| Lateral grey column (lateral horn) | |
|---|---|
 Cross-Section of the Spinal Cord | |
| Details | |
| Identifiers | |
| Latin | cornu laterale medullae spinalis |
| MeSH | D066152 |
| TA98 | A14.1.02.132 A14.1.02.022 |
| TA2 | 6077 |
| FMA | 256536 |
| Anatomical terminology | |
Thelateral grey column (lateral column,lateral cornu,lateral horn of spinal cord,intermediolateral column) is one of the threegrey columns of thespinal cord (which give the shape of a butterfly); the others being theanterior andposterior grey columns. The lateral grey column is primarily involved with activity in thesympathetic division of theautonomicmotor system. It projects to the side as a triangular field in thethoracic and upperlumbar[1] regions (specificallyT1-L2) of the postero-lateral part of theanterior grey column.
Thenervous system is the system ofneurons, or nerve cells that relay electrical signals through the brain and body. A nerve cell receives signals from other nerve cells through tree-branch-like extensions calleddendrites and passes signals through a long extension called anaxon (or nerve fiber).Synapses are places where one cell's axon passes information to another cell'sdendrite by sending chemicals calledneurotransmitters across a small gap called asynaptic cleft. Synapses occur in various locations, includingganglia (singular: ganglion), which are masses of nerve cell bodies. Preganglionic nerve cells in thesympathetic nervous system (all of which come from the lateral grey column), use the neurotransmitteracetylcholine, while postganglionic sympathetic nerve cells usenorepinephrine.[1]Grey matter in the brain and spinal cord is any accumulation of cell bodies andneuropil (neuropil is tissue rich in nerve cell bodies and dendrites).White matter consists ofnerve tracts (groups of axons) andcommissures (tracts that cross the brain's midline).[2]
Thenervous system is divided into thecentral nervous system (brain and spinal cord) and theperipheral nervous system (everything else). The peripheral nervous system is divided into thesomatic nervous system (voluntary processes) and theautonomic nervous system (involuntary processes). The autonomic nervous system is divided into theparasympathetic nervous system (normal functioning) and thesympathetic nervous system (emergency functioning).[3] The lateral grey column mediates the functions of the sympathetic nervous system.
Thespinal cord is divided into 31 segments, located between thevertebrae. Each segment is defined by aposterior root entering it and ananterior root exiting it. Each of these roots is the end of a spinal nerve connecting the spinal cord to the body. Thevertebral column is divided into four groups of vertebrae: (from top to bottom)cervical,thoracic,lumbar, andsacral.[4]
The lateral grey column is present at 17 levels of the spinal cord, specifically through levels T1-L2 (sympathetic outflow) as well as through levels S2-S4 (parasympathetic outflow).[5] Both these segments are located within the first thoracic vertebra to the first or second lumbar vertebra as the spinal cord ends here and the nerves form thecauda equina.
The lateral grey column is composed of sympathetic preganglionic visceral motor neurons which are part of theautonomic nervous system.[1] An in-depth study of the lateral grey columns in the thoracic region of rats revealed two types of cells. One cell type was characterized by manymitochondria, an indentednucleus, and a longendoplasmic reticulum, while the other cell type had an increased cytoplasmic density and a short endoplasmic reticulum. Lateral columnaxon terminals were found to containnoradrenaline storage granules and could be divided into four types. Type one terminals contained a few large and many small granularvesicles, and type two terminals had many large vesicles and barely noticeable granules. Type three terminals contained small, spherical vesicles and no granules, and type four were the rarest terminals that had flattened vesicles with small and large granules.[6]
The cells of the intermediolateral cell column are fusiform or star-shaped, and of a medium size.[7] Theintermediolateral cell column exists at vertebral levels T1 - L2 and mediates the entire sympathetic innervation of the body.[5] In the upper part of the cervical region and lower part of themedulla oblongata, as well as in the third and fourth sacral vertebrae, this column is again differentiated.
