View clinical trials related to Biomedical Enhancement.
Filter by:Early conventional rehabilitation improves the functioning of patients with neurological diseases. However, recovery is not always satisfactory. These needs are met by the constantly developing modern technologies supporting the process of neurorehabilitation. The main goal of the research project is to evaluate the use of modern technologies in the rehabilitation of patients with neurological diseases (after stroke, craniocerebral trauma, spinal cord injury, cerebral palsy and multiple sclerosis). According to the research hypothesis, intensive rehabilitation with the use of modern technologies will improve the functional efficiency of patients with neurological diseases.
Achieving optimal concentration during cognitively demanding tasks is of immense human value. Despite our understanding of the important role that attention, working memory, and fluid intelligence play in professional success, and the huge individual differences in these constructs, the modulation of these cognitive domains has not been rigorously studied. From the widespread use of caffeine, to the more questionable and increasing use of prescription medications to achieve peak attention, the tremendous interest in achieving cognitive performance has driven individuals to experiment, often with prescription and illegal drugs. Herein, we aim to standardize and extend the study of attention modulating substances, to identify blends that achieve safe enhancements in attention and working memory. Specific to this proposal, we aim to develop CAF+, a blend of natural and generally regarded as safe compounds to improve attention and working memory in normal, healthy individuals. CAF+ is composed of caffeine (100 mg), L-theanine (200 mg), vinpocetine (40 mg), L-tyrosine (300 mg), pyridoxine (0.06 mg), and cobalamin (20 mg).