Active clinical trials for "Brain Injuries, Traumatic"

The objective of this study was to document longitudinal outcomes in persons with traumatic brain injury (TBI) or stroke using the myoelectric upper limb orthosis with powered elbow and grasp in conjunction with motor learning-based therapy using both patient centric performance and patient reported outcome measures. Longitudinal observation allowed the investigators to detect both the initial therapeutic effects as well as the later functional outcomes of orthosis use. The investigators planned to recruit 15 Veterans and non-veterans who had TBI or stroke and upper limb impairment. The study required 29 visits over 22 weeks and was divided into three parts: orthotic fitting, therapy/training (9 weeks), and home use (9 weeks). Therapeutic and functional benefits were evaluated every 2 to 3 weeks over 18 weeks using simple, short clinical tests.

Mild traumatic brain injury (mTBI), also known as concussion, is of great concern in the youth population, with incidences of injury steadily increasing within the past few years. Current Canadian estimates have indicated that the total rate of concussions per 100,000 increased from 467 to 754 for boys and from 209 to 441 for girls from 2003-2010. As defined by the recent Zurich Consensus statement, concussion is a pathophysiological injury induced by biomechanical forces, which can be caused by impact to the head, neck or body. In 10-20% of youth, concussion symptoms persist in the weeks, months or even years following the injury. Consequently, youth with persistent concussion symptoms are unable to fully participate in the meaningful activities (e.g. attending school, engaging with friends and community) they did prior to the injury and experience a reduced quality of life. Persistent concussion symptoms in youth requires an approach that directly addresses the rumination and attention to distressful thoughts about their functional performance, while still promoting appropriate levels of physical and cognitive demands. Targeting these constructs may shift the focus away from symptoms, while building self-efficacy and enhancing participation in daily activities. Mindfulness-based yoga (MBY) is a mind-body intervention that uses physical yoga poses, purposeful breathing techniques and a focus on being in the present moment. MBY encourages participants to develop moment-to-moment awareness of physical sensations, emotions, and thoughts, and promotes the cultivation of non-judgemental and accepting relationships to personal experiences. In chronic pain, fibromyalgia, mental health and now TBI populations, MBY has demonstrated benefits in physical (i.e. increased muscle strength, endurance), psychological (i.e. decreased stress, increased self-efficacy), cognitive (i.e. increased concentration) and social (i.e. emotional regulation, improved mood) domains. Although mindfulness based yoga has been validated as a form of rehabilitation in the adult population, its applicability for youth with persistent concussion symptoms has yet to be explored. Understanding the impact of a MBY intervention on this population may enhance management of persistent symptoms and ultimately, participation in meaningful activities. In addition to the functional sequelae that ensue following this injury, concussion in both the acute and persistent phases is being recognized as a neurophysiological injury. Traditional methods of assessment following concussion place emphasis on subjective self-report and administration of neuropsychological batteries. These assessments are used in an effort to return the youth to activity (i.e school, sport). However, these methods can be unreliable as youth have a high incentive to return to play and neurocognitive resolution does not necessarily equate to pre-injury function. To augment these measures, an objective indicator of neurophysiological stress is needed. Heart rate variability (HRV) is an objective, neurophysiological indicator of autonomic nervous system functioning. HRV is quantified by measuring the time intervals between heartbeats. Increased variability in heart rate (i.e. increased HRV) is seen as healthy neurophysiological function, demonstrating an individual's ability to adapt and be flexible to the demands of the environment. Conversely, decreased HRV is demonstrative of an individual's reduced ability to respond flexibly to their environment. Investigating the impact of persistent concussion symptoms on HRV has the potential to enhance our understanding of autonomic nervous system functioning in the chronic phases of this injury for an understudied population. The specific objectives are to: (1) adapt the MBY intervention protocol to suit the unique needs of youth with mTBI (i.e. safety, fatigue), (2) collect data on the impact of MBY on HRV, self-efficacy and participation, (3) describe changes in HRV, self-efficacy and participation associated with MBY across pre-intervention, post-intervention and 3 months following intervention, (4) identify if post concussion symptoms change (i.e. increase or decrease) following MBY and (5) identify if changes in post concussion symptoms occur with changes in HRV, self-efficacy and participation.

