Migraine With Aura Clinical Trial
Official title:
A Phase 2a Study of the Safety and Effectiveness of NXN-188 for the Acute Treatment of Migraine Attacks With Aura
The following study is being conducted to explore the safety and effectiveness of a new chemical entity called NXN-188 in subjects with a history of migraine with aura. In this study subjects will treat two attacks of migraine with aura during the aura phase - once with placebo and once with NXN-188.
The purpose of this study is to examine a new chemical entity with 5HT agonist activity and
an inhibition of the nitric oxide synthase enzyme (NOS) in patients suffering from migraine
with aura. Nitric oxide has diverse roles both in normal and pathological processes
including the regulation of blood pressure, neurotransmission, and macrophage defense
systems. NO is synthesized by three isoforms of the NOS enzyme: neuronal (n), inducible (i)
and endothelial (e). Neuronal NOS (nNOS) is found mainly in neuronal tissue and regulates
changes in response sensitivity and cellular plasticity; iNOS is found in macrophages and
other tissue, produces NO in response to stress and injury and is one source of
inflammation; eNOS is found in endothelial cells, responsible for vascular homeostasis and
the presumed mechanism for the effects of nitroglycerine therapy in angina; nitroglycerine
is an NO donor. NXN-188 is selectively inhibits nNOS.
There is ample scientific and clinical evidence that NO is involved in the pathogenesis of
migraine pain, as well as other pain states characterized by central sensitization (e.g.,
neuropathic pain). NO donors such as trinitroglycerine induce headache followed by migraine
in migraineurs with or without aura ; moreover, platelet nitrates (a signal for increased
NO) increase before and during a migraine attack. In addition, increasing NO levels can
enhance pain responses in animals, including allodynia in rats; NO is a component of several
pathways where pain systems converge in the PNS and CNS and regulates the activity of
numerous transmitter systems ; NO is involved in central sensitization particularly those
involving NMDA and calcium channels and thought to be a major component of the formation of
neuropathic pain states Non-specific NOS inhibitors have been reported to relieve migraine
and chronic tension type headaches in human studies. In animals, NOS inhibitors reduce
pain-related behaviors in multiple neuropathic pain models and spinal cord ischemia as well
as reducing pain related behaviors in chemically-induced pain models, particularly in
secondary pain states.
The development of central sensitization in the course of a migraine attack suggests a role
for the neuronal isoform of the NOS enzyme.
NXN-188 can bind to both 5-HT1D and 5-HT1B receptors with potency similar to sumatriptan; it
also selectively binds to nNOS with a level of nNOS inhibition similar to L-NMMA. NXN-188 is
devoid of any relevant eNOS inhibition in in vitro cloned human enzyme assays or ex vivo in
human coronary arteries and is expected to be effective in treating migraine by inhibition
of the nNOS enzyme without vasoconstrictive effects associated with non-selective compounds
such as L-NMMA.
The following study is being conducted to further explore NXN-188 response in subjects with
a migraine history of aura. In this study subjects will treat two attacks of migraine with
aura during the aura phase - once with placebo and once with NXN-188.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Treatment
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