View clinical trials related to Migraine Without Aura.
Filter by:Acupuncture has been a means of treating headaches and migraine since 2002 and is now a World Health Organisation-recognized prophylactic treatment for migraine. Brain activation/de-activation via acupuncture modifies the haemodynamic responses in the brain which may impact the sensorial, cognitive and affective dimensions of pain. Randomized studies on patients suffering from aura-free migraine have shown that the painkilling effect of regular acupuncture sessions on the cerebral substratum, compared with simulated sham-type acupuncture, can reduce the frequency of bouts of migraine, number of days with headaches and also their intensity. Modifications to the white matter (WM) and grey matter (GM) occur after repeated sessions of acupuncture treatment for pain and these are observable via magnetic resonance imaging (MRI). It is a very sensitive technique and often used to detect functional and structural brain changes.
The purpose of the study is assessment of the safety and efficacy of the De-Novo therapy in the treatment of craniofacial neuralgia and migraine headaches.This is an open-label study of simultaneous administration of combination of dexamethasone, lidocaine, and thiamine into the trigeminal nerve branches as well as greater and lesser occipital nerve bilaterally in one session. Patients who meet the exclusion and inclusion criteria are eligible for trial if they have experienced chronic migraine and craniofacial pain not responding to other prior therapies.
Migraine is the most common headache disorder, prevalent in 18% of females and 6% of males. Emergency room visits, physician consults, hospitalizations, medications, and indirect costs such as lost work days and decreased productivity place the global economic burden of migraines at over 20 billion dollars. It is prevalent in 28 million people in the US alone. Symptoms include unilateral, throbbing, debilitating headache pain accompanied by nausea, vomiting, photophobia, and phonophobia. Upwards of 75% of migraine patients have reduced functionability, have lost time at work, and 1/3 of patients require bed rest to manage the symptoms. The health-related impact on quality of life was comparable with that experienced by patients with congestive heart failure, hypertension, or diabetes. While the burden of migraines on our society is clear, the pathophysiology of migraines remains largely unknown. The trigeminovascular system, including the external and internal carotid arteries and their associated sensory fibers which subserve the head have long been implicated in the pain and cutaneous allodynia experienced by migraine patients. Wolff in 1953, was the first to posit that migraine headache pain is the caused by dilation or circumferential expansion of the extracranial carotid artery. He demonstrated that migraineurs had twice the pulse amplitude in their external carotid arteries compared to control subjects and these changes were directly correlated to migraine symptoms. In a 2008 study, randomized migraineurs received nitroglycerin via peripheral IV or placebo for 20 minutes prior to obtaining magnetic resonance angiography (MRA). Nitroglycerin, a potent dilator of blood vessels, reliably induced migraine-like pain in up to 80% of patients, and transient dilation of vessels of up to nearly 40%, mostly in the extracranial vessels. Sumatriptan's efficacy in migraine relief provides further evidence for this theory, as it is a selective extracranial vessel constrictor which does not cross the blood brain barrier. The goal of this current work is to utilize the direct, real-time angiography, which provides a high resolution map of vasculature, and demonstrate changes in vessel flow in patients who have migraine headache attacks. This information may guide therapeutic interventions in the future in order to better treat these migraine patients.
Substudy 1 Blood-brain barrier breakdown has been proposed in migraine patients. Our hypothesis that we will test in this study is that the blood-brain barrier breaks down during migraine attacks but not out side attacks using MRI. Substudy 2 Altered cerebral resting-state functional connectivity networks have been reported in migraine patients outside migraine attacks. What happens during migraine attacks has never been investigated. The hypothesis we will test is that pain related networks are affected during spontaneous attacks using functional MRI. Substudy 3 Old studies report that cerebral blood flow (CBF) is altered in patients with migraine with aura, but not in those without aura. We hypothesize that CBF is altered regionally during attacks, which we will investigate in this study using arterial spin labeling (ASL). Substudy 4 Structural changes using voxel-based morphometry (VBM) of the brain have been suggested but never investigated during migraine attacks. Our hypothesis is that pain related structures show altered VBM during spontaneous migraine attacks.