Molecular Mechanisms of Pain
Course duration:4 h
Long term chronic pain, mainly inflammatory or neuropathic, afflicts about 25% of the general world population. More than 60% of people aged 65 plus complain of daily pains. This degree of disability has a huge economic toll in terms of the loss of employment and disability payments but quality of life is equally compromised. Pain is thus a major medical issue, although it is not simply a sensation but an event that also triggers aversive and threatening psychological feelings. The importance of understanding the ways by which the central nervous system can alter incoming signals that relate to pain processing stimulated an increasing number of investigations, many of which are concentrated on two first elements in the pain pathway – dorsal root ganglion (DRG) and dorsal horn (DH) neurons. Multiple and possibly common mechanisms appear to be involved in the generation of chronic pain on the level of primary and secondary sensory neurons independently of aetiological diagnosis of pain. Molecular mechanisms leading to changes in the patterns of action potential generation in primary neurons, modification of synaptic transmission between primary central afferents and secondary dorsal horn neurons and spinal neuron hyperexcitability acting in concert contribute to the generation of chronic pain. In spite of profound difference in patterns of changes or damage in primary and secondary nociceptive neurons, the pain syndromes as observed in numerous studies conducted on different animal models are generally common. Thus, there is a reason to believe that multiple and common mechanisms may be present in chronic pain conditions of all etiologies.
Tutor
Dr. Nana Voitenko
Country: Ukraine
Place of employment: Head of the Laboratory of Sensory Signalling, Department of General Physiology of Nervous System, Bogomolets Institute of Physiology of the NASU, Kyiv, Ukraine
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