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Brain Analgesia System

Brain Analgesia System. Dr Ghulam Mustafa. Learning objectives. What is brain analgesia system Enlist components of analgesia system Enlist chemical mediators of analgesia system Describe mechanism of working of analgesia system

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Brain Analgesia System

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  1. Brain Analgesia System Dr Ghulam Mustafa

  2. Learning objectives • What is brain analgesia system • Enlist components of analgesia system • Enlist chemical mediators of analgesia system • Describe mechanism of working of analgesia system • Explain the physiological mechanism involved in referred pain

  3. nucleus reticularis paragigantocellularis-

  4. Brain Analgesia System Endogenous capability of the brain itself to suppress the input of pain signals to the nervous system by activating a pain control system, called an analgesia system.

  5. The analgesia system 1) The periaqueductal grayand periventricular areas of the mesencephalon and upper pons surround the aqueduct of Sylvius and portions of the third and fourth ventricles. from these areas signals to 2) The raphe magnus nucleus - located in the lower pons and upper medulla The nucleus reticularis paragigantocellularis-located laterally in the medulla.

  6. second-order signals are transmitted to (3) a pain inhibitory complex located in the dorsal horns of the spinal cord. • Analgesia signals can block the pain before it is relayed to the brain.

  7. Suppression of strong pain signals • Electrical stimulation • Peri aqueductal gray area • Raphe Magnus nucleus • Areas – higher levels of the brain that excite the Peri aqueductal gray • Periventricular nuclei in the hypothalamus • Medial forebrain bundle, in the hypothalamus. • Suppress strong pain signals entering by way of the dorsal spinal roots.

  8. Transmitter substances involved in analgesia system • Nerve fibers from periventricular nuclei and periaqueductal gray area secrete • Enkephalin • Fibers originating in Raphe Magnus send signals to dorsal horns of the spinal cord to secrete • Serotonin • The serotonin causes local cord neurons to secrete • Enkephalin

  9. Functions of Enkephalin • Enkephalin cause • Presynaptic and • Postsynaptic • Inhibition of incoming • Type Cand • Type A Delta pain fibers…. • Where they synapse in the dorsal horns. • The analgesia system can block pain signals at the initial entry point to the spinal cord.

  10. Brain’s Opiate System • Injection of minute quantities of morphine • Either into the periventricular nucleus around the third ventricle or • Into the periaqueductal gray area of the brain stem • Causes an extreme degree of analgesia. • Morphine-like agents – opiates: • Act at many other points in the analgesia system, including the dorsal horns of the spinal cord

  11. Opiate-like substances - found at different points of the nervous system • Breakdown products of three large protein molecules: • Proopiomelanocortin, • Proenkephalin, and • Prodynorphin. • Important opiate-like substances are • β-endorphin, • Met-enkephalin, • Leuenkephalin • Dynorphin.

  12. Activation of THE ANALGESIA SYSTEM by nervous signals entering the periaqueductal gray and periventricular areas, or Inactivation of Pain pathways by morphine-like drugs, can almost totally suppress many pain signals entering throughthe peripheral nerves.

  13. Inhibition of Pain Transmission by TactileSensory Signals • Stimulation of large type Aβ sensory fibers • from peripheral tactile receptors • depress transmission of pain signals • from the same body area. • Local lateral inhibition in the spinal cord • The simultaneous • physical and • psychogenic excitation of the central analgesia system • the basis of pain relief by ACUPUNCTURE.

  14. Treatment of Pain by ElectricalStimulation • Stimulating electrodes are • Placed on selected areas of the skin • Implanted over the spinal cord • To stimulate the dorsal sensory columns. • Electrodes placed in • Appropriate intralaminar nuclei of the thalamus or • in the periventricular or periaqueductal area of the diencephalon.

  15. Referred Pain • Pain in a part of the body that is fairly remote from the tissue causing the pain. This is called referred pain. • Important in clinical diagnosis Mechanism of Referred Pain. • Branches of visceral pain fibers synapse in the spinal cord • on the same second-order neurons (1 and 2) • Receive pain signals from the skin. • When the visceral pain fibers are stimulated……

  16. Localization of Referred Pain from Viscera • Localizes in dermatomal segment - visceral organ originated in the embryo, • Heart originated - neck and upper thorax, • The heart’s visceral pain fibers • Pass upward along the sympathetic sensory nerves • Enter spinal cord between segments C-3 and T-5. • Pain from the heart • Referred to the side of the neck, • Over the shoulder, • Over the pectoral muscles, • Down the arm, • Substernal area of the upper chest

  17. Thank you

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