General visceral afferent fibers

The general visceral afferent (GVA) fibers conduct sensory impulses (usually pain or reflex sensations) from the internal organs, glands, and blood vessels to the central nervous system.[1] They are considered to be part of the autonomic nervous system. However, unlike the efferent fibers of the autonomic nervous system, the afferent fibers are not classified as either sympathetic or parasympathetic.[2]

General visceral afferent fibers
Scheme showing pathways of a typical spinal nerve.
1. Somatic efferent.
2. Somatic afferent.
3,4,5. Sympathetic efferent.
6,7. Autonomic nervous system (ANS) afferent.
Note that this image merely depicts pathways in a schematic fashion – it is not anatomically correct. The efferent sympathetics exit in a loop – entering the more lateral White ramus communicans and either exiting the more medial Gray ramus communicans (grey) or traveling up/down the chain to exit grey at other ganglia.
Anatomical terminology

GVA fibers create referred pain by activating general somatic afferent fibers where the two meet in the posterior grey column.

The cranial nerves that contain GVA fibers include the glossopharyngeal nerve (CN IX) and the vagus nerve (CN X).[3]

Generally, they are insensitive to cutting, crushing or burning; however, excessive tension in smooth muscle and some pathological conditions produce visceral pain (referred pain).[4]

Pathway

Abdomen

In the abdomen, general visceral afferent fibers usually accompany sympathetic efferent fibers. This means that a signal traveling in an afferent fiber will begin at sensory receptors in the afferent fiber's target organ, travel up to the ganglion where the sympathetic efferent fiber synapses, continue back along a splanchnic nerve from the ganglion into the sympathetic trunk, move into a ventral ramus via a white ramus communicans, and finally move into the mixed spinal nerve between the division of the rami and the division of the roots of the spinal nerve. The GVA pathway then diverges from the sympathetic efferent pathway, which follows the ventral root into the spinal column, by following the dorsal root into the dorsal root ganglion, where the cell body of the visceral afferent nerve is located.[5] Finally, the signal continues along the dorsal root from the dorsal root ganglion to a region of gray matter in the dorsal horn of the spinal column where it is transmitted via a synapse to a neuron in the central nervous system.[2]

The only GVA nerves in the abdomen that do not follow the above pathway are those that innervate structures in the distal half of the sigmoid colon and the rectum. These afferent fibers, instead, follow the path of parasympathetic efferent fibers back to the vertebral column, where the afferent fibers enter the S2-S4 sensory (dorsal root) ganglia followed by the spinal cord.[5]

Pelvis

The course of GVA fibers from organs in the pelvis, in general, depends on the organ's position relative to the pelvic pain line. An organ, or part of an organ, in the pelvis is said to be "above the pelvic pain line" if it is in contact with the peritoneum, except in the case of the large intestine, where the pelvic pain line is said to be located in the middle of the sigmoid colon.[6] GVA fibers from structures above the pain line follow the course of the sympathetic efferent fibers, and GVA fibers from structures below the pain line follow the course of the parasympathetic efferents.[6] Pain from the latter fibers is less likely to be consciously experienced.[6]

Neurotransmitters

For many of these visceral afferents, their endings in the periphery and in the spinal cord contain substance P and other neuropeptides of the tachykinin family, such as neurokinin A and neurokinin B, specifically in the sympathetic portion of these fibres.[7]

See also

References

  1. Moore, Keith; Anne Agur (2007). Essential Clinical Anatomy, Third Edition. Lippincott Williams & Wilkins. p. 635. ISBN 978-0-7817-6274-8.
  2. Moore, Keith; Anne Agur (2007). Essential Clinical Anatomy, Third Edition. Lippincott Williams & Wilkins. pp. 34–35. ISBN 978-0-7817-6274-8.
  3. Mehta, Samir et al. Step-Up: A High-Yield, Systems-Based Review for the USMLE Step 1. Baltimore, MD: LWW, 2003.
  4. Susan, Standring (2016). Gray's anatomy : the anatomical basis of clinical practice. ISBN 9780702052309. OCLC 920806541.
  5. Moore, K.L., & Agur, A.M. (2007). Essential Clinical Anatomy: Third Edition. Baltimore: Lippincott Williams & Wilkins. 180. ISBN 978-0-7817-6274-8
  6. Moore, Keith; Anne Agur (2007). Essential Clinical Anatomy, Third Edition. Lippincott Williams & Wilkins. p. 220. ISBN 978-0-7817-6274-8.
  7. Lundberg, J. M. (March 1996). "Pharmacology of cotransmission in the autonomic nervous system: integrative aspects on amines, neuropeptides, adenosine triphosphate, amino acids and nitric oxide". Pharmacological Reviews. 48 (1): 113–178. ISSN 0031-6997. PMID 8685245.
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