Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project)

Marcin Karcz; Alaa Abd-Elsayed; Krishnan Chakravarthy; Mansoor M. Aman; Natalie Strand; Mark N. Malinowski; Usman Latif; David Dickerson; Tolga Suvar; Timothy Lubenow; Evan Peskin; Ryan D’souza; Eric Cornidez; Andrew Dudas; Christopher Lam; Michael Farrell; Geum Yeon Sim; Mohamad Sebai; Rosa Garcia; Lucas Bracero; Yussr Ibrahim; Syed Jafar Mahmood; Marco Lawandy; Daniel Jimenez; Leili Shahgholi; Kamil Sochacki; Mohamed Ehab Ramadan; Vinicius Tieppo Francio; Dawood Sayed; Timothy Deer

doi:10.2147/JPR.S475351

Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project)

Marcin Karcz, Alaa Abd-Elsayed, Krishnan Chakravarthy, Mansoor M. Aman, Natalie Strand, Mark N. Malinowski, Usman Latif, David Dickerson, Tolga Suvar, Timothy Lubenow, Evan Peskin, Ryan D’souza, Eric Cornidez, Andrew Dudas, Christopher Lam, Michael Farrell, Geum Yeon Sim, Mohamad Sebai, Rosa Garcia, Lucas BraceroYussr Ibrahim, Syed Jafar Mahmood, Marco Lawandy, Daniel Jimenez, Leili Shahgholi, Kamil Sochacki, Mohamed Ehab Ramadan, Vinicius Tieppo Francio, Dawood Sayed, Timothy Deer

Division of Pain Management

Research output: Contribution to journal › Review article › peer-review

3 Scopus citations

Abstract

Pain serves as a vital innate defense mechanism that can significantly impact an individual’s quality of life. Understanding the physiological effects of pain well plays an important role in developing novel pain treatments. Nociceptor neurons play a key role in pain and inflammation. Interactions between nociceptors and the immune system occur both at the site of injury and within the central nervous system. Modulating chemical mediators and nociceptor activity offers promising new approaches to pain management. Essentially, the sensory nervous system is essential for modulating the body’s protective response, making it critical to understand these interactions to discover new pain treatment strategies. New innovations in neuromodulation have led to alternatives to opioids individuals with chronic pain with consequent improvement in disease-based treatment and nerve targeting. New neural targets from cellular and structural perspectives have revolutionized the field of neuromodulation. This narrative review aims to elucidate the mechanisms of pain transmission and processing, examine the characteristics and properties of nociceptors, and explore how the immune system influences pain perception. It further provides an updated overview of the physiology of pain and neuromodulatory mechanisms essential for managing acute and chronic pain. We assess the current understanding of different pain types, focusing on key molecules involved in each type and their physiological effects. Additionally, we compare painful and painless neuropathies and discuss the neuroimmune interactions involved in pain manifestation.

Original language	English
Pages (from-to)	3757-3790
Number of pages	34
Journal	Journal of Pain Research
Volume	17
DOIs	https://doi.org/10.2147/JPR.S475351
State	Published - 2024

Keywords

neurons
neuropathic pain
nociceptive pain
nociplastic pain
pain pathways
physiological effects
sensitization

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10.2147/JPR.S475351

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Karcz, M., Abd-Elsayed, A., Chakravarthy, K., Aman, M. M., Strand, N., Malinowski, M. N., Latif, U., Dickerson, D., Suvar, T., Lubenow, T., Peskin, E., D’souza, R., Cornidez, E., Dudas, A., Lam, C., Farrell, M., Sim, G. Y., Sebai, M., Garcia, R., ... Deer, T. (2024). Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project). Journal of Pain Research, 17, 3757-3790. https://doi.org/10.2147/JPR.S475351

@article{a24eeb8c7eaa43a6899e120e7a4ed304,

title = "Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project)",

abstract = "Pain serves as a vital innate defense mechanism that can significantly impact an individual{\textquoteright}s quality of life. Understanding the physiological effects of pain well plays an important role in developing novel pain treatments. Nociceptor neurons play a key role in pain and inflammation. Interactions between nociceptors and the immune system occur both at the site of injury and within the central nervous system. Modulating chemical mediators and nociceptor activity offers promising new approaches to pain management. Essentially, the sensory nervous system is essential for modulating the body{\textquoteright}s protective response, making it critical to understand these interactions to discover new pain treatment strategies. New innovations in neuromodulation have led to alternatives to opioids individuals with chronic pain with consequent improvement in disease-based treatment and nerve targeting. New neural targets from cellular and structural perspectives have revolutionized the field of neuromodulation. This narrative review aims to elucidate the mechanisms of pain transmission and processing, examine the characteristics and properties of nociceptors, and explore how the immune system influences pain perception. It further provides an updated overview of the physiology of pain and neuromodulatory mechanisms essential for managing acute and chronic pain. We assess the current understanding of different pain types, focusing on key molecules involved in each type and their physiological effects. Additionally, we compare painful and painless neuropathies and discuss the neuroimmune interactions involved in pain manifestation.",

keywords = "neurons, neuropathic pain, nociceptive pain, nociplastic pain, pain pathways, physiological effects, sensitization",

author = "Marcin Karcz and Alaa Abd-Elsayed and Krishnan Chakravarthy and Aman, {Mansoor M.} and Natalie Strand and Malinowski, {Mark N.} and Usman Latif and David Dickerson and Tolga Suvar and Timothy Lubenow and Evan Peskin and Ryan D{\textquoteright}souza and Eric Cornidez and Andrew Dudas and Christopher Lam and Michael Farrell and Sim, {Geum Yeon} and Mohamad Sebai and Rosa Garcia and Lucas Bracero and Yussr Ibrahim and Mahmood, {Syed Jafar} and Marco Lawandy and Daniel Jimenez and Leili Shahgholi and Kamil Sochacki and Ramadan, {Mohamed Ehab} and Francio, {Vinicius Tieppo} and Dawood Sayed and Timothy Deer",

