View clinical trials related to Brain Health.
Filter by:The goal of this clinical trial is to test a cell phone-based online program that provides Alzheimer's risk assessments and memory tests over a 6-month period. The main question it aims to answer is whether online software can help reduce the risk of Alzheimer's disease (AD) through digital education and tracking. Participants will visit RetainYourBrain.com to answer questions about their risk factors for AD and take online word recall and card game cognitive tests. Researchers will track progress over time and compare different strategies of Alzheimer's education to see if it is possible to protect brain health, reduce Alzheimer's risk, and improve memory function.
The objective of this study is to assess the effectiveness of two digital programs for providing mental stimulation, improving cognition, and inducing changes in brain structure and function.
The NeuroCatch Platform 2 (NCP2), an investigational medical device system developed by NeuroCatch Inc., consists of software and hardware that captures brain health information. The platform intends to provide a quick, portable and easy to use solution for the acquisition, display, analysis, storage, reporting and management of electroencephalograph (EEG) and event-related potential (ERP; brain response to a stimulus) information. The NCP2 uses two types of tones to elicit N100 and P300 ERPs, along with two types of words to elicit N400 ERPs. The objective of this study is to determine if changing the volume of the standard tone has an effect on the amplitudes and latencies of the ERPs.
The objective of this study is to compare the impact of the coronavirus disease (SARS-CoV-2, or COVID-19) on cognitive function in the population of patients who have been diagnosed, treated and recovered from the COVID-19 infection versus patients who have not been infected. Primary endpoint is to evaluate the percentage of cognitive decline observed in both study arms (subjects with or without COVID-19 history) using assessments of Cognivue Clarity, MMSE and MoCA. Secondary endpoint is to see the correlation of Depression and anxiety scales (i.e., Patient Health Questionnaire-9 (PHQ-9) and/or Geriatric Depression Scale (GDS)) and Cognivue scores while comparing the trend of difference between both study arms.
The NeuroCatch Platform™ version 2.0 (NCP2.0), an investigational medical device system developed by NeuroCatch Inc., consists of software and hardware that captures brain health information. The platform intends to provide a quick, portable and easy to use solution for the acquisition, display, analysis, storage, reporting and management of electroencephalograph (EEG) and event-related potential (ERP; brain response to a stimulus) information. The purpose of the study is to understand how reliable and repeatable the ERP metrics elicited by the NCP platform are within participants over multiple sessions.
The goal of this study is to determine the impact of long chain omega-3 PUFA (Polyunsaturated fatty acids) supplementation on executive function in collegiate athletes in a randomized, double-blind, placebo-controlled trial
This is a nationwide research program to study the neurological effects of COVID-19. It is open to the public. Healthy individuals and individuals who are or have been infected with COVID-19 are encouraged to join the effort. The study can be done at home with internet access and an iPad or iPhone. Participation takes about one hour. To learn more, go to https://www.mirohealth.com/consent/
The primary purpose of this study is to evaluate the impact of a novel, neuro-protective and neuro-restorative dietary supplement (Braini®) on standardized memory and cognitive performance parameters. The principal active ingredients in the Braini® supplement have been commercially-available since at least 2015 or have achieved FDA new dietary ingredient notification (NDIN) in 2018, with no adverse events reported to the FDA. A 28-day randomized, double-blinded, placebo-controlled dietary supplement study will be conducted with a cohort of younger and a cohort of colder adults to achieve the purpose of this study. The research team hypothesizes that Braini® will improve standardized performance scores measured by CNS Vital Signs standard memory and cognitive performance assays more effectively than placebo.
The NeuroCatch Platform™, an investigational medical device system developed by NeuroCatch Inc., consists of software and hardware that captures brain health information. The platform intends to provide a quick, portable and easy to use solution for the acquisition, display, analysis, storage, reporting and management of electroencephalograph (EEG) and event-related potential (ERP; brain response to a stimulus) information. The purpose of the study is to understand how the brain responds to sounds and words, and how this response varies between individuals of different age groups. Interindividual variation reflects the many different factors which cause results to vary from one individual to another within a population. The current clinical study aims to establish a reference interval database of ERPs. These reference intervals will characterize the expected range of interindividual variability between groups. Reference interval databases provide a tool for comparing the results from one individual with those from other members of the same age group.
EEG signals have been collected and studied since the early 1990's as a way of assessing brain function at a gross level. As early as the 1930's a derivative of the raw EEG signal - event-related potentials (ERPs) - have been computed. These scalp-recorded ERPs are the brains response to a stimulus of interest (e.g. a flashing checkerboard or an angry face). The timing and topographical location of ERP components lends insight into the timing and complexity of various cognitive processes. At NeuroCatch Inc., research is primarily focused on three ERP components: the N100, P300 and N400. To elicit the ERP components of interest in this study (N100, P300, N400), proprietary auditory stimulus sequences will be administered using the investigational device, the NeuroCatch Platform™. Each sequence consists of pure tones and word pairs to elicit the various components associated with different attention abilities (sensory processing, target detection & semantic processing). A secondary objective of the study will be to validate the auditory stimulus sequences tested. Understanding the degree to which these neurophysiological components fluctuate over time is crucial to our understanding of typical brain functioning. Research and medicine is moving away from behavioural responses to assess brain health (e.g. verbal responses, reaction time, etc.) and are moving toward more neuroimaging focused measures, such as CT, and MRI scans. The strength of utilizing EEG technology is two-fold: i) it is portable and ii) has high temporal resolution. Looking forward, EEG-based brain assessment technology could be implemented field-side, at the site of an accident for a quick assessment of brain and cognitive functioning, or within a clinicians' office to evaluate treatment efficacy. However, for this type of technology to be useful in quantifying brain health, we must first quantify the degree to which a healthy brain naturally fluctuates in it processing capability. For example, should technology such as the NeuroCatch Platform™ be used as a monitoring tool, we must have an idea of what normal variation is.