Department of Anesthesiology, Leiden University Medical Center, Leiden, the Netherlands.
Department of Anesthesiology, Leiden University Medical Center, Leiden, the Netherlands.
Auton Neurosci. 2020 Sep;227:102674. doi: 10.1016/j.autneu.2020.102674. Epub 2020 May 16.
Cardiac sympathetic blockade is a therapeutic approach for arrhythmias and heart failure and may be a beneficial effect of high thoracic epidural anesthesia. These treatments require detailed knowledge of the spatial location and distribution of cardiac autonomic nerves, however, there are controversies on this subject in humans.
To provide a systematic overview of current knowledge on human anatomy of the cardiac autonomic nervous system.
In contrast to the often claimed assumption that human preganglionic sympathetic cardiac neurons originate mainly from thoracic spinal segments T1-T4 or T5, there is ample evidence indicating involvement of cervical spinal segment C8 and thoracic spinal segments below T5. Whether cervical ganglia besides the stellate ganglion play a role in transmission of cardiac sympathetic signals is unclear. Similarly, there is debate on the origin of cardiac nerves from different thoracic ganglia. Most human studies report thoracic cardiac nerves emerging from the first to fourth thoracic paravertebral ganglia; others report contributions from the fifth, sixth and even the seventh thoracic ganglia. There is no agreement on the precise composition of nerve plexuses at the cardiac level. After years of debate, it is generally accepted that the vagal nerve contributes to ventricular innervation. Vagal distribution appears higher in atria, whereas adrenergic fibers exceed the number of vagal fibers in the ventricles.
Anatomy of the human cardiac autonomic nervous system is highly variable and likely extends beyond generally assumed boundaries. This information is relevant for thoracic epidural anesthesia and procedures targeting neuronal modulation of cardiac sympathetic innervation.
心脏交感神经阻滞是治疗心律失常和心力衰竭的一种方法,可能是高位胸段硬膜外麻醉的有益作用。这些治疗方法需要详细了解心脏自主神经的空间位置和分布,但在人体中对此主题存在争议。
提供关于人类心脏自主神经系统解剖结构的最新知识的系统综述。
与通常声称的假设相反,即人类节前交感心脏神经元主要起源于胸段 T1-T4 或 T5,有充分的证据表明涉及颈段 C8 和 T5 以下的胸段。除了星状神经节外,颈神经节是否在心脏交感神经信号传递中起作用尚不清楚。同样,关于不同胸神经节起源的心脏神经也存在争议。大多数人体研究报告称,胸段心脏神经从第一至第四胸旁神经节发出;其他研究报告称,第五、第六甚至第七胸神经节也有贡献。关于心脏水平神经丛的精确组成尚无共识。经过多年的争论,人们普遍接受迷走神经对心室支配的贡献。迷走神经分布在心房中较高,而肾上腺素能纤维在心室中超过迷走神经纤维的数量。
人类心脏自主神经系统的解剖结构高度可变,可能超出一般假设的范围。这些信息与胸段硬膜外麻醉和靶向心脏交感神经支配的神经元调节程序相关。
