View clinical trials related to Brain Function.
Filter by:Findings in neuroscientific research show that the environment one lives in has measurable effects on brain morphology and functioning. Human exposure to airborne infra- and ultrasound has been constantly increasing during the last decades. For instance, the European Renewable Energy Directive, established in 2009, lead to an increased use of wind turbines, generating infrasound. The EU Directive states that until 2020 a 20% of the EUs' total energy needs is to be generated with renewables, therefore the current infrasound load in the European environment will increase further. Similarly, ultrasound is ubiquitous in the modern public environment, emitted from public address systems, animal repellents, industrial machines, even toothbrushes. The present study aims to investigate potential long-term effects of exposure to infra- and ultrasound on subjective well-being, cognitive and brain functioning, as well as on brain structure. The study will apply a randomized-(placebo) controlled single-blind approach to investigate this subject.
This study plans to learn more about how alcohol and its metabolite, acetate, affect the brain.
This project investigates the effects of a single dose of ondansetron on brain function in healthy adults. The investigators hypothesize that there will be a dose-dependent reduction in activation of the insula and somatosensory brain regions associated with the use of ondansetron.
Despite the abundance of theories concerning the effects of chiropractic adjustments on brain function, this remains an understudies area for the profession. Quantitative Electroencephalography (qEEG)is a technique that allows for an in-depth analysis of brain function. A normative database will be used to compare before, during and after effects of chiropractic adjustments on brain function. This will include usage of Low Resolution Electromagnetic Tomography (LORETA). This study seeks to objectively document effects of chiropractic adjustments on brain function.
The purpose of the research is to determine how practicing laparoscopic motor tasks affects the functional anatomy of the brain, and to investigate whether there is a correlation between surgical experience and functional brain activition. Additionaly, the investigators plan to use eye-tracking technology to see if the use of this technology can distinguish surgeons of various skill levels. The investigators hope that this study leads to new and effective methods of training surgical residents. All of the data will be collected at The Feinstein Institute for Medical Research, and may be used in future studies, which may or may not be related to urological diseases.