Evaluation of the Efficacy of Almotriptan and Ubrogepant for the Acute Treatment of Migraine
Migraine With AuraMigraine Without AuraIn a real-world population of adults with migraine, the investigators would like to investigate whether 12.5 mg almotriptan is non-inferior to 50 mg ubrogepant in terms of pain freedom at 2 hours after drug intake.
Aerobic Exercise and Neck Exercises in Pediatric Migraine Treatment
Migraine in ChildrenThis randomized controlled single-blind trial will include 60 pediatric migraine patients. Participants will be divided into two groups: one performing aerobic exercise, and the other conducting neck exercises. Assessments include attack frequency, severity, duration, and neck pain over three months.
Decoding Pain Sensitivity in Migraine With Multimodal Brainstem-based Neurosignature
MigraineMigraine 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.
Migraine Manager (R01)
MigraineMigraine DisordersThe objective of this trial is to test whether an online tailored intervention, Migraine Manager, is efficacious in improving headache outcomes compared to an attention control intervention in adolescents with migraines. We will conduct a randomized clinical trial to compare a sample of 80 youth (ages 11 to 17) with migraine receiving the online tailored adherence intervention to 80 youth in an attention control group. We will test whether adherence to healthy habit (hydration, regular meals, exercise, sleep) recommendations serves as a mechanism for improved headache outcomes. Clinically meaningful outcomes will be assessed by reliable, valid, and sensitive measures. The primary outcome (i.e., number of headache days) will be assessed via online daily diary pre- and post-intervention, with additional follow-up at 3, 6, 9, and 12 months. Secondary outcomes include health-related quality of life and migraine disability.
GORE® CARDIOFORM Septal Occluder Migraine Clinical Study
MigrainePatent Foramen Ovale1 moreMulti-center, prospective, randomized, placebo- and sham-controlled study to evaluate the GORE® CARDIOFORM Septal Occluder for migraine headache relief
KETOMIGRAINE: Ketogenic Diet in Drug-resistant Chronic Migraineurs
Chronic MigraineHeadacheOur protocol, named "KETOMIGRAINE", is based on the prescription of a Ketogenic Diet (KD) to twenty subjects with diagnosis of Chronic Migraine (CM), resistant to oral preventive treatments and non-responders to monoclonal antibodies targeting the CGRP pathway. The trial starts with one month of baseline during which are verified inclusion/exclusion criteria. After that, participants will assume KD for three months, a transitional diet (TD) for other three months. Follows a period of three months of free diet (FD). Neurological and dietician visits are scheduled during the course of the trial.
Telehealth Behavioral Migraine Management
MigraineThis project aims to develop the protocol and obtain feasibility and acceptability information for Telehealth Behavioral MIgraine Management in a single-arm pre-post pilot study. The investigator and study team aim to recruit 20 people with migraine from the Montefiore Headache Center in the Bronx NY. Participants will receive the 12-week protocol including a mobile app headache diary, an online patient manual with interactive vignettes, 4 50-minute telehealth sessions, and 3 15-minute check-ins.
COACT Study: CGRPmAbs + OnabotulinumtoxinA Assessment of Chronic Migraine Treatments Study
Chronic MigraineHeadacheChronic migraine patients treated with OnabotulinumtoxinA may experience breakthrough headaches, especially toward the end of their 12-week therapy. The addition of a CGRPmAb could help in decreasing or eliminating these episodes, but this combination is considered "experimental" by many payers, which often leads to a denial of coverage. Currently, there is no reference in the literature or data to support the treatment of chronic migraine with OnabotulinumtoxinA and CGRPmAbs (Aimovig, Ajovy, Emgality or Vyepti) combination therapy. This has resulted in many patients and providers having to settle for one or the other. Investigators hopes to provide crucial data and findings to support the addition of CGRPmAb in some chronic migraine patients currently on monotherapy OnabotulinumtoxinA.
Local Sensory Nerve Block in the Treatment of Vestibular Migraine
Vestibular MigraineThere is no standard approach to the treatment of vestibular migraine. Agents used in the treatment of migraine are frequently used. In treating migraine, local anesthetic agents, nerve-blocking methods, and botulinum toxin local injection is commonly applied, and successful results are obtained. Adapting the nerve-blocking method used in the treatment of migraine to the treatment of vestibular migraine is the purpose of the study.
A Study to Evaluate the Effectiveness and Safety of Dysport® for the Prevention of Chronic Migraine...
Chronic MigraineThe purpose of this study is to understand the safety and effectiveness of the study drug, Dysport® when compared with placebo in preventing chronic migraine. A migraine is a headache with severe throbbing pain or a pulsating sensation, usually on one side of the head, and is often accompanied by feeling or being sick and a sensitivity to bright lights and sound. Chronic migraine is defined as having at least 15 days of headache a month with at least 8 of those days being migraine headache days. Migraines are caused by a series of events which cause the brain to get stimulated/activated, which results in the release of chemicals that cause pain. Dysport® is a formulation of Botulinum toxin type A (BoNT-A), a medication that stops the release of these chemical messengers. The study will consist of 3 periods: A 'screening period' of 6 to 12 weeks to assess whether the participant can take part to the study and requires 1 visit. A first Treatment Phase of 24 weeks. On Day 1 and at Week 12 of the first Treatment Phase, participants will receive injections into various muscles across the head, neck, face and shoulders. The injections will contain either a dose "A" or dose "B" of Dysport® or a placebo (an inactive substance or treatment that looks the same as, and is given in the same way as, an active drug or intervention/treatment being studied). Participants will make 4 visits to the clinic in person and have 4 remote (online) visits. A second Treatment Phase of 24 weeks (extension phase). At Week 24 and at Week 36, all participants will get Dysport® (dose "A" or dose "B"). There will be 3 in person visits and 4 remote visits. Participants will need to complete an e-diary and questionnaires throughout the study. Participants will undergo blood samplings, urine collections, physical examinations, and clinical evaluations. They may continue some other medications, but the details need to be recorded. The total study duration for a participant will be up to 60 weeks (approx. 14 months).