Different levels of pain processing and different sites for sensitization.
Different levels of pain processing and different sites for sensitization.
Different levels of pain processing and different sites for sensitization.
How are peripheral temperature and pain signals detected?
Signal transduction in nociceptors
Nociceptor-specific Na+ channels
Afferent fiber conduction and pain
Two populations of C and Ad fibers projecting to the superficial dorsal horn
Different levels of pain processing and different sites for sensitization.
Molecular mechanisms associated with peripheral sensitization
Peripheral terminals of primary afferent nociceptors respond to inflammatory mediators
The peripheral signal is carried to the spinal cord
Nociceptive inputs go to lamina I, II and V in the dorsal horn
Synapses between primary afferent C fibers and dorsal horn neurons
Classes of neurotransmitter receptors
Synaptic transmission between nociceptors and dorsal horn neurons
Current-voltage relationship for synaptic currents mediated by AMPA and NMDA receptors
Dorsal horn neurons expressing receptor for substance P, the NK1 receptor.
Different levels of pain processing and different sites for sensitization.
Thermal injury can sensitize nociceptors
Activation of neural plasticity in the spinal cord dorsal horn: fast EPSPs
Increased number of astrocytes in spinal cord in model of bone cancer
Increase in number of microglia following peripheral nerve injury accompanies tactile allodynia
Ascending nociceptive pathway- anterolateral white matter to the thalamus
Ascending Pain pathways:
-traditional
-lamina I
The thermal-grill illusion
of pain
-burning pain with innocuous warm (40o) and cool (20o)
bars.
Descending pathway that regulates nociceptive signaling in dorsal horn
Opioid receptors – 3 gene families