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Upper motor neuron

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Title: Upper motor neuron  
Author: World Heritage Encyclopedia
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Subject: Precentral gyrus, Alpha motor neuron, Pseudobulbar palsy, Primary lateral sclerosis, Motor neuron disease
Collection: Cerebral Palsy Types, Efferent Neurons, Motor System
Publisher: World Heritage Encyclopedia

Upper motor neuron

Upper motor neuron
The motor tract
Anatomical terminology

Upper motor neurons are motor neurons that originate either in the motor region of the cerebral cortex or in the brain stem and carry motor information down to the lower motor neurons. The main effector or motor neurons (efferent neurons) for voluntary movement lie within layer V of the primary motor cortex and are a type of giant pyramidal cell called Betz cells. The cell bodies of these neurons are the largest in the brain, approaching nearly 0.1mm in diameter.

The primary motor cortex or precentral gyrus, is one of the most important areas in the frontal lobe. The precentral gyrus is the most posterior gyrus of the frontal lobe and it lies anterior to the central sulcus. The pyramidal cells of the precentral gyrus are also called upper motor neurons. The fibers of the upper motor neurons project out of the precentral gyrus ending in the brainstem, where they will decussate (intersect) within the lower medulla oblongata to form the lateral corticospinal tract on each side of the spinal cord. The fibers that do not decussate will pass through the medulla and continue on to form the anterior corticospinal tracts. The upper motor neuron descends in the spinal cord to the level of the appropriate spinal nerve root. At this point, the upper motor neuron synapses with the lower motor neuron, each of whose axons innervate a fiber of skeletal muscle.[1][2]

These neurons connect the brain to the appropriate level in the spinal cord, from which point nerve signals continue to the muscles by means of the lower motor neurons. The neurotransmitter glutamate transmits the nerve impulses from upper to lower motor neurons, where it is detected by glutamatergic receptors.


  • Pathways 1
  • Lesions 2
  • See also 3
  • References 4
  • External links 5


Upper motor neurons travel in several pathways through the central nervous system (CNS):

Tract Pathway Function
corticospinal tract from the motor cortex to lower motor neurons in the ventral horn of the spinal cord The major function of this pathway is fine voluntary motor control of the limbs. The pathway also controls voluntary body posture adjustments.
corticobulbar tract from the motor cortex to several nuclei in the pons and medulla oblongata Involved in control of facial and jaw musculature, swallowing and tongue movements.
Colliculospinal tract from the superior colliculus to lower motor neurons Involved in involuntary adjustment of head position in response to visual information.
rubrospinal tract from red nucleus to lower motor neurons Involved in involuntary adjustment of arm position in response to balance information; support of the body.
vestibulospinal tract from vestibular nuclei, which processes stimuli from semicircular canals It is responsible for adjusting posture to maintain balance.
reticulospinal tract from reticular formation Regulates various involuntary motor activities and assists in balance.


Any upper motor neuron lesion, also known as pyramidal insufficiency, occurs in the neural pathway above the anterior horn of the spinal cord. Such lesions can arise as a result of stroke, multiple sclerosis, or other acquired brain injury. The resulting changes in muscle performance that can be wide and varied are described overall as upper motor neuron syndrome. Symptoms can include muscle weakness, decreased motor control including a loss of the ability to perform fine movements, increased vigor (and decreased threshold) of spinal reflexes including spasticity, and an extensor plantar response known as the Babinski sign.[3]

See also


  1. ^ Saladin, Kenneth S. Anatomy & Physiology: the Unity of Form and Function. Dubuque: McGraw-Hill, 2010. Print.1
  2. ^ "Frontal Lobe." Rice University Web Calendar. 26 June 2000. Web. 06 Dec. 2010. .
  3. ^

External links

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