search

Active clinical trials for "Brain Injuries, Traumatic"

Results 1251-1260 of 1495

Neuroimaging & Plasma Markers for Predicting Outcomes After Mild Traumatic Brain Injury

Traumatic Brain InjuryInjury of Body Region

This exploratory study aims to identify the most promising biomarkers that alone or in combination might predict development of mood disorders [i.e., major depression (MD], cognitive disorders [i.e., executive function deficits (EFD)], and functional impairment following repetitive/mild traumatic brain injury (MTBI).

Terminated19 enrollment criteria

Pain in Traumatic Brain Injury - Basile, MD

Head Trauma

The observation through a chart review of persistent pain on neuro psychological functioning and how it applies to the community integration with patients that had suffered traumatic brain injury.

Terminated4 enrollment criteria

Study of Airway Pressure Release Ventilation and Intracranial Pressure in Patients With Severe Traumatic...

InjuryBrain2 more

The investigators will conduct an observational crossover study. The investigators aim to recruit 50 participants with severe Traumatic Brain Injury (TBI) requiring intracranial pressure (ICP) monitoring during their stay at the Neuro Trauma ICU at the R Adams Cowley Shock Trauma Center. Overall, participants will be monitored, on average, for approximately 6-8 hours during the study period. The investigators do not anticipate the need for prolonged monitoring during the duration of their hospital stay or post hospital period.

Terminated8 enrollment criteria

18F-AV-1451 PET Imaging in TBI

Traumatic Brain Injury

This study will evaluate imaging characteristics of 18F-AV-1451 in subjects with subacute traumatic brain injury.

Withdrawn21 enrollment criteria

Narrative Comprehension by People With Acquired Brain Injury

AphasiaTraumatic Brain Injury

The purpose of this two phase study is to evaluate comprehension by people with acquired brain injury. The phase 1 portion of the study will examine comprehension of narrative paragraphs under 3 conditions: (a) written text only, (b) auditory output only (i.e., synthetic speech - David voice) or combined written text and auditory output. The phase 2 portion of the study is to evaluate comprehension of sentences and paragraphs produced with computer generated (synthesized) speech and digitized natural speech after multiple exposures.

Unknown status8 enrollment criteria

Cerebrovascular Reactivity Assessed With fNIRS as a Biomarker of TCVI After Acute Traumatic Brain...

Traumatic Brain Injury

The study includes people who have recently had a traumatic brain injury (TBI) and healthy controls who have not had a TBI and is designed to measure brain blood flow serially after a TBI. Studies have shown that small blood vessels in the brain may be injured during a TBI. The goal is to learn about brain blood vessel function from as early as the first week to 6 months after a TBI . The study uses Near Infrared Spectroscopy (NIRS) which uses small lights that detect oxygen levels in the blood, measuring blood flow in the brain. This is compared with magnetic resonance imaging (MRI). When blood flow increases in the brain in response to a stimulus, this is called cerebral vascular reactivity (CVR). The study aims to learn about CVR using a few minutes of special breathing similar to breath holding while in an MRI (magnetic resonance imaging), and CVR measures after one dose of a common drug called sildenafil (generic Viagra) 50 mg taken once during CVR measurements at each of up to 4 visits. The investigators will measure CVR at different times during a 6-month period in participants who have had a TBI to see how CVR measures and blood vessels function during the first 6 months after a brain injury.

Unknown status19 enrollment criteria

Investigating How Sleep After Training Can Affect the Learning of a Motor Skill in Individuals With...

