View clinical trials related to Migraine.
Filter by:This is a randomized, double-blind, three-period, cross-over study to investigate the effect of sumatriptan (Imitrex) 100 mg on the pharmacodynamics and pharmacokinetics of lasmiditan 200 mg.
Ketogenesis is a physiologic phenomenon due to starvation or ketogenic diet (KD), a drastic restricted carbohydrate dietary regimen that induces lipid metabolism and ketone body (KB) synthesis. We followed, in a dietician clinical setting, a group of migraineurs who randomly received a one-month prescription of experimental diet, followed by a one-month of carbohydrate progressive reintroduction, then another one-month of experimental diet, followed by a one-month of carbohydrate progressive reintroduction. Experimental diets are a very-low calorie KD, or an isocaloric non-ketogenic diet. Aim of our study is verify if during ketogenesis migraine improves.
The main goal of this study is to determine whether it is possible - in the setup of routine clinical care - to identify in individual patients who are clear responders to drug X, common denominators that are absent in individual patients who are non-responders to the same drug, and vice versa. All currently available knowledge about migraine pathophysiology will be utilized, using as much time as is needed to ask as many questions as are necessary, in an attempt to profile clear responders and clear non-responders.
This is a multicenter, open-label, non-randomized, parallel-group, single dose study. This study will enroll up to 24 participants and will include 2 hepatic impaired participant groups and one group of control participants with normal hepatic function.
Sporadic and chronic dietary consumption of caffeine has substantial biological effects on the nervous system. The effects on migraine are at large not known. In this study we want to assess the effects of caffeine withdrawal on migraine.
This will be a randomized, single dose, double-blind, placebo-controlled, Latin-square design with 5-period (full) crossover study with participants randomized to treatment sequences. Participants will complete all 5 Periods. During each Period, participants will come to the clinical research unit (CRU) and remain overnight before being dosed with a single dose of either lasmiditan, alprazolam, or placebo in the morning. Cognitive testing and driving simulation will be conducted post dosing. Participants will have a washout of at least 5 days between each Period. This study is designed to test non-inferiority of lasmiditan doses relative to placebo, with an alprazolam test versus placebo to confirm the sensitivity of the simulator to detect treatment effects.
This is a multi-center, open-label, non-randomized, parallel-group, adaptive, single dose study. This study will enroll up to 32 participants using an adaptive design that can include up to 3 groups of 8 participants with different degree of renal impairment and one group of 8 control participants with normal renal function. Screening data will be reviewed to determine participant eligibility. Participants who meet all inclusion criteria and none of the exclusion criteria will be entered in the study. First, approximately 16 participants will be enrolled with severe renal impairment and matched participants with normal renal function. There will be 8 participants in each of the following groups based on renal function at screening: - Group 1: Healthy participants with normal renal function (estimated glomerular filtration rate [eGFR] ≥ 90 milliliters per minute per 1.73 meters squared [mL/min/1.73m²]) - Group 2: Severe renal impairment participants (eGFR < 30 mL/min/1.73m²) Based on safety and pharmacokinetic (PK) results from participants with severe renal impairment (Group 2), Group 3 (Moderate Renal Impairment) and Group 4 (Mild Renal Impairment) will be enrolled if substantial change in the exposure of lasmiditan is observed in participants with severe renal impairment.
The main purpose of this study is to integrate novel MRI techniques with positron emission tomography(PET) for the study of structural and molecular neuroplasticity in the brain of migraineurs, and its clinical association with changes in pain perception and modulation (e.g. allodynia). We will attempt to acquire images of the brain that may, in the future, assist doctors in better understanding how pain is felt and regulated in migraine sufferers.
This study investigates whether non-invasive brain stimulation, given for 20 minutes/once per day for ten days (M-F) can reduce migraine pain. Thirty patients will receive this treatment, while thirty will receive a "sham" procedure. Up to thirty healthy volunteers will be asked to undergo baseline assessments only (imaging, but no brain stimulation). Healthy volunteer data may be used from a prior study (NINDS-K23062946 project [IRBMED #HUM00027383; Dr. Alexandre DaSilva, Principal Investigator]).
The main purpose of this study is to evaluate the safety and effectiveness of the study drug known as Galcanezumab in Japanese participants with migraine.