Gate control theory

The gate control theory of pain asserts that non-painful input closes the nerve "gates" to painful input, which prevents pain sensation from traveling to the central nervous system.

In the top panel, the nonnociceptive, large-diameter sensory fiber (orange) is more active than the nociceptive small-diameter fiber (blue), therefore the net input to the inhibitory interneuron (red) is net positive. The inhibitory interneuron provides presynaptic inhibition to both the nociceptive and nonnociceptive neurons, reducing the excitation of the transmission cells. In the bottom panel, an open "gate" (free-flowing information from afferents to the transmission cells) is pictured. This occurs when there is more activity in the nociceptive small-diameter fibers (blue) than the nonnociceptive large-diameter fibers (orange). In this situation, the inhibitory interneuron is silenced, which relieves inhibition of the transmission cells. This "open gate" allows for transmission cells to be excited, and thus pain to be sensed.

The gate control theory of pain describes how non-painful sensations can override and reduce painful sensations. A painful, nociceptive stimulus stimulates primary afferent fibers and travels to the brain via transmission cells. Increasing activity of the transmission cells results in increased perceived pain. Conversely, decreasing activity of transmission cells reduces perceived pain. In the gate control theory, a closed "gate" describes when input to transmission cells is blocked, therefore reducing the sensation of pain. An open “gate” describes when input to transmission cells is permitted, therefore allowing the sensation of pain.

First proposed in 1965 by Ronald Melzack and Patrick Wall, the theory offers a physiological explanation for the previously observed effect of psychology on pain perception. Combining early concepts derived from the specificity theory and the peripheral pattern theory, the gate control theory is considered to be one of the most influential theories of pain. This theory provided a neural basis which reconciled the specificity and pattern theories -- and ultimately revolutionized pain research.[1]

Although there are some important observations that the gate control theory cannot explain adequately[which?], this theory remains the theory of pain which most accurately accounts for the physical and psychological aspects of pain perception.[2]

Willem Noordenbos (1910–1990), a Dutch researcher at the University of Amsterdam, proposed in 1959 a model which featured interaction between small (unmyelinated) and thick (myelinated) fibers. In this model, the fast (myelinated) fibers block the slow (unmyelinated) fibers: "fast blocks slow".[3]

  1. ^ Moayedi, M.; Davis, K. D. (3 October 2012). "Theories of pain: from specificity to gate control". Journal of Neurophysiology. 109 (1): 5–12. doi:10.1152/jn.00457.2012. PMID 23034364. S2CID 11260950.
  2. ^ Meldrum, Marcia L. "Physiology of pain". Encyclopædia Britannica. Retrieved 27 April 2014. The theory of pain that most accurately accounts for the physical and psychological aspects of pain is the gate-control theory
  3. ^ Mander, Rosemary (2010). Pain in Childbearing and its Control: Key Issues for Midwives and Women. John Wiley & Sons. ISBN 9781444392067.