note = "Publisher Copyright: {\textcopyright} 2024 Karcz et al.",

year = "2024",

doi = "10.2147/JPR.S475351",

language = "English",

volume = "17",

pages = "3757--3790",

journal = "Journal of Pain Research",

issn = "1178-7090",

}

Karcz, M, Abd-Elsayed, A, Chakravarthy, K, Aman, MM, Strand, N, Malinowski, MN, Latif, U, Dickerson, D, Suvar, T, Lubenow, T, Peskin, E, D’souza, R, Cornidez, E, Dudas, A, Lam, C, Farrell, M, Sim, GY, Sebai, M, Garcia, R, Bracero, L, Ibrahim, Y, Mahmood, SJ, Lawandy, M, Jimenez, D, Shahgholi, L, Sochacki, K, Ramadan, ME, Francio, VT, Sayed, D & Deer, T 2024, 'Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project)', Journal of Pain Research, vol. 17, pp. 3757-3790. https://doi.org/10.2147/JPR.S475351

TY - JOUR

T1 - Pathophysiology of Pain and Mechanisms of Neuromodulation

T2 - A Narrative Review (A Neuron Project)

AU - Karcz, Marcin

AU - Abd-Elsayed, Alaa

AU - Chakravarthy, Krishnan

AU - Aman, Mansoor M.

AU - Strand, Natalie

AU - Malinowski, Mark N.

AU - Latif, Usman

AU - Dickerson, David

AU - Suvar, Tolga

AU - Lubenow, Timothy

AU - Peskin, Evan

AU - D’souza, Ryan

AU - Cornidez, Eric

AU - Dudas, Andrew

AU - Lam, Christopher

AU - Farrell, Michael

AU - Sim, Geum Yeon

AU - Sebai, Mohamad

AU - Garcia, Rosa

AU - Bracero, Lucas

AU - Ibrahim, Yussr

AU - Mahmood, Syed Jafar

AU - Lawandy, Marco

AU - Jimenez, Daniel

AU - Shahgholi, Leili

AU - Sochacki, Kamil

AU - Ramadan, Mohamed Ehab

AU - Francio, Vinicius Tieppo

AU - Sayed, Dawood

AU - Deer, Timothy

PY - 2024

Y1 - 2024

N2 - Pain serves as a vital innate defense mechanism that can significantly impact an individual’s quality of life. Understanding the physiological effects of pain well plays an important role in developing novel pain treatments. Nociceptor neurons play a key role in pain and inflammation. Interactions between nociceptors and the immune system occur both at the site of injury and within the central nervous system. Modulating chemical mediators and nociceptor activity offers promising new approaches to pain management. Essentially, the sensory nervous system is essential for modulating the body’s protective response, making it critical to understand these interactions to discover new pain treatment strategies. New innovations in neuromodulation have led to alternatives to opioids individuals with chronic pain with consequent improvement in disease-based treatment and nerve targeting. New neural targets from cellular and structural perspectives have revolutionized the field of neuromodulation. This narrative review aims to elucidate the mechanisms of pain transmission and processing, examine the characteristics and properties of nociceptors, and explore how the immune system influences pain perception. It further provides an updated overview of the physiology of pain and neuromodulatory mechanisms essential for managing acute and chronic pain. We assess the current understanding of different pain types, focusing on key molecules involved in each type and their physiological effects. Additionally, we compare painful and painless neuropathies and discuss the neuroimmune interactions involved in pain manifestation.

AB - Pain serves as a vital innate defense mechanism that can significantly impact an individual’s quality of life. Understanding the physiological effects of pain well plays an important role in developing novel pain treatments. Nociceptor neurons play a key role in pain and inflammation. Interactions between nociceptors and the immune system occur both at the site of injury and within the central nervous system. Modulating chemical mediators and nociceptor activity offers promising new approaches to pain management. Essentially, the sensory nervous system is essential for modulating the body’s protective response, making it critical to understand these interactions to discover new pain treatment strategies. New innovations in neuromodulation have led to alternatives to opioids individuals with chronic pain with consequent improvement in disease-based treatment and nerve targeting. New neural targets from cellular and structural perspectives have revolutionized the field of neuromodulation. This narrative review aims to elucidate the mechanisms of pain transmission and processing, examine the characteristics and properties of nociceptors, and explore how the immune system influences pain perception. It further provides an updated overview of the physiology of pain and neuromodulatory mechanisms essential for managing acute and chronic pain. We assess the current understanding of different pain types, focusing on key molecules involved in each type and their physiological effects. Additionally, we compare painful and painless neuropathies and discuss the neuroimmune interactions involved in pain manifestation.

KW - neurons

KW - neuropathic pain

KW - nociceptive pain

KW - nociplastic pain

KW - pain pathways

KW - physiological effects

KW - sensitization

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U2 - 10.2147/JPR.S475351

DO - 10.2147/JPR.S475351

M3 - Review article

C2 - 39583192

AN - SCOPUS:85210519064

SN - 1178-7090

VL - 17

SP - 3757

EP - 3790

JO - Journal of Pain Research

JF - Journal of Pain Research

ER -

Pathophysiology of Pain and Mechanisms of Neuromodulation: A Narrative Review (A Neuron Project)

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Keywords

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