Headache Prophylaxis By Cortico-brainstem Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$616,437.00
Summary
In this project we hope to discover the cause of migraine headache. Many triggers lead to migraine, but we do not know how. We believe the triggers produce a defect in pain control by the brainstem, which normally keeps sensation from the head below the pain threshold. In migraine, trigger factors acting high in the brain open a pain control gate lower in the brain, producing a migraine headache. If we can prove this, we can develop therapies that will prevent migraine before it starts.
Trigeminal pain includes such disorders as headache, migraine, trigeminal neuralgia, dental and temporomandibular joint pain. These disorders affect more than 10 % of the population and many of the afflicted get only partial relief from current treatments. Trigeminal pain is conveyed from the head to the brain via primary afferent nerves. Work in the current proposal focuses on transmission of information in the brainstem as well as in the primary afferent nerves. Previously our group has report ....Trigeminal pain includes such disorders as headache, migraine, trigeminal neuralgia, dental and temporomandibular joint pain. These disorders affect more than 10 % of the population and many of the afflicted get only partial relief from current treatments. Trigeminal pain is conveyed from the head to the brain via primary afferent nerves. Work in the current proposal focuses on transmission of information in the brainstem as well as in the primary afferent nerves. Previously our group has reported that adenosine- 5' triphosphate (ATP) causes an increase in excitatory neurotransmission from primary afferent nerves; such an increase has been reported to be painful in previous human and animal studies. Recently we have shown that the ATP induced increase in neurotransmission is dependant on activation of a specific excitatory receptor, the N-methyl D aspartate (NMDA) receptor, which has been widely implicated in other brain functions such as memory, and in disorders such as neuron death following stroke. The chief investigators involved in this application plan to study the role of the ATP receptor and the interaction with NMDA receptors in an inflammatory trigeminal pain model. Electrophysiological, pharmacological and immunohistochemical studies will be performed in order to address the aims of this proposal. A greater understanding of how these receptors modulate neurotransmission in pain pathways will lead to a greater understanding of trigeminal pain and the potential development of new therapeutics.Read moreRead less