Attention-deficit with or without hyperactivity disorder (ADHD) is a real health public concern. No easy-use diagnosis tool are available. Metabolomic approaches has brought very usefull data in others neurological diseases like amyotrophic lateral sclerosis or autism spectrum disorder, as we had shown in previous studies. Targeting on neurotransmitter pathways involving in ADHD, metabolomic screening could help to enhance our diagnosis power to better help numerus of children. We propose to study the phenylalanine and the tyrosine pathways with a multimodal metabolomic approach, in easy-available biological fluid (blood and urine), in child or adolescent suspected of ADHD. Our objectives are: 1- to determine a specific metabolomic signature of ADHD 2- to compare the diagnostic value of this metabolomic signature with the reference methodology for ADHD diagnosis, as now practiced in our reference center for learning troubles.
Study Type
OBSERVATIONAL
Enrollment
89
Biological samples (blood and urine) for a multimodal metabolomic approach
University Hospital TOURS
Tours, France
ADHD metabolomic's signature of blood
Detection of metabolites (phenylalanine or catécholamines) in the blood of patients with ADHD at levels significantly different from baseline levels in the general population and rates found in patients with attention deficit and / or hyperactivity disorders but that multidisciplinary assessment excludes the diagnosis of ADHD.
Time frame: At baseline
ADHD metabolomic's signature of urine
Detection of metabolites (phenylalanine or catécholamines) in the urine of patients with ADHD at levels significantly different from baseline levels in the general population and rates found in patients with attention deficit and / or hyperactivity disorders but that multidisciplinary assessment excludes the diagnosis of ADHD.
Time frame: At baseline
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