Background In the rat, studies have shown that ovary innervation arrives via the superior ovarian nerve (SON) and the ovarian plexus nerve, which originates from the celiac plexus (CP). In the present study, we performed a neuroanatomical technique to investigate the anatomy of the SON between the ovary and the CP. Results We found that the SON fibers were concentrated on the lateral border of the suprarenal ganglion and projected towards, then inserted into the suspensory ligament. Then, it ran parallel to the long axis of the ligament to reach and innervate the ovaries. At this level, the SON was composed of two coiled nerve fibers, each between 10 and 15 µm in diameter. The SON was linked to three different ganglia: the suprarenal ganglia, the celiac ganglia, and the superior mesenteric ganglion. Conclusions The postganglionic fibers that project to the ovary via the SON emerge from the suprarenal ganglia. The trajectories on the right and left sides to each ovary are similar. The somas of ipsilateral and contralateral SON neurons are located in the prevertebral ganglia, mostly in the celiac ganglia.
Communication between the ovaries and the central nervous system occurs by peripheral innervation through the celiac plexus, superior ovarian nerve, and ovarian plexus nerve. The vagus nerve is involved in regulating the ovaries, but the neuroanatomical pathway that links them is not clear. Adult female rats were used for gross anatomy, acetylcholinesterase histochemistry, and the immunofluorescence analysis of tyrosine hydroxylase (TH), choline acetyltransferase (ChAT), and tryptophan hydroxylase 2 (TPH). The results obtained indicate that the right vagus nerve (RVN) travels parallel and caudal to the esophagus, where three nerve branches were identified. Also, a right vagal plexus (RVP) formed by microganglia was described, establishing communication with the celiac plexus, and was mainly reactive to tyrosine hydroxylase (TH); some serotoninergic and cholinergic neurons were also found. The left vagus nerve (LVN) travels over the esophagus, bifurcates before its insertion into the stomach and enters the RCG. This neuroanatomical and biochemical description of the RVN and LVN in the rat suggests the RVP is formed by presynaptic catecholaminergic terminals and cholinergic neurons. This information could support detailed studies of communication between the vagus nerve and the ovaries and identify the type of neural signaling involved in abdominal control of the vagus nerve.
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