Three Principal Types of Sensory Neurons

Last updated: Sun, Jun 18, 2017

Three main types of somatosensory neurons are important in pain: A-beta neurons, A-delta neurons, and C-fiber neurons.

A-beta neurons

A-beta neurons are the largest of the somatosensory neurons. A-beta axons range from about 6 to 13 micrometers (millionths of a meter) in diameter and are covered in myelin, a white, fatty protein. Their myelin covering and large size combine to give A-beta fibers the fastest conduction velocity of the three neuron types—from 30 to 70 meters per second.

A-beta neurons are equipped with low-threshold mechanoreceptors. A-beta neurons are responsible for the sensitivity of the small hairs on the backs of your arms—each of these is innervated by a specialized hair nerve ending. A-beta neurons are also responsible for highly-sensitive touch and vibration sensitivity in the hands.

Four types of A-beta fibers have been found in the human fingertip.

Type F A I makes up 43% of the A-beta fibers in the fingertips. These are attached to Meissner bodies, are sensitive to low-frequency vibration, and respond when the skin is depressed 10 micrometers.
Type F A II makes up 13% of the A-beta fibers in the fingertips. They are attached to Pacini and Golgi-Mazoni receptors, are sensitive to high-frequency vibration, and respond when the skin is depressed just 8 micrometers.
Type S A I makes up 25% of the A-beta fibers in the fingertips. They are attached to Merkel discs and fire continually if an edge is pressed into the skin. They respond when the skin is depressed 50 micrometers.
Type S A II makes up the remaining 19% of A-beta fibers. They are attached to Ruffini endings and fire continually when the skin is stretched. They respond when the skin is depressed 200 micrometers.

A-delta neurons

A-delta neurons are the smallest of the myelinated (myelin-covered) neurons. A-delta axons are from 1 to 5 micrometers in diameter. They conduct action potentials at a rate of 6-20 meters per second. A-delta neurons are polymodal, meaning that they respond to pressure, heat, and chemicals. Two types of A-delta neurons have been identified.

Type I occurs both in hairy skin and in the skin of the palm and fingertips. They make up about half of the A-delta neurons in the hairy skin. Type I mechanoreceptors are low-threshold and wide range. Type I become more sensitive when they are injured by heat. They have a conduction speed of about 2.5 meters per second.
Type II A-delta neurons appear only in hairy skin. Type II are high-threshold mechanoreceptors and are not sensitized by heat injury. Type II neurons have a conduction speed of about 15 meters per second.

In early studies of the skin, individual receptors were found for study by pinching the skin. Since the response threshold of Type II A-delta neurons is so high, they were rarely found in these early studies. Type II is called “mechanically-insensitive” because of its higher threshold, while Type I is called “mechanically sensitive.”

Pain that is described as “pricking” or “sharp” is believed to be the result of the activation of A-delta neurons. Dull aching pain is also believed to result from activation of A-delta neurons under different conditions.

C-fiber neurons

C-fiber neurons have unmyelinated axons of just 0.5-2 micrometer diameter. They conduct action potentials at a rate of only 0.5-2 meters per second. C-fiber neurons are polymodal like A-delta neurons.

C-fiber neurons vary a lot in their sensitivity. Low-threshold (mechanically sensitive) C-fiber neurons that do not respond to heat have been found as well as high-threshold neurons. About 30% are the high-threshold neurons. “Quick” and “slow” C fibers have been distinguished based on their response to heat. The quick C fibers deliver a strong response while temperature rises, while slow C fibers deliver a strong response once the heat levels off.

Both fatigue and sensitization have been found in C fibers. If a heat stimulus is repeated after less than ten minutes, the response to the second stimulus will be reduced.

Pain that is described as “burning” is believed to be the result of the activation of C-fiber neurons.

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