1. Morphological study of the innervation pattern of the rabbit sinoatrial node.
- Author
-
Roberts LA, Slocum GR, and Riley DA
- Subjects
- Animals, Cell Membrane cytology, Cell Membrane physiology, Cholinesterases metabolism, Electrophysiology, Female, Ganglia cytology, Ganglia enzymology, Ganglia physiology, Heart physiology, Histocytochemistry, Male, Membrane Potentials, Microelectrodes, Myocardium cytology, Myocardium enzymology, Neurons cytology, Neurons enzymology, Neurons physiology, Silver, Sinoatrial Node enzymology, Sinoatrial Node physiology, Rabbits anatomy & histology, Sinoatrial Node cytology
- Abstract
The pattern of nerves, ganglia, and fine nerve processes in the adult rabbit sinoatrial node, identified by microelectrode recording, was defined by staining histochemically for cholinesterase followed by silver impregnation. A generalized repeatable pattern of innervation was recognized, including 1) a large ganglionic complex inferior to the sinoatrial node; 2) two or three moderately large nerves traversing the sinoatrial node parallel to the crista terminalis; 3) nerves entering the region from the atrial septum, the superior vena cava, and the inferior vena cava; and 4) a fine network of nerve processes, particularly extensive in the morphologically dense small-cell part of the sinoatrial node. When the site of initial depolarization in the node was located and marked by a broken-off electrode tip, it was found, after cholinesterase staining, to be characterized by a cluster of cells enclosed in a nest or basket of fine nerves. Similar nested cell clusters were observed elsewhere in the sinoatrial node in this same preparation and in other hearts. A complex interweaving of atrial muscle fibers was observed medial and inferomedial to the sinoatrial node, which may form the anatomical basis for the lack of conduction through this region. The morphological pattern of nerves, ganglia, and myocardial cells described in this study emphasizes the complexity of innervation of the sinoatrial node, including its intrinsic neural elements. Cholinesterase/silver staining can be useful in the definition and comparison of electrophysiologically identified sites within the sinoatrial node.
- Published
- 1989
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