Traumatic Brain Injury

Studies have shown that a period of sleep, even in the form of a daytime nap, after a period of training on a motor learning task can boost subsequent performance beyond that observed after an equal amount of time spent awake and resting. This leap in performance has been referred to as "off-line" motor learning because it occurs during a period of sleep in the absence of additional practice. Motor learning is an integral part of the physical and occupational therapy that patients receive after traumatic brain injury (TBI) in which various activities of daily living may need to be relearned. Targeted motor skills may include dressing (learning how to zip up a jacket or button a shirt), using a fork and knife to eat, or using technology (tapping touch screen on a cell phone or typing on a computer). Yet the potential of sleep in the form of a strategic nap as a therapeutic tool to maximize motor learning in rehabilitation therapies has not been fully realized. In addition, a growing body of research among healthy individuals has shown evidence of changes in the brain associated with enhanced performance among those who slept following training compared with those who spent the same amount of time awake. The neural mechanisms of "off-line" motor learning have not been studied among individuals with TBI. Using functional neuroimaging and measurement of brain waves, the current study will examine the mechanisms underlying this sleep-related enhancement of motor learning among individuals with TBI and determine how brain physiology may influence the magnitude of the effect. By understanding how this treatment works and identifying the factors that modulate its effectiveness we can identify which individuals will be most likely to benefit from a nap after training to improve motor learning after TBI. This can provide a more person-centered approach to treatment delivery that can maximize the effectiveness of a simple but potent behavioral intervention.

Unknown status17 enrollment criteria

Mild Traumatic Brain Injuries in Children: Predicting Behavioral and Emotional Deficits

Post-Concussion Syndrome

The purpose of this study is to investigate the role of psychosocial factors in creating Persistent Post-concussive symptoms (PPCS). The researchers investigate three hypotheses: (a) Do pre-injury psycho-environmental deficits predict a higher level of PPCS? (b) Do socio-demographic and personal pre-injury deficits relate to (1) a more negative attribution for the child injury by their parents and (2) embracing of a more permissive and authoritarian parenting; and do these factors mediate the symptoms' preservation? (c) Does Cognitive-Behavioral Therapy (CBT) benefit to reducing PPCS emotional and behavioral symptoms?

Unknown status4 enrollment criteria

The PIT-TBI Pilot Study

Pituitary DisordersTraumatic Brain Injury

Damage to the pituitary gland is a frequently overlooked but potentially important complication of traumatic brain injury (TBI). Disorders of the pituitary gland can cause dysfunction of the thyroid, adrenals, ovaries and testes. These disorders may occur immediately or several months after TBI, may delay recovery and may have a significant negative impact on quality of life. TBI is the leading cause of disability and major permanent functional impairment among adults under 45 years of age. Hormonal deficits may contribute to common symptoms experienced by TBI survivors such as fatigue, poor concentration, depression and low exercise capacity. However, the association between hormonal deficits and disability remains uncertain. The primary objective of this pilot study is to assess the feasibility of a larger study that will evaluate the impact of pituitary disorders on neurological disability and functional recovery. The results of this study will provide key findings in the impact of pituitary disorders following TBI, which is a mandatory step prior testing the effect of hormonal replacement therapy in this population in costly clinical trials. If no relationship between pituitary disorders and disability is observed, the investigators' findings will prevent unnecessary, time-consuming and costly hormonal screening and will discourage potentially harmful hormonal therapy.

Unknown status16 enrollment criteria

Combinated Cues and Virtual Spatial Navigation

Traumatic Brain Injury

Many patients suffer from a topographical disorientation after a traumatic brain injury. Virtual Reality settings allow us to develop navigational cues, in order to rehabilitate patients or to help them in daily life. Some visual and auditory cues have proved efficient in helping patients navigating in a virtual environment but when administered separately, they never enabled patients to obtain a similar navigation performance as healthy controls. Moreover, the effect of the combination between visual and auditory cues has never been studied before. The objective of the present study is to determine if the combination between visual and auditory cues improve spatial navigation and memory of patients with a traumatic brain injury. Therefore, the investigators intend to include in this prospective randomized study 45 patients who have had a moderate or severe traumatic brain injury and 20 healthy controls. Participants will have to reproduce actively with a joystick three different paths including 6 intersections that they have previously seen on a computer screen. One path will be done without cues, one with visual or auditory cues, and one with combined cues (visual+auditory). The order of the paths will be randomized. Auditory cues consist of beeping sounds indicating the direction at each intersection. Visual cues consist of salient landmarks (red and blinking) positioning at each intersection. The main judgment criterion will be the number of trajectory mistakes during the path reproduction (/6). The secondary judgment criteria will be : time of navigation, memory of the landmarks, the route and the survey of the virtual environment. The confirmation of the help given by the combined cues could further allow the patients to use them in rehabilitation or in real life using augmented reality.

Unknown status13 enrollment criteria
1...125126127...150

Need Help? Contact our team!


We'll reach out to this number within 24 hrs