Everything about Nociception totally explained
Nociception (synonyms; nociperception, physiological pain) is the
afferent activity produced in the peripheral and central
nervous system by stimuli that have the potential to damage tissue.
Detection of noxious stimuli
Mechanical, thermal, and chemical stimuli are detected by nerve endings called
nociceptors, which are found in the
skin and on internal surfaces such as the
periosteum or
joint surfaces. The concentration of nociceptors varies throughout the body, mostly found in the skin and less so in deep internal surfaces.
All
nociceptors are
free nerve endings that have their cell bodies outside the
spinal column in the
dorsal root ganglia and are named according to their appearance at their sensory ends.
Nociceptors have a certain threshold; that is, they require a minimum level of stimuli before they trigger a signal. In some conditions, excitation of pain fibers becomes greater as the pain stimulus continues, leading to a condition called
hyperalgesia. Once the threshold is reached a signal is passed along the axon of the nerve into the
spinal cord.
Transmission through central nervous system
Lateral spinothalamic tract
The Lateral spinothalamic tract has two pathways for nociceptive information to reach the
brain, the neospinothalamic tract for "fast spontaneous pain" and the paleospinothalamic tract for "slow increasing pain".
Neospinothalamic tract
Fast pain travels via type
Aδ fibers to terminate on the
dorsal horn of the spinal cord where they
synapse with the
dendrites of the neospinothalamic tract. The
axons of these neurons travel up the spine to the
brain and cross the midline through the
anterior white commissure, passing upwards in the contralateral anterolateral columns. These fibres terminate on the
ventrobasal complex of the thalamus and synapse with the dendrites of the
somatosensory cortex. Fast pain is felt within a tenth of a second of application of the pain stimulus and is a sharp, acute, prickling pain felt in response to mechanical and thermal stimulation. It can be localised easily if Aδ fibres are stimulated together with tactile receptors.
Paleospinothalamic tract
Slow pain is transmitted via slower type
C fibers to laminae II and III of the dorsal horns, together known as the
substantia gelatinosa. Impulses are then transmitted to nerve fibers that terminate in lamina V, also in the dorsal horn, synapsing with neurons that join fibers from the fast pathway, crossing to the opposite side via the anterior white commissure, and traveling upwards through the anterolateral pathway. These neurons terminate throughout the
brain stem, with one tenth of fibres stopping in the
thalamus and the rest stopping in the
medulla,
pons and
periaqueductal grey of the
midbrain tectum. Slow pain is stimulated by chemical stimulation, is poorly localized and is described as an aching, throbbing or burning pain.
Regulation
The body possesses an endogenous analgesia system, which can be supplemented with
analgesic drugs to regulate nociception and pain. There is both an analgesia system in the central nervous system and peripheral receptors that decreases the grade in which nociception reaches the higher brain areas. The degree of pain can be modified by the
Periaqueductal gray before it reaches the thalamus and consciousness. According to
gate control theory of pain, this area can also reduce pain when non-painful stimuli are received in conjection with nociception.
Central
The central analgesia system is mediated by 3 major components : the
periaquaductal grey matter, the
nucleus raphe magnus and the nociception inhibitory neurons within the
dorsal horns of the spinal cord, which act to inhibit nociception-transmitting neurons also located in the spinal dorsal horn.
Peripheral
The peripheral regulation consists of several different types of
opioid receptors that are activated in response to the binding of the body's
endorphins. These receptors, which exist in a variety of areas in the body, inhibit firing of neurons that would otherwise be stimulated to do so by nociceptors.
Factors
The
gate control theory of pain, proposed by Patrick Wall and
Ronald Melzack, postulates that nociception (pain) is "gated" by non-nociception stimuli such as vibration. Thus, rubbing a bumped knee seems to relieve pain by preventing its transmission to the brain. Pain is also "gated" by signals that descend from the brain to the spinal cord to suppress (and in other cases enhance) incoming nociception (pain) information.
Nociception response
When nociceptors are stimulated they transmit signals through sensory neurons in the spinal cord. These neurons release the excitatory
neurotransmitter glutamate at their
synapses.
If the signals are sent to the
reticular formation and
thalamus, the sensation of pain enters
consciousness in a dull poorly localized manner. From the thalamus, the signal can travel to the
somatosensory cortex in the
cerebrum, when the pain is experienced as localized and having more specific qualities.
Nociception can also cause generalized
autonomic responses before or without reaching consciousness to cause
pallor,
diaphoresis,
bradycardia,
hypotension,
lightheadedness,
nausea and
fainting.
History of term
The term nociception was coined by
Charles Scott Sherrington to make clear the difference between the physiological nature of nervous activity signalling tissue damage and the psychological response of pain to this physiological event.
[Further Information]
Get more info on 'Nociception'.
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