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Major Somatic Sensory Pathways01:28

Major Somatic Sensory Pathways

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Sensory impulses related to touch, pressure, vibration, and proprioception from various body parts, such as the limbs, trunk, neck, and posterior head, travel to the cerebral cortex through the posterior column-medial lemniscus pathway. The pathway’s name derives from the two white-matter tracts that convey the impulses: the spinal cord's posterior column and the brainstem's medial lemniscus. First-order sensory neurons extend their axons into the spinal cord, forming the...
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Overview of Somatic Sensory Pathways01:29

Overview of Somatic Sensory Pathways

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Somatic sensory or somatosensory pathways refer to the neural pathways that carry information related to touch, pressure, pain, temperature, and proprioception from the skin, muscles, tendons, and joints to the brain. These pathways involve several stages of processing and integration of sensory information.
The somatosensory system is divided into three main pathways: the dorsal (or posterior) column-medial lemniscus, spinothalamic (or anterolateral), and spinocerebellar pathways.
The dorsal...
7.6K
Sympathetic Pathways: Collateral Ganglia and Adrenal Medulla01:27

Sympathetic Pathways: Collateral Ganglia and Adrenal Medulla

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The sympathetic pathways of the collateral ganglia and adrenal medulla serve unique but interconnected roles in the sympathetic response.
Collateral Ganglia
Sympathetic preganglionic axons reach the collateral ganglia along the route of splanchnic nerves. These nerves bypass the sympathetic trunk and communicate with sympathetic postganglionic neurons housed in the prevertebral ganglia. These ganglia supply the organs of the abdominopelvic cavity.
The greater splanchnic nerve, formed by the...
2.1K
Pain01:20

Pain

1.0K
Pain serves as a critical warning signal that alerts the body to potential or actual harm. When mechanical pressure on the skin is intense, such as from a sharp pinch, the sensation transitions from touch to pain. Similarly, extreme temperatures, like a hot pot handle, convert the sensation of heat into pain. Pain can also result from overstimulation of other senses, such as blinding light, loud noise, or the intense heat from habañero peppers. This ability to sense pain is essential for...
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Indirect Motor Pathways01:22

Indirect Motor Pathways

2.6K
The indirect motor or extrapyramidal pathways originate in the brainstem, the lower portion of the brain that connects it to the spinal cord. They consist of several distinct tracts, each with specialized functions. The four main tracts of the indirect motor pathways are the vestibulospinal tract, the reticulospinal tract, the tectospinal tract, and the rubrospinal tract.
The vestibulospinal tract originates in the vestibular nuclei of the brainstem. The vestibular system detects changes in...
2.6K
Analgesia and Pain Management01:25

Analgesia and Pain Management

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Pain is critical to various clinical pathologies, provoking an urgent need for effective management. Pain, whether acute or chronic, is a complex neurochemical process. Its alleviation depends on the type, with nonopioid analgesics effective for mild to moderate pain, such as musculoskeletal or inflammatory pain, while neuropathic pain responds best to anticonvulsants, tricyclic antidepressants, or serotonin/norepinephrine reuptake inhibitors. For severe acute or chronic pain, opioids may be...
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Related Experiment Video

Updated: Nov 30, 2025

Intracranial Pharmacotherapy and Pain Assays in Rodents
02:26

Intracranial Pharmacotherapy and Pain Assays in Rodents

Published on: April 9, 2019

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Parallel cortical-brainstem pathways to attentional analgesia.

Valeria Oliva1, Rob Gregory2, Wendy-Elizabeth Davies2

  • 1School of Physiology, Pharmacology and Neuroscience, Biomedical Sciences Building, University of Bristol, Bristol BS8 1TD, United Kingdom.

Neuroimage
|November 13, 2020
PubMed
Summary

Focusing attention away from pain, known as attentional analgesia, involves brainstem and cortex interactions. The anterior cingulate cortex (ACC) modulates pain by engaging specific brainstem circuits, reducing pain perception.

Keywords:
AnalgesiaAttentionBrainstemConnectivityPainfMRI

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Area of Science:

  • Neuroscience
  • Psychophysics
  • Pain Research

Background:

  • Pain perception can be modulated by attention, a phenomenon termed attentional analgesia.
  • Previous research implicated the brainstem triad (locus coeruleus, rostral ventromedial medulla, periaqueductal grey) in attentional analgesia.
  • The precise neural mechanisms and functional interactions underlying attentional analgesia remain incompletely understood.

Purpose of the Study:

  • To identify and model the functional interactions between brainstem regions and the cortex during attentional analgesia in humans.
  • To investigate how attentional demand modulates these neural circuits.
  • To elucidate the role of the anterior cingulate cortex (ACC) in pain modulation via brainstem pathways.

Main Methods:

  • Functional magnetic resonance imaging (fMRI) in 57 healthy subjects.
  • Application of painful thermal stimuli concurrent with a visual attention task.
  • Psycho-Physiological Interaction (PPI) analysis and Dynamic Causal Modelling (DCM) to assess functional connectivity.

Main Results:

  • Rostral ventromedial medulla (RVM) activity correlated with perceived pain intensity.
  • Contralateral locus coeruleus (LC) activity correlated with the degree of attentional analgesia.
  • Two parallel forebrain-brainstem pathways were identified: an anterior cingulate cortex (ACC)-right LC bidirectional loop and a top-down ACC-periaqueductal grey (PAG)-RVM pathway influenced by task demands.

Conclusions:

  • Attentional analgesia involves distinct parallel pathways between the ACC and brainstem (LC, PAG, RVM).
  • The ACC utilizes these pathways to modulate nociceptive input, thereby reducing pain under conditions of competing attentional demands.
  • This study provides a detailed model of the neural circuitry enabling cognitive control over pain perception.