Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
  1. Home
  2. Search

Refine search

Refine search

Access:
Content type:
Publication date:
Apply   From and To filters
Subject: Show more
Journals Show more
Publishers: Show more
Societies Show more
Series: Show more
Collections: Show more

Actions for selected content:

Select all | Deselect all
  • View selected items
  • Export citations
  • Download PDF (zip)
  • Save to Kindle
  • Save to Dropbox
  • Save to Google Drive

Save Search

You can save your searches here and later view and run them again in "My saved searches".

Please provide a title, maximum of 40 characters.
Cancel
×

2 results

  • Chapter 13 - Central pain symptoms in multiple sclerosis

  • from Section 4 - The Specific Condition: Central Neuropathic Pain
  • Edited by Cory Toth, Dwight E. Moulin
  • Book:
    Neuropathic Pain
    Published online:
    05 December 2013
    Print publication:
    07 November 2013, pp 156-169

  • Summary

    This chapter explores the cellular and genetic mechanisms important in the development of neuropathic pain and other forms of chronic pain related to the phenomenon of sensitization. Peripheral sensitization contributes to pain hypersensitivity found at the location of tissue damage and/or inflammation. The chapter reviews the events that underlie pain as well as the anatomical and pharmacological basis for nociceptive sensations and chronic pain. Nociceptor excitation via various transient receptor potential (TRP) channels can result from a number of contributing processes. Transduction of mechanical, thermal, and chemical stimuli begins with membrane depolarization, which, if sufficient, transforms into an action potential. There are three classes of cell surface proteins at the sensory neuron important for sensory transduction: ion channels, metabotropic G protein-coupled receptors (GPCRs), and receptors for neurotrophins or cytokines. An important concept in central modulation of pain is the central inhibitory pathways and networks.

  • Studies of neurotrophin biology in the developing trigeminal system

  • ALUN M. DAVIES
  • Journal:
    The Journal of Anatomy / Volume 191 / Issue 4 / November 1997
    Published online by Cambridge University Press:
    01 November 1997, pp. 483-491
    Print publication:
    November 1997

  • The accessibility of the primary sensory neurons of the trigeminal system at stages throughout their development in avian and mammalian embryos and the ease with which these neurons can be studied in vivo has facilitated investigation of several fundamental aspects of neurotrophin biology. Studies of the timing and sequence of action of neurotrophins and the expression of neurotrophins and their receptors in this well characterised neuronal system have led to a detailed understanding of the functions of neurotrophins in neuronal development. The concepts of neurotrophin independent survival, neurotrophin switching and neurotrophin cooperativity have largely arisen from work on the trigeminal system. Moreover, in vitro studies of trigeminal neurons provided some of the first evidence that the neurotrophin requirements of sensory neurons are related to sensory modality. The developing trigeminal system has been studied most extensively in mice and chickens, each of which has particular advantages for understanding different aspects of neurotrophin biology. In this review, I will outline these advantages and describe some of the main findings that have arisen from this work.