Anatomical Analysis of the Cervical Sympathetic Ganglion and Spinal Ganglion and its Physiological Significance in the Pathogenesis of Cervical Vertigo.

Objective: Investigating the anatomical connections between cervical sympathetic ganglia and spinal ganglia in rabbits and assessing the role of Neuropeptide Y in the pathogenesis of cervical vertigo. Method: Part 1: 32 adult healthy male New Zealand white rabbits (whose skin is very sensitive, so rabbits are generally used for stimulation experiments) were randomly divided into the upper cervical sympathetic ganglia (SCSG) stimulation group and the lower cervical sympathetic ganglia (ICSG) stimulation group, with 16 rabbits in each group. The two groups were divided into an experimental group and a control group, with 8 rabbits in each group. The cervical ganglia of each group of white rabbits were injected with 4% FluoroGold solution and observed under a section microscope. Part 2: Sixty New Zealand white rabbits were randomly divided into a blank control (n = 12), SCSG stimulation group (n = 12), SCSG sham surgery control (n = 12), ICSG stimulation group (n = 12), and ICSG sham surgery control group (n = 12). The SCSG group and ICSG group were subjected to electrical stimulation (i.e. 30.0Hz, 10.0V, 5-minute pulse width of 0.5 ms square wave pulse), and specimens were made. The expression of NPY was detected using immunohistochemical methods. Result: Neuropeptide Y was weakly expressed in all cervical ganglia (C1-C8). Compared with the sham surgery group, the superior cervical sympathetic ganglion stimulation group showed an increase in Neuropeptide Y positive cells in C2, C3, C4, and C5, with C2 and C3 showing the most significant increase. The number of C6, C7, and C8 Neuropeptide Y positive cells in the 3 C、3D and 4B, lower cervical sympathetic ganglion stimulated groups was higher than in the sham sham-operated group, and C6 and C7 significantly increased. Neuropeptide Y is like immunoreactive neurons in the cervical spinal ganglia, and the immunoreactive products are small brown particles distributed in the cytoplasm after electrical stimulation of the cervical sympathetic ganglia. The Neuropeptide Y content in the corresponding segment of the cervical spinal ganglia is significantly increased compared to the control group (P < .05). Conclusion: In New Zealand white rabbits, nerve fibers are interconnected between the cervical sympathetic ganglion and the cervical spinal ganglion, and this neural fiber connection has a certain segmental nature, providing experimental basis for the existence of the cervical spinal cord external nerve reflex arc and elucidating the pathogenesis of cervical vertigo in terms of neural anatomy. By using neuroelectrophysiological methods, it has been confirmed that electrical stimulation in the cervical spinal ganglia can reach the corresponding cervical sympathetic ganglia on the same side through a certain conduction pathway, providing experimental basis in neuroelectrophysiology for the existence of the cervical extraspinal nerve reflex arc and elucidating the pathogenesis of cervical vertigo. NPY may be involved in the pathogenesis of cervical vertigo, providing a theoretical basis for the clinical diagnosis of cervical vertigo.