View clinical trials related to Brain Injuries.
Filter by:The primary purpose of this project is to determine the effect of morning bright light therapy (MBLT) on sleep in Veterans with traumatic brain injury (TBI). Secondarily, the project aims to identify blood-based brain biomarkers (BBBM) associated with sleep in Veterans. Specific Aim 1. Determine the effect of MBLT on sleep quality in Veterans (primary outcome). Specific Aim 2. Determine the effect of MBLT on downstream effectors of improved sleep, including cognition, mood, and quality of life measures in Veterans (exploratory outcomes). Specific Aim 3. Determine the effect of MBLT on levels of specific BBBM related to sleep, and whether changes in specific BBBM predict response to MBLT (secondary outcome). This study can now be completed 100% remotely.
Alcohol is one of most common harmful substance, and alcohol intake brings great burden on health worldwide. Excess alcohol intake may lead to alcohol-related brain injuries and cognitive impairment. Although both nerve growth factor and antioxidative treatment were effective to relieve alcohol-related injuries in central nervous system in the preclinical studies, there is no relevant clinical trial about their efficacy and safety on patients. Since nerve growth factor and one of the antioxidative medication, edaravone, have been used in some neural diseases in clinical trials, we tend to evaluate the efficacy and safety of nerve growth factor, or edaravone on alcohol-induced brain injuries. The study is a randomized-controlled study and the patients will be assigned into one of the following three groups randomly: (1) regular treatment (combination of vitamin B1, B6, C, E and mecobalamine) with nerve growth factor for 2 weeks and subsequently regular treatment for 6 months; (2) regular treatment (RT) with edaravone for 2 weeks and subsequently RT for 6 months; (3) RT alone for 6 months. The patients will be followed up for 6 months. Cognitive functions, recurrence of alcohol dependence, duration of abstention, alcohol intake, craving for alcohol and other psychological assessments will be recorded and compared among the 3 treatment groups and the efficacy of nerve growth factor or edaravone will be evaluated in our study.
In severe brain-injured patients, it is recommended to strictly control the fever in order to limit brain damage (objective of neuroprotection) via the targeted temperature management (TTM). In the guidelines, the target temperature is the systemic temperature, just for practical reasons (brain temperature not being monitored in most polyvalent ICU). However, in NICU, the brain temperature is monitored routinely via the Intra-Cerebral Pressure (ICP) sensor. Since in the febrile brain-injured patients the objective of the TTM is neuroprotection, it would be more appropriate to target temperature control over the cerebral temperature. The objective of this study is to evaluate the efficacy of TTM directly coupled to the brain temperature. Adult patients with brain injury requiring ICP monitoring (Pressio 2, Sophysa France) and fever requiring TTM (cerebral greater than or equal to 38.5 °C) will be enrolled. The TTM will be carried out according to the usual methods of the investigator's service: external cooling devices coupled with cerebral temperature (Artic Sun, Bard France), including two phases: the cooling phase (H0 to H3) and the maintenance phase (from H3 to the end of the cooling). Two groups will be formed. In the interventional group, coupling of the TTM will be carried out to the cerebral temperature. In the control group, coupling of the TTM will be carried out to the systemic temperature measured at the bladder site. The primary outcome will be the percentage of time during which the cerebral temperature will be measured within recommended target temperature range (i.e. 36 to 37 °C) during the maintenance phase (H3 to H12): comparison of averages. Cerebral hemodynamic parameters (ICP, transcranial doppler, and brain tissue oxygen partial pressure if available) will also be collected, in order to be correlated with the delta temperature (cerebral temperature minor systemic temperature). No medical device will be put in place specifically for the need of the study.
The objective of this study is to further evaluate eye movements as an aid in the diagnosis of concussion / mTBI and the utility of eye movement assessment in the monitoring of symptoms over time after an initial diagnosis of concussion.
Modifications of the human gut microbiota have been associated with different pathological conditions such as obesity, inflammatory bowel diseases and neurodegenerative diseases. Recently the " Brain-Gut Axis ", a bidirectional communication axis between brain and gut, has been described. In recent animal studies, an acute brain injury was associated with rapid modifications of the gut microbiota. In humans, traumatic brain injury (TBI) is a leading cause of death and disability. The patterns of gut and oropharyngeal microbiota following TBI are unknown. The primary purpose of this study is to characterize gut and oropharyngeal microbiota of patients with severe TBI.
This study (Part 3) is designed to build a database including EEG, neurocognitive performance, clinical symptoms, history and other relevant data, which will be used to derive a multimodal EEG based algorithm for the identification of concussion and tracking of recovery.
A brain injury can damage the brain, so that it no longer receives information about the space around one side of the world. If this happens, people may not be aware of anything on one side, usually the same side they also lost their movement (the most affected side). This severe condition is called spatial neglect. Currently there is no recommended diagnostic test or clinically-proven treatment for the condition. In a recent study, the investigators found a long-lasting reduction in neglect if people practiced picking-up an object with their unaffected hand. This intervention is called Spatial Inattention Grasping Home-based Therapy (SIGHT). It requires people to lift wooden rods of different lengths. Once a person is familiar with the task, they can practice on their own at a time convenient to them in their homes. The investigators have developed the first computerized version of SIGHT (c-SIGHT) as well as a novel diagnostic test for neglect using portable low-cost motion-tracking technology that can be used in the patient's home. In the proposed study, the investigators will investigate how usable and acceptable this technology is in people's homes. Stroke survivors (recruited from community settings) will undergo a 7-day self-led training at their homes with c-SIGHT. At the end of the intervention, 1:1 semi-structured interviews will be carried out with both stroke survivors and carers to investigate usability and acceptability of c-SIGHT. Moreover, spatial neglect, carer burden and motor function will be assessed pre- and post-completion of c-SIGHT.
Empirical research shows that deficits in executive/monitoring abilities (inhibition, error detection, problem solving) following acquired brain injury produce serious impact on patient's daily life performance. The authors developed an intervention method aimed at improving "on-line" error detection and correction abilities during performance of naturalistic action. Patients will be asked to complete two significant everyday activities (e.g. making a sandwich and setting the kitchen table for four people) while increasing the level of monitoring requirements as their performance improve. Monitoring requirements increased by presenting new semantically and physically related distractors and increasing the number of conflicting/problem solving situations. The treatment involves a metacognitive contextual intervention program based on providing systematic online/offline-feedback on their own performance, with emphasis on making the patient aware of how to deal with distracting/conflicting situations that were previously failed. The authors predict that errors committed and addressed through the feedback sessions (errors, actions towards distractors, failures to detect/solve conflicting situations) will be reduced on post-intervention performance compared to baseline. The authors also expect behavioral improvements to generalize to trained tasks but adding new distractors/conflicting situations or even to untrained tasks.
In efforts to assist people who have had a concussion (mild traumatic brain injury), the Parkwood Pacing and Planning™ app has been developed and tested and will be released to the public. The app uses a point system where users have a daily point maximum assigned based on symptom severity with daily activities (recorded by the users). Users can then schedule their daily activities based on their allowed points. The goal is to help users with symptom self-management by facilitating activity planning and pacing. Patients and clinicians have provided positive feedback on the initial version of the app. Using this as a foundation, the investigators envision enhancing the app to provide a more personalized user experience and to enable further discovery and innovations in the recovery from concussion. This will be accomplished through data analytics and machine-learning techniques, informed by the results of a large-scale research trial. This strategy will be used to customize the point system to facilitate the user with pacing and planning.
This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.