View clinical trials related to Migraine Disorders.
Filter by:Migraine without aura is a common kind of nervous system diseases that can easily cause recurrent headache, leading to severe impacts on quality of life and health care costs. Current therapeutic options for migraine without aura mainly include flunarizine hydrochloride that can relieve vasospasm. Nevertheless, the efficacy of flunarizine hydrochloride is always limited by inevitable side effects, which result in poor compliance of patients. Moreover, for some most suffering patients, the control of pain is often unsatisfactory despite of the administration of complex treatment combinations. As a non-pharmaceutical therapy, acupuncture is widely used for a wide range of pain conditions. Thus, it might be an alternative treatment for migraine without aura. The aim of this randomized controlled trial is to investigate the efficacy and safety of acupuncture therapy in patients with migraine without aura from the perspective of Regulating Ying and Wei.
The purpose of this study was to investigate cultural adaptation, reliability and validity of the Turkish version of the Headache Impact Questionnaire (HIQ).
A Phase 4 study to evaluate Qudexy XR for the prevention of migraine in children 6 to 11 years of age.
To investigate the role of KATP channels on the cerebral hemodynamic in migraine patients.
The purpose of this study is to test the long-term safety of rimegepant in the acute treatment of moderate or severe migraine in children and adolescents (≥ 6 to < 18 years of age).
The purpose of this study was to investigate cultural adaptation, reliability and validity of the Turkish version of the Headache Disability Questionnaire (HDQ).
The purpose of this study is to evaluate the efficacy of clorazepate in addition to the usual medication for treating migraine attack in the emergency room
This study uses a factorial research design to evaluate a nurse delivered mind body intervention using different doses of 3 treatment components to determine the optimized treatment for headache day reduction.
Migraine is a highly prevalent and disabling neurological disease, which has a tremendous impact on sufferers, healthcare systems, and the economy. According to the 2016 WHO report, migraine is the second leading cause of years lived with disability, greater than all other neurological diseases combined. Yet, the treatment in migraine is far from optimum; the sufferers often abuse painkillers and complicated with medication overuse headache. Migraine is characterized by the hypersensitivity of the sensory system, potentially attributed to dysfunctional pain modulatory networks located in the deep brain structures, particularly the brainstem. However, the current understanding of these deeply seated, dysregulated pain modulatory circuits in migraine is limited due to technological constraints. Besides, studies with an in-depth analysis of the clinical manifestations (i.e., deep phenotyping) are lacking, and there is no corresponding animal model readily available for translational research. In this project, the investigators propose a multimodal approach to address these issues by applying the technologies and platforms developed by our team to explore the correlation between pain sensitivity and dysregulated connectivities from brainstem to other brain regions. In this four-year project, the investigators will recruit 400 migraine patients and 200 healthy subjects. The investigators aim at decomposing the key brainstem mechanisms underlying dysmodulated pain sensitivity in migraine from 5 comprehensive perspectives: (1) clinical deep phenotyping, (2) high-resolution brainstem structural MRI and functional connectivity analysis, (3) innovative brainstem EEG signal detecting technique, (4) multimodal data fusion platform with neural network analysis, and (5) ultrahigh-resolution brainstem-based connectomes, intravital manipulations and recording, and connectome-sequencing in animal models. Moreover, the investigators will collaborate with Taiwan Semiconductor Research Institute to develop a wearable high-density EEG equipment, integrated with a System-on-Chip capable of edge-computing the signal using algorithms derived from our brainstem decoding platform. The ultimate goal is to build a real-time brainstem decoding system for clinical application.
The prevalence of migraine is higher in female patients with various intestinal diseases. An explanation could be that migraine is caused by a leaky gut, defined by increased intestinal permeability that permits particles to pass through the gastrointestinal wall. Probiotics, may be able to improve intestinal barrier function. OBJECTIVE: To test whether probiotics, as adjucnt therapy, can reduce incidence and severity of migraine attacks by reducing intestinal permeability.