The Application of the Neural Tracer Technique to Acupuncture Studies / 上海针灸杂志

The neuroanatomical basis of meridian effects is one of the focuses of acupuncture mechanism studies. Meridian effects depend mainly on the generation, conduction, integration and output of acupuncture information in the acupoint, spinal cord and brain.The neural tracer technique is a basic method in neurobiology. This article presents recent years' advances in the application of the neural tracer technique to acupuncture field and summarizes the types of neural tracer used in acupuncture studies and regularities in the distribution of neurons and their fibers related to labeled meridians and acupoints in spinal segments and brain regions to provide methodological reference for studies on neurobiological mechanism of acupuncture effects.

Localization of Nerves Innervating the Sublingual Gland in the Rat Brain Using Pseudorabies Virus / 체질인류학회지

The nerves innervating the sublingual gland of the rat was investigated using PRV (pseudorabies virus) as a neural tracer. The neural tracer was injected into left sublingual gland of the rat. In the central nervous system, PRV immunoreactive neurons were labeled bilaterally and tended to be more densely labeled in the left side. PRV immunoreactive neuronal cell bodies and fibers were observed in insular cortex, paraventricular nucleus, deep mesencephalic nucleus, spinal trigeminal tract, lateral paragigantocellular nucleus, parvicellular reticular nucleus, raphe obscurus, gigantocellular reticular nucleus and gigantocellular reticular nucleus, alpha. The more densely labeled PRV immunoreactive neurons were found in the deep mesencephalic nucleus, spinal trigeminal tract and lateral paragigantocellular nucleus. These results may provide a neuroanatomical data on the nerves innervating the sublingual gland in the rat brain.

Localization of Motor Neuronal Cell Bodies Innervating the Digastric Muscle of the Rat Using Cholera Toxin B Subunit (CTB) / 대한해부학회지

We used cholera toxin B subunit (CTB) as a neural tracer to localize motor neuronal cell bodies innervating the digastric muscle. After CTB injection into the left anterior belly, CTB-labelled motor neuronal cell bodies were found in caudal half of the left and right trigeminal nucleus, the left and right facial nucleus, the accessory facial nucleus and the accessory trigeminal nucleus in pons. The total number of CTB-labelled motor neuronal cell bodies were 1,179+/-119.5 in the left pons and 246+/-61.8 in the right pons after CTB injections into the left anterior belly of digastric muscle. After CTB injection into left posterior belly, CTB-labelled motor neuronal cell bodies were found only in the left ventral part of accessory facial nucleus in caudal pons and the total number of CTB-labelled motor neuronal cell bodies were 270+/-29.3.

Localization of Nerves Innervating the Auricle of the Rat in the Brain and Spinal Cord / 대한해부학회지

The nerves innervating the auricle of the rat were investigated using PRV (pseudorabies virus) as a neural tracer. The neural tracer was injected into rostral part of the right auricle of the rat. The PRV immunoreactive neurons were labeled bilaterally and more densely labeled in the brain than spinal cord. In the brain, PRV immunoreactive neuronal cell bodies and fibers were observed in thalamus, periaqueductal gray matter, reticular formation, spinal trigeminal nucleus, spinal tract of trigeminal nerve and facial nucleus. The more densely labeled PRV immunoreactive neurons were found in thalamus, reticular formation, spinal tract of trigeminal nerve and facial nucleus. In the spinal cord, PRV immunoreactive neurons were extended from T8 to L2 segments. The more densely labeled PRV immunoreactive neurons were found from T11 to L2 segments. Above results, the nerves innervating the auricle of the rat were widely distributed in brain and spinal cord and may have many connections with other nerves. These results may provide a neuroanatomical data on the nerves innervating the auricle of the rat in the central nervous system.