The lateral grey column's connections mediate the functions of the sympathetic nervous system (SNS), which changes cardiac, pulmonary, hepatic (liver), and gastrointestinal activities to prepare the body for emergency situations[1] (although the sympathetic system is always active to some extent, including in the absence of a stressful environment, to maintain the appropriate level of sympathetic function).[2] When the brain responds to potential threats by sending signals to lateral grey column cells, the lateral column passes on the signals to initiate a variety of physiological changes that prepare the body for a “fight-or-flight” response. Hairs stand up to conserve heat. The gut relaxes anddigestion slows so that more energy can be directed toward dealing with the threatening situation. Theadrenal medulla is activated and releasesepinephrine (adrenaline) into the bloodstream, where it mediates many changes, such as the preparation of muscles for emergency activity. A variety of smooth muscles relax;[1] for example, the muscles wrapped around thebronchioles of the lungs relax, allowing moreoxygen to enter the bloodstream.Heart rate increases to ensure all cells are supplied quickly with the substances they need. Theliver producesglucose (sugar) to fuel the muscles.[8] Blood vessels contract (vasoconstriction), which reduces bleeding and conserves body heat (the exception is blood vessels fueling large muscles that would be used in running or fighting). The pupils dilate, improving vision.[9]Perspiration increases in certain areas of the body (the purpose of this is not yet fully understood, but there is some evidence that the odor produced by this sweat serves as a signal to other individuals).[10]
The lateral grey column plays an important role in thesympathetic division of the visceral (autonomic) motor system. Neuron cell bodies in the lateral column send their axons to synapse on sympathetic ganglia that innervate autonomic and pelvic organs; in fact, allpreganglionic neurons in the sympathetic nervous system originate in the lateral grey column.[5] Neurons in the upper and middle thoracic segments control sympathetic activity in organs in the head and thorax, while neurons in the lower thoracic and upper lumbar segments control abdominal and pelvic organs and targets in the lower extremities.[2]
Slightly myelinatedpreganglionic nerve fibers (akavisceral efferent fibers) leave the lateral grey column through the ventral roots and promptly form fourteen aggregates calledwhite rami communicantes, also known as white communicating rami, which eventually enter thesympathetic trunk, a structure next to thevertebral column that consists of paired chains of sympatheticganglia connected by nerve fibers.[5]
Most often, the fibers from the lateral grey column will travel along the sympathetic trunk until they synapse on one of the trunk's ganglia, which then passes on the information viapostganglionic fibers in agray ramus communicans.[5] 31 pairs of gray rami communicantes exit the sympathetic trunk to join the 31 pairs ofspinal nerves and travel to targets such assweat glands, hair follicles, andblood vessels.[1] Some fibers, such as those in thecardiac nerves that innervate the heart, reach the target organ directly, without first joining a gray ramus communicans.
Other fibers from lateral grey column neurons pass through the sympathetic trunk without synapsing there. The greatersplanchnic nerve leaves the vertebral levels T5-T9 and synapses in the abdomen in theceliac ganglia, which innervates theceliac artery[5] (splanchnic nerves are the nerves that innervate thoracic and abdominal viscera).[2] The lesser splanchnic nerve travels from the vertebral levels T10-T11 to the abdomen'ssuperior mesenteric ganglia, which innervates thesuperior mesenteric artery, and to theaorticorenal ganglion.[5] The least, or lowest, splanchnic nerve connects the T12 level to therenal plexus.[11] Thelumbar splanchnic nerves from the upper two lumbar segments synapse in the abdomen on the inferior mesenteric ganglia, associated with theinferior mesenteric artery.[5] In addition, some thoracic fibers in the splanchnic nerves innervate the adrenal medulla, a ganglion in the abdomen that mediates the sympathetic response to stress.[2]
Axons from the lateral grey column releaseacetylcholine at their synapses. This can excite or inhibit the postsynaptic cell, depending on the type of acetylcholine receptor in its membrane. Postganglionic cells (that is, nerve cells innervated in ganglia by lateral column neurons) typically releasenorepinephrine (noradrenaline) on their targets; these synapses can also be either excitatory or inhibitory.[1]
The lateral grey column receives input signals from preganglionic, myelinated fibers fromviscera (internal organs), which course throughprevertebral ganglia (between the visceral organ and the sympathetic chain) andparavertebral ganglia (in the sympathetic chain), white rami communicantes, and dorsal roots to synapse on cells of the intermediolateral cell column in the lateral horn.[4]
Lateral grey column nerve cells also receive signals from thebrainstem and from neurons in thehypothalamus, a brain area involved in mediating many physiological functions and emotional states.[12]
Horner's syndrome is characterized by small pupils, sunken eyes, partially drooping eyelid, and dryness of the skin on the face. It is caused by problems in autonomic pathways such as damage to the lateral grey column.[1]
Progressive autonomic failure is a disease associated with autonomic disturbances due to selectiveneuronal degeneration.[13] A study estimated the number of nerve cells in the lateral grey columns of 21 people with progressive autonomic failure in comparison with a control group. This same study found that an average of 75 percent of the lateral column cells were lost in people with progressive autonomic failure.[14]
Multiple system atrophy (MSA) is an adult onset disorder that is a sporadic and progressive. MSA is characterized by a combination ofataxia,parkinsonism, andautonomic dysfunction.[15] A study did a comparison with the lateral grey column nerve cell count between 15 cases of patients with MSA and a control group. All cases of MSA had lost over 50 percent of their lateral horn cells which shows the involvement of the intermediolateral columns in MSA.[16]
Lichtheim's disease (also known assubacute combined degeneration) is the result of avitamin B12 deficiency and is associated withpernicious anemia.[17] The disease is characterized by the degeneration of both the lateral and posterior columns, which results in symptoms such as a spastic ataxic gait and paranoia.[18] Patients may also feel tingling or weakness in their limbs and torso.[17]
This article incorporates text in thepublic domain frompage 753 of the 20th edition ofGray's Anatomy(1918)
