Editing Motor neuron (section)

==== Somatic motor neurons ====
Somatic motor neurons originate in the [[central nervous system]], project their [[axons]] to [[skeletal muscles]]<ref>{{cite book|title=Human Physiology: An Integrated Approach|last=Silverthorn|first=Dee Unglaub|publisher=Pearson|year=2010|isbn=978-0-321-55980-7|pages=398}}</ref> (such as the muscles of the limbs, abdominal, and [[intercostal muscles]]), which are involved in [[animal locomotion|locomotion]]. The three types of these neurons are the ''alpha efferent neurons'', ''beta efferent neurons'', and ''gamma efferent neurons''. They are called [[efferent nerve fiber|efferent]] to indicate the flow of information from the [[central nervous system]] (CNS) to the [[peripheral nervous system|periphery]].
* [[Alpha motor neuron]]s innervate [[extrafusal muscle fiber]]s, which are the main force-generating component of a muscle. Their cell bodies are in the [[Anterior grey column|ventral horn]] of the spinal cord and they are sometimes called ''ventral horn cells''. A single motor neuron may synapse with 150 muscle fibers on average.<ref name=":3">Tortora, G. J., Derrickson, B. (2011). Muscular Tissue. In B. Roesch, L. Elfers, K. Trost, et al. (Ed.), ''Principles of Anatomy and Physiology'' (pp. 305-307, 311). New Jersey: John Wiley & Sons, Inc.</ref> The motor neuron and all of the muscle fibers to which it connects is a [[motor unit]]. Motor units are split up into 3 categories:<ref name=":0">Purves D, Augustine GJ, Fitzpatrick D, et al., editors: Neuroscience. 2nd edition, 2001 {{cite web |url=https://www.ncbi.nlm.nih.gov/books/NBK10874/ |title=The Motor Unit - Neuroscience - NCBI Bookshelf |access-date=2017-09-05 |url-status=live |archive-url=https://web.archive.org/web/20180605025217/https://www.ncbi.nlm.nih.gov/books/NBK10874/ |archive-date=2018-06-05 }}</ref>
**Slow (S) motor units stimulate small muscle fibers, which contract very slowly and provide small amounts of energy but are very resistant to fatigue, so they are used to sustain muscular contraction, such as keeping the body upright. They gain their energy via oxidative means and hence require oxygen. They are also called red fibers.<ref name=":0" />
**Fast fatiguing (FF) motor units stimulate larger muscle groups, which apply large amounts of force but fatigue very quickly. They are used for tasks that require large brief bursts of energy, such as jumping or running. They gain their energy via glycolytic means and hence do not require oxygen. They are called white fibers.<ref name=":0" />
**Fast fatigue-resistant motor units stimulate moderate-sized muscles groups that do not react as fast as the FF motor units, but can be sustained much longer (as implied by the name) and provide more force than S motor units. These use both oxidative and glycolytic means to gain energy.<ref name=":0" />
In addition to voluntary skeletal muscle contraction, alpha motor neurons also contribute to [[muscle tone]], the continuous force generated by noncontracting muscle to oppose stretching. When a muscle is stretched, [[sensory neuron]]s within the [[muscle spindle]] detect the degree of stretch and send a signal to the CNS. The CNS activates alpha motor neurons in the spinal cord, which cause extrafusal muscle fibers to contract and thereby resist further stretching. This process is also called the [[stretch reflex]].
* [[Beta motor neuron]]s innervate [[intrafusal muscle fiber]]s of [[muscle spindle]]s, with collaterals to extrafusal fibres. There are two types of beta motor neurons:          Slow Contracting- These innervate extrafusal fibers.  Fast Contracting- These innervate intrafusal fibers.<ref name=":4">{{cite journal|last1=Manuel|first1=Marin|last2=Zytnicki|first2=Daniel|title=Alpha, Beta, and Gamma Motoneurons: Functional Diversity in the Motor System's Final Pathway|journal=Journal of Integrative Neuroscience|volume=10|issue=3|year=2011|pages=243–276|issn=0219-6352|doi=10.1142/S0219635211002786|pmid=21960303|s2cid=21582283}}</ref>
*[[Gamma motor neuron]]s innervate intrafusal muscle fibers found within the muscle spindle. They regulate the sensitivity of the spindle to muscle stretching. With activation of gamma neurons, intrafusal muscle fibers contract so that only a small stretch is required to activate spindle sensory neurons and the stretch reflex. There are two types of gamma motor neurons:   Dynamic- These focus on Bag1 fibers and enhance dynamic sensitivity.  Static- These focus on Bag2 fibers and enhance stretch sensitivity.<ref name=":4" />
* Regulatory factors of lower motor neurons   
**''Size Principle'' – this relates to the soma of the motor neuron. This restricts larger neurons to receive a larger excitatory signal in order to stimulate the muscle fibers it innervates. By reducing unnecessary muscle fiber recruitment, the body is able to optimize energy consumption.<ref name=":4" />
** ''Persistent Inward Current (PIC)'' – recent animal study research has shown that constant flow of ions such as calcium and sodium through channels in the soma and dendrites influence the synaptic input. An alternate way to think of this is that the post-synaptic neuron is being primed before receiving an impulse.<ref name=":4" />  
** ''After [[Hyperpolarization (biology)|Hyper-polarization]] (AHP)'' – A trend has been identified that shows slow motor neurons to have more intense AHPs for a longer duration. One way to remember this is that slow muscle fibers can contract for longer, so it makes sense that their corresponding motor neurons fire at a slower rate.<ref name=":4" />