View clinical trials related to Executive Functioning.
Filter by:- Background: Recent studies have linked exposure to airborne particulate matter (PM) to neurodevelopmental outcomes but the findings are mixed and mechanisms are unclear. We aim to determine the impact of PM on the developing brain of schoolchildren in Poland, a European country characterized by very high levels of air pollution. The investigators aim to determine the impact of PM on the developing brain of schoolchildren in Poland, a European country characterized by very high levels of air pollution. - Study area: 19 towns in three voivodeships (Lesser Poland, Silesian, Opole) in the southern Poland. To reduce confounding by urbanicity and at the same time, to achieve sufficient contrasts in PM levels without too high logistic costs, towns were selected by size (big and small) and by PM levels (high, medium and low). - Design: Case-control study with 800 children recruited over two school years, with two population controls per one ADHD case. Suspected cases will be recruited in specialized facilities and presumably ADHD-free children will be recruited in primary schools. - Exposure assessment: Poland-wide PM and other air pollutants' grids will be created for the years 2006 to 2021 using statistical models to incorporate land use data, estimates from transport models, satellite observations and air pollution measurements from Polish monitoring network. Prenatal, early-life, lifelong and concurrent exposures will be calculated. - Psychological testing: Every child and their parents will complete a series of psychological tests and interviews that will be conducted during their three visits to the recruitment facility. - Neuroimaging: Each participant will undergo a Magnetic Resonance Imaging (MRI) scanning session that will be performed accordingly to the Human Connectome Adolescent Brain Cognitive Development project recommendations. Scanning will be performed on a single scanner in Krakow.
EEG Neurofeedback is a noninvasive way that allows the central nervous system to self regulate and the frontal cortex to be accessed through quieting of the limbic system at the subcortical level. Currently there is limited research in regards to the implications of EEG Neurofeedback, however, the investigators of this study have been using EEG Neurofeedback as a passive modality in the treatment of various pediatric clients with a variety of diagnoses and disorders. The purpose of this study is to determine whether or not EEG neurofeedback is effective in improving executive functioning skills in pediatric, school aged children as a modality in traditional occupational therapy services. The investigators hypothesize that EEG neurofeedback will assist with improved sensory gating abilities, therefore allowing for higher levels of cognition and awareness due to increased opportunities for the brain to regulate itself.