View clinical trials related to Migraine in Children.
Filter by:The goal of this clinical trial is to compare intravenous (IV) fluids in pediatric patients with migraine. The main questions it aims to answer are: - Does a large amount of fluids (bolus) improve pain - Does a large amount of fluids (bolus) reduce admissions to the hospital for migraine Participants will be asked to report their pain and have vital signs checked every 30 minutes for two hours. Researchers will compare a large amount of fluids (bolus) to a small amount (half maintenance) to see if there is a difference in pain improvement.
This 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.
Background: Migraine is a common neurological disorder that also has a significant prevalence in children. Although the exact etiology of migraine is unknown, recent studies suggest an association between intestinal flora and migraine, and tryptophan metabolism is an important link between intestinal flora and the nervous system. However, the role of tryptophan metabolites in childhood migraine is not fully understood. Therefore, the aim of this study was to investigate the specific role of tryptophan metabolites in childhood migraine. Study objectives: The main objectives of this study were to assess the changes in tryptophan metabolites in childhood migraine and to explore their relationship with migraine attacks. Specific objectives include: 1. to determine the differences in tryptophan metabolites between children with migraine and healthy children; 2. to explore the correlation between tryptophan metabolites and migraine attacks 3. to assess the potential mechanisms of the role of tryptophan metabolites in childhood migraine. Study methods: 1. participant recruitment: a certain number of pediatric migraine patients and healthy children were recruited as controls. 2. data collection: clinical information, medical history, and blood samples were collected from participants. 3. Tryptophan metabolite analysis: using appropriate experimental techniques, ELISA Statistical analysis: The main analyses included the following: 1. comparison of differences in tryptophan metabolites between migraine and control groups, using t-test or Wilcoxon rank sum test. 2. To assess the value of tryptophan metabolites in the diagnosis of migraine, ROC curve analysis was used to calculate the sensitivity, specificity, and AUC. 3. To explore the factors associated with tryptophan metabolites and migraine, multiple logistic regression analysis was used to assess the risk and protective effects of each factor on migraine. Experimental hypothesis: Our experimental hypothesis was that tryptophan metabolites may play a key role in the pathogenesis of childhood migraine, particularly kynurenine (KYN), quinolinic acid (QUINA), and kynurenic acid (KYNA). We hypothesized that in pediatric migraine patients, the concentrations of tryptophan metabolites would change significantly compared to healthy children. We further hypothesized that the concentrations of certain tryptophan metabolites correlate with the frequency and severity of migraine attacks. Based on these hypotheses, our study will examine tryptophan metabolite concentrations in blood samples and perform a comparative analysis between pediatric migraineurs and healthy children. We will also explore the correlation between tryptophan metabolites and migraine attacks and determine their risk and protective role in childhood migraine through multiple logistic regression analysis. Outlook: The results of this study are expected to reveal the important role of tryptophan metabolites in the pathogenesis of migraine in children and provide a new basis for the diagnosis and treatment of migraine in children. In addition, the study may also provide theoretical support for the development of relevant therapeutic strategies and interventions, and provide new ideas for the prevention and management of migraine in children.
The goal of this basic science study is to learn about the brain mechanisms of chronic pain across different chronic pain syndromes in pediatric patients. The main questions it aims to answer are: - Are there shared and distinct brain systems engaged by different forms of pediatric chronic pain? - What are predictors of recovery from chronic pain? - What brain systems are associated with the spread of pain? For this study participants will undergo: - Functional Magnetic Resonance Imaging (fMRI) - Quantitative Sensory Testing - Psychological Assessments
This is a randomized double blind trial comparing an intranasal sphenopalatine block with 2% lidocaine to intravenous (0.15 mg/kg, max 10mg) prochlorperazine in patients greater than 10 years of age presenting to a pediatric emergency department with an acute frontal migraine headache.