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| pain [2024/04/28 08:58] – [Introduction] tom | pain [2024/12/26 16:50] (current) – [Melzack and Wall Gate Theory of Pain] andrewtaustin |
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| ====== Melzack and Wall Gate Theory of Pain ====== | ====== Melzack and Wall Gate Theory of Pain ====== |
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| The Melzack and Wall gate theory of pain, also known as the gate control theory[(Gatecontroltheory>Gate control theory[[https://en.wikipedia.org/wiki/Gate_control_theory|Wikipedia]])], represents a seminal framework for understanding pain physiology. Proposed by Ronald Melzack[(Ronald_Melzack>Ronald_Melzack[[https://en.wikipedia.org/wiki/Ronald_Melzack|Wikipedia]])] and Patrick Wall[(Patrick_D._Wall>Patrick D. Wall [[https://en.wikipedia.org/wiki/Patrick_D._Wall_(scientist)|Wikipedia]])] in their 1965 paper published in "Science" journal[( :harvard:Adam2024>> | The Melzack and Wall gate theory of pain, also known as the gate control theory[(Gatecontroltheory>Gate control theory[[https://en.wikipedia.org/wiki/Gate_control_theory|Wikipedia]])], represents a seminal framework for understanding pain physiology. Proposed by Ronald Melzack[(Ronald_Melzack>Ronald Melzack[[https://en.wikipedia.org/wiki/Ronald_Melzack|Wikipedia]])] and Patrick Wall[(Patrick_D._Wall>Patrick D. Wall [[https://en.wikipedia.org/wiki/Patrick_D._Wall_(scientist)|Wikipedia]])] in their 1965 paper published in "Science" journal[( :harvard:Melzack1965>> |
| authors : Melzack R, Wall PD | authors : Melzack R, Wall PD |
| title : Pain mechanisms: a new theory | title : Pain mechanisms a new theory |
| publisher : Science | publisher : Science |
| published : November 1965 | published : November 1965 |
| url : doi:10.1126/science.150.3699.971 | url : doi:10.1126/science.150.3699.971 |
| )][(Patrick_D._Wall>Patrick D. Wall [[http://www.hnehealth.nsw.gov.au/__data/assets/pdf_file/0012/70122/pain_mechanisms_20100315013844.pdf|Pain mechanisms: a new theory PDF]])], this theory revolutionized the scientific community's perception of pain by suggesting that pain perception involves complex interactions between different neural systems in the dorsal horns of the spinal cord. | )][(PDF>Pain mechanisms: a new theory PDF [[http://www.hnehealth.nsw.gov.au/__data/assets/pdf_file/0012/70122/pain_mechanisms_20100315013844.pdf|archive.org]])], this theory revolutionized the scientific community's perception of pain by suggesting that pain perception involves complex interactions between different neural systems in the dorsal horns of the spinal cord. |
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| ==== Introduction ==== | ==== Introduction ==== |
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| ==== Basic Mechanism ==== | ==== Basic Mechanism ==== |
| At the heart of the gate control theory is the assertion that the dorsal horn of the spinal cord contains a neurological "gate" that modulates the pain signal before it is transmitted to the brain. This gate is influenced by the relative amount of activity in larger, faster nerve fibres (which carry non-painful sensory information) and smaller, slower nerve fibres (which carry pain signals). | At the heart of the gate control theory is the assertion that the dorsal horn[(Posterior_grey_column>Posterior grey column [[https://en.wikipedia.org/wiki/Posterior_grey_column|Wikipedia]])] of the spinal cord contains a neurological "gate" that modulates the pain signal before it is transmitted to the brain. This gate is influenced by the relative amount of activity in larger, faster nerve fibres (which carry non-painful sensory information) and smaller, slower nerve fibres (which carry pain signals). |
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| ===== Interaction of Nerve Fibres ===== | ===== Interaction of Nerve Fibres ===== |
| * **A-beta fibres**: Large, myelinated fibres transmit touch and vibration signals rapidly. They inhibit the transmission of pain signals by closing the gate. | * **A-beta fibres[(Group_A_nerve_fiber>Group A nerve fiber[[https://en.wikipedia.org/wiki/Group_A_nerve_fiber|Wikipedia]])]**: Large, myelinated fibres transmit touch and vibration signals rapidly. They inhibit the transmission of pain signals by closing the gate. |
| * **C fibres**: These small, unmyelinated fibres transmit slow, throbbing pain signals. Their activity opens the gate, allowing pain signals to ascend to the brain. | * **C fibres[(Group_C_nerve_fiber>Group C nerve fiber[[https://en.wikipedia.org/wiki/Group_C_nerve_fiber|Wikipedia]])]**: These small, unmyelinated fibres transmit slow, throbbing pain signals. Their activity opens the gate, allowing pain signals to ascend to the brain. |
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| ==== Modulation by Higher Brain Centres ==== | ==== Modulation by Higher Brain Centres ==== |
| ==== Clinical Implications ==== | ==== Clinical Implications ==== |
| The theory has extensive implications for pain management and therapy. Understanding that pain signals can be modulated provides a basis for therapeutic approaches that aim to "close the gate," such as: | The theory has extensive implications for pain management and therapy. Understanding that pain signals can be modulated provides a basis for therapeutic approaches that aim to "close the gate," such as: |
| * **Transcutaneous Electrical Nerve Stimulation (TENS)**: This technique uses electrical stimulation to activate A-beta fibres, reducing pain perception. | * **Transcutaneous Electrical Nerve Stimulation (TENS)[(Transcutaneous_electrical_nerve_stimulation>Transcutaneous electrical nerve stimulation[[https://en.wikipedia.org/wiki/Transcutaneous_electrical_nerve_stimulation|Wikipedia]])]**: This technique uses electrical stimulation to activate A-beta fibres, reducing pain perception. |
| * **Pharmacological interventions**: Certain medications can enhance inhibitory neurotransmitter levels at the gate, modulating pain transmission. | * **Pharmacological interventions**: Certain medications can enhance inhibitory neurotransmitter levels at the gate, modulating pain transmission. |
| * **Psychological interventions**: Techniques such as cognitive behavioural therapy (CBT) can modify the psychological factors influencing descending control pathways. | * **Psychological interventions**: Techniques such as cognitive behavioural therapy (CBT) can modify the psychological factors influencing descending control pathways. |
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| ==== References ==== | ==== References ==== |
| * Melzack, R., & Wall, P.D. (1965). Pain Mechanisms: A New Theory. Science, 150(3699), 971-979. | * Melzack, R., & Wall, P.D. (1965). Pain Mechanisms: A New Theory. Science, 150(3699), 971-979.[( :harvard:Melzack1965>> |
| * Neuroscience Online: The Gate Control Theory of Pain [University of Texas Health Science Center at Houston (UTHealth)]. | authors : Melzack R, Wall PD |
| | title : Pain mechanisms a new theory |
| | publisher : Science |
| | published : November 1965 |
| | url : doi:10.1126/science.150.3699.971 |
| | )][(PDF>Pain mechanisms: a new theory PDF [[http://www.hnehealth.nsw.gov.au/__data/assets/pdf_file/0012/70122/pain_mechanisms_20100315013844.pdf|archive.org]])] |
| | * Neuroscience Online: The Gate Control Theory of Pain [University of Texas Health Science Center at Houston (UTHealth)][(Neuroscience_Online>Neuroscience Online [[https://nba.uth.tmc.edu/neuroscience/|UTHealth]])]. |
| * Pain Management and the Human Brain [Johns Hopkins Medicine]. | * Pain Management and the Human Brain [Johns Hopkins Medicine]. |
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