View clinical trials related to Neurofeedback.
Filter by:The proposed study accelerates the translational aspect of neurofeedback-based attention training using novel technologies, algorithms, and neuromarkers. The presented brain training intervention and approaches will not only be applicable to attention remedy in patients with attention deficits but also can be applied to treatment of other neurocognitive (mental) disorders such as anxiety, depression, and addiction.
In this basic research project a novel form of neurofeedback is investigated, in which in addition to the use of 1) normal frequency bands (1-35 Hertz), 2) very slow signals (low frequency; < 0.1 Hertz) are used, which correspond more to the basic excitability of the brain. Because of the slow signal characteristics, this method is called infra-low frequency neurofeedback (ILF-NFB for short). Although this method has been successfully applied in clinical settings since the 1980s, the mechanisms underlying the effect are largely unexplored. For that purpose, a project consistiong of three studies will be conducted in order to investigate the neurophysiological effects of both signal elements on healthy participants: - Study 1 examines the effects of normal frequency band training alone. - Study 2 examines the effects of low frequency training. - Study 3 examines the effects of the combination of normal frequency band and low frequency training For each study, a total of 40 clean data sets are to be collected, resulting in a minimum amount of 120 participants for all three studies. All three studies investigate the effects of the neurofeedback on brain connectivity patterns by means of functional magnetic resonance imaging (fMRI), accompanied by measurements of the autonomic nervous system (ANS) and behavior.
This project aims to: - explore the effectiveness of Neurofeedback therapy for children diagnosed with Autism Spectrum Disorder (ASD) - assess if cognitive functions are affected before and after Neurofeedback Intervention
To determine the efficacy of real-time fNIRS neurofeedback for regulating the brain cognitive function in obese individuals.
To observe the clinical efficacy and mechanism of functional near-infrared spectroscopy imaging neurofeedback therapy for attention deficit and hyperactivity disorder.