Cardiovascular and neuronal responses to head stimulation reflect central sensitization and cutaneous allodynia in a rat model of migraine.

@article{Yamamura1999CardiovascularAN,
  title={Cardiovascular and neuronal responses to head stimulation reflect central sensitization and cutaneous allodynia in a rat model of migraine.},
  author={Hideki Yamamura and Amy Malick and Nancy L. Chamberlin and Rami Burstein},
  journal={Journal of neurophysiology},
  year={1999},
  volume={81 2},
  pages={
          479-93
        }
}
Reduction of the threshold of cardiovascular and neuronal responses to facial and intracranial stimulation reflects central sensitization and cutaneous allodynia in a rat model of migraine. Current theories propose that migraine pain is caused by chemical activation of meningeal perivascular fibers. We previously found that chemical irritation of the dura causes trigeminovascular fibers innervating the dura and central trigeminal neurons receiving convergent input from the dura and skin to… 
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It is concluded that neuronal responses to dural electrical stimulation can serve as a suitable marker which together with admitted electrophysiological signs can objectively detect central trigeminal sensitisation and its modulation by anti-migraine treatments in this preclinical model of migraine.
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TLDR
The results suggest that NO can induce delayed, slowly developing activation of central trigeminal neurons and that endogenous release of NO may contribute to the ongoing activity of these neurons.
Sensitisation of the trigeminovascular system : implications for migraine pathophysiology.
TLDR
The findings from these studies demonstrate that the behaviour of second order neurons in the spinal trigeminal nucleus is fundamentally different following input from the dura mater compared to input from facial cutaneous afferents, and underlie at least part of the pathophysiology associated with migraine.
Repeated noxious stimulation of the skin enhances cutaneous pain perception of migraine patients in-between attacks: clinical evidence for continuous sub-threshold increase in membrane excitability of central trigeminovascular neurons
The Nociceptive Blink Reflex in Migraine: An investigation of endogenous and exogenous modulators on the trigeminal nervous system in migraine sufferers.
TLDR
There was some evidence of interictal sensitisation in migraine sufferers, but this would be better investigated with test stimuli that strongly activate nociceptive afferent fibres in terms of spatial and temporal summation.
Trigeminal nervous system sensitization by infraorbital nerve injury enhances responses in a migraine model
TLDR
It is shown for the first time that the existence of the central sensitization of V2 can be an exacerbating factor for migraine related nociceptive thresholds/activation.
Analgesic triptan action in an animal model of intracranial pain: A race against the development of central sensitization
TLDR
Early treatment and late treatment results suggest that triptan action provides a powerful means of preventing the initiation of central sensitization triggered by chemical stimulation of meningeal nociceptors, and triptans action appears to be exerted directly on peripheral rather than central trigeminovascular neurons.
Is there a correlation between spreading depression, neurogenic inflammation, and nociception that might cause migraine headache?
TLDR
In 33 rats, neither single CSDs nor a series of CSDs altered ongoing neuronal activity or mechanical and/or thermal sensitivity of the deeply located neurons to stimulation of their receptive fields in the dura mater, suggesting that CSD initiates migraine headache via neurogenic inflammation.
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