View clinical trials related to Chronic Migraine.
Filter by:The purpose of this prospective and multicentric study is to evaluate the effectiveness and tolerability of lasmiditan as acute migraine treatment in a cohort of episodic or chronic migraine patients.
The purpose of this prospective and multicentric study is to evaluate the effectiveness and tolerability of rimegepant as acute migraine treatment in a cohort of episodic or chronic migraine patients.
The goal of this single-case experimental study is to investigate the effects of intramuscular electrical stimulation for the treatment of trigger points on reducing the frequency of headaches in a small sample of patients with chronic migraine. Additionally, this study seeks to investigate the effects of intramuscular electrical stimulation to trigger points on reducing the overall headache intensity, impact and disability using research validated questionnaires.Intramuscular electrical stimulation is a treatment that uses needles to deliver electrical current into muscles, or trigger points, for reducing pain and improving function. Trigger points are painful spots within taut bands of muscle that produce pain when pressure is applied or spontaneously. Participants will be included if they have at least a 6-month history of chronic migraine headache. Due to the nature of the single case experimental design study, participants will each serve as their own controls and be randomized to various baseline measures where they will record headaches and symptoms using an electronic headache diary. During the intervention phase, participants will receive dry needling treatment with intramuscular electrical stimulation, and will continue recording in the electronic headache diary and complete all self reported outcome measures at the final treatment session.
Migraine is a common, yet often disabling, neurological disease that affects over 1 billion people around the world. It's the second most disabling disease globally and the leading cause of disability for people under the age of 50, especially women. The effects of migraine aren't limited to the individual, with a tremendous economic impact on families, friends, and employers. To help reduce this burden, research is now focusing on developing biomarkers that can help with diagnosis, predicting response to treatments, and identifying those at risk of developing chronic migraine. MicroRNAs (miRNAs) are one of the most promising classes, as they can modulate gene expression and affect a wide range of cellular processes. Other studies have already observed different miRNA expression in those with episodic migraine or chronic migraine, but no specific miRNAs have been identified as a strong and specific migraine signature. miRNA-155 is of particular interest, as it has been linked to inflammation and pain, and may be a potential target for migraine treatments. It is known that the immune system plays a role in migraine headaches. Monocytes, a type of immune cell, may be involved in the development of migraines. Certain medicines, such as aspirin, can affect monocyte function and have been used to treat migraines. Recent research has also shown that microRNAs can regulate the activity of these cells and influence inflammation, which may be linked to migraine attacks. This study aims to investigate the role of miRNA-155 and monocyte differentiation in migraine patients, and in particular its association with migraine phenotype and severity. We aim to study three groups of subjects: Episodic migraine (EM), Chronic migraine with or without Medication Overuse Headache (CM-MOH) and Healthy Controls (HCs).
This comparative effectiveness study will clarify current first-line preventive treatment approaches for use by neurologists, psychologists, and primary care providers in the context of real world care, and will demonstrate the feasibility of Cognitive Behavioral Therapy (CBT) via telehealth for youth with migraine. The focus is on applying evidence-based care and enhancing access to it. CBT via telehealth while taking a clinically-prescribed, pill-based prevention therapy (amitriptyline) will be compared to CBT via telehealth alone.
An non controlled, long term, multi center investigation
This study investigates whether unilateral and bilateral non-invasive brain stimulation, given for 20 minutes/once per day for twenty days (M-F) can reduce migraine pain. Fourty patients will receive treatment (20 unilateral treatment, and 20 bilateral treatment), while twenty will receive a "sham" procedure. Another 20 Episodic Migraine patients will be recruited for the observational aim of the study which does not include brain stimulation.
This study relies on the use of a smartphone application (SOMA) that the investigators developed for tracking daily mood, pain, and activity status in acute pain, chronic pain, and healthy controls over four months.The primary goal of the study is to use fluctuations in daily self-reported symptoms to identify computational predictors of acute-chronic pain transition, pain recovery, and/or chronic pain maintenance or flareups. The general study will include anyone with current acute or chronic pain, while a smaller sub-study will use a subset of patients from the chronic pain group who have been diagnosed with chronic low back pain, failed back surgery syndrome, or fibromyalgia. These sub-study participants will first take part in one in-person EEG testing session while completing simple interoception and reinforcement learning tasks and then begin daily use of the SOMA app. Electrophysiologic and behavioral data from the EEG testing session will be used to determine predictors of treatment response in the sub-study.
The purpose of this study is to assess the effectiveness of using remote electrical neuromodulation, using the Nerivio ® device, to relieve pain associated with receiving onabotulinumtoxinA (Botox) injections for chronic migraine prevention.
Chronic migraine (CM) is a disabling disorder that sidelines active duty personnel and diminishes their quality of life. It affects 1.3% to 2.4% of the general population. These numbers increase in active duty personnel, especially those returning from deployment, as well as in veterans. Furthermore, these numbers are 4-5 times higher in military members who experienced at least one mild traumatic brain injury. CM leads to impaired cognition and poor decision-making. These impairments on critical active duty tasks could have a significant impact on task readiness and military performance. Therefore, CM presents a challenge for the "return to duty" mission. Currently, onabotulinumtoxinA is the only FDA-approved prophylactic treatment for CM; however, this treatment requires refrigeration, to which there is little access for the forward-deployed members who have limited access to adequate storage for this treatment. Therefore, it is imperative to identify a CM treatment that does not require refrigeration. Furthermore, in light of the ongoing COVID-19 pandemic and resulting international shortages in critical medication production and delivery, it is imperative to identify more than one treatment option for the management of CM. In this study, we will test the efficacy of incobotulinumtoxinA, a neurotoxin that, unlike onabotulinumtoxinA, does not require refrigeration, but is an effective off-label alternative for the treatment of migraine. OnabotulinumtoxinA and incobotulinumtoxinA are comparable in strength, with a conversion ratio of 1:1.