conclusions: Using a large sample size, our findings highlight the anatomical and clinical importance of the arterial complex supplying the proximal conduction components, including the additional descending AVN artery. This arterial complex may include the Bonapace's septal branch and serve as a Kugel's collateral route in coronary occlusion. This characterisation provides basic essential anatomical data to support future research on iatrogenic conduction disturbances.

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另一条导致近端传导成分动脉复合体的房室结动脉的解剖学特征：Bonapace室间隔分支或Kugel侧支。

背景：心脏传导系统（CCS）供血动脉损伤引起的短暂或永久性医源性传导障碍有所增加。更全面地了解CCS动脉解剖对推进电生理研究至关重要。与窦房结（SN）动脉相比，房室结（AVN）动脉因其周围心肌较厚，变化更大，难以识别。除了主动脉外的动脉分支，如Bonapace的间隔动脉分支或Kugel的侧支动脉，经常被忽视或被认为是非典型的，并且仍然没有明确的特征。方法：对116例无冠状动脉闭塞的生理性衰老心脏进行显微解剖，并对另外14例无冠状动脉闭塞的生理性衰老心脏进行连续组织学切片检查。结果：在22.4%的病例中观察到额外的AVN降支，11.2%的病例中发现房间隔分支延伸至Koch三角形，这些结果与组织学证实的35.7%的发病率相符。这些结果表明，大约三分之一的个体表现出额外的AVN降支，其特征与正常的Bonapace间隔支相似。值得注意的是，这条额外的动脉起源于与SN动脉和巴赫曼束分支的共同主干，形成一个动脉复合体，供应近端传导成分。结论：通过大样本量，我们的发现强调了供应近端传导成分的动脉复合体的解剖学和临床重要性，包括附加的AVN降支动脉。该动脉复合体可能包括Bonapace的间隔分支，并在冠状动脉闭塞时作为Kugel的侧枝通路。这一特征为支持未来医源性传导障碍的研究提供了基本的解剖学数据。

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

Open Heart CARDIAC & CARDIOVASCULAR SYSTEMS-

CiteScore

4.60

自引率

3.70%

发文量

145

审稿时长

20 weeks

期刊介绍： Open Heart is an online-only, open access cardiology journal that aims to be “open” in many ways: open access (free access for all readers), open peer review (unblinded peer review) and open data (data sharing is encouraged). The goal is to ensure maximum transparency and maximum impact on research progress and patient care. The journal is dedicated to publishing high quality, peer reviewed medical research in all disciplines and therapeutic areas of cardiovascular medicine. Research is published across all study phases and designs, from study protocols to phase I trials to meta-analyses, including small or specialist studies. Opinionated discussions on controversial topics are welcomed. Open Heart aims to operate a fast submission and review process with continuous publication online, to ensure timely, up-to-date research is available worldwide. The journal adheres to a rigorous and transparent peer review process, and all articles go through a statistical assessment to ensure robustness of the analyses. Open Heart is an official journal of the British Cardiovascular Society.