3 Clinical Trials for Various Conditions
The proposed study is to test and validate a novel intervention that integrates computerized cognitive training with real-time neuromonitoring and neurofeedback to enhance working memory by probing the individualized neural systems underlying working memory. We will test the proposed intervention on children with ADHD with working memory deficits. The R61 proof-of-concept phase will assess the target engagement, effective dose and feasibility.
The goal of this project is to assess impact of an 8 week course of Preksha Meditation (combination of Green color and buzzing sound meditation), in a group of college students to assess potential benefits to their pulmonary function, cognitive ability (immediate recall, attention), and happiness.
There is evidence both that computer-administered cognitive training can improve ADHD working memory deficits and that this type of training in non-ADHD enhances normal working memory ability by altering brain activity in prefrontal cortex and the parietal lobe. However, no study has characterized brain activity changes following working memory training in ADHD to understand what neural changes occur when cognitive deficits are remedied. This R21 exploratory study will examine the neural basis of cognitive training treatment gains in working memory, ADHD symptoms, and various other executive abilities. We will test the hypothesis that working memory training increases frontoparietal brain activation and examine other regions to see if there is any evidence for "neural compensation" (i.e., engagement of brain regions after training that are not normally recruited for task performance).