A prospective open-label case-control study will be performed aiming to assess the utility of thromboelastometry (ROTEM) for identification of hemostatic changes, goal-directed coagulation management, and prognosis of intracranial hemorrhagic injury progression as well as clinical outcome in patients with isolated traumatic brain injury. Patients undergoing craniotomy to treat traumatic brain injury will be enrolled. All patients will undergo standard perioperative coagulation analysis (APTT, PT, INR, fibrinogen levels, platelet count), whereas ROTEM-guided group will additionally be tested with ROTEM. "Cases" will be managed according to a ROTEM-based algorithm, and "Controls" will be treated as usual (based on clinical judging). Comparative analysis of acquired demographic, clinical and laboratory data will be performed. The investigators believe that ROTEM results could provide better insight into perioperative coagulation changes, be beneficial to patient blood management, and result in better outcome.

There are studies reporting that the survival rate in pediatric patients with abnormal pupillary response is 23% and that pupillary response is effective on mortality and patient outcomes. Studies in the literature examining the effect of pupillary response on mortality and outcome in pediatric patients with traumatic brain injury reported that bilaterally dilated pupils were associated with a higher mortality rate. Considering the literature results, we believe that obtaining the GCS-Pupil score by combining GCS and pupillary reaction in pediatric patients with traumatic brain injury will be effective in predicting patient outcomes.

The intent of this study is to establish technical feasibility in a clinical population (PTSD, with or without mild TBI) of personalized TMS-fNIRS technology. Thereby demonstrating the utility of transcranial magnetic stimulation - functional near-infrared spectroscopy (TMS-fNIRS) technology as a direct measure of frontal brain activity, potentially replacing the indirect motor threshold procedure that may lead to improper dosing of TMS. Personalized TMS-fNIRS technology will guide therapy for depression, post-traumatic stress disorder (PTSD), and/or traumatic brain injury (TBI)

The purpose of this study is to examine the effects of acupuncture on cerebral blood flow (CBF) and blood biomarkers during the acute 10-day window following traumatic brain injury, to determine if those changes correlate with changes in biomarkers of brain health, neuropsychological testing, and symptomatic presentation.

This proposal aims to investigate the effect of a promising treatment for persistent post Traumatic Brain Injury (TBI) symptoms, and to monitor TBI patient's recovery by an objective technique along with standard clinical assessments. The treatment tool is the application of repetitive Transcranial Magnetic Stimulation (rTMS) to the dorsolateral prefrontal cortex (DLPFC) of the brain. The treatment efficacy and monitoring TBI patients' recovery will be objectively assessed using Electrovestibulography (EVestGTM); this will be in parallel with clinical and standard assessments.

Successful treatment of traumatic brain injury (TBI)-induced mood lability may reduce or eliminate drinking behaviors in persons with alcohol abuse/dependence (AA/D) and affective lability following TBI. Observed clinically, the symptoms of poorly regulated affective expression of AA/D+TBI patients who reach alcohol abstinence do not appear to be those of an idiopathic mood or anxiety disorder. These symptoms do not present the severity or the same natural courses as do Major Depressive Disorder, Bipolar Illness, or Anxiety Disorder, for example. Instead, both symptoms and course appear more characteristic of the sustained affect lability often observed following TBI. This observation suggests that TBI survivors represent a patient group for whom treatment of neuropsychiatric symptoms following TBI may alleviate both TBI-related affect lability and also heavy ethanol use by treating the condition that is contextually related to excessive alcohol use. Based on this concept of consequently treating AA/D through the management of post-TBI affective lability, this study was conducted observing the efficacy of divalproex sodium on the severity of affective lability and AA/D in persons suffering from a moderate TBI. Divalproex sodium has been shown to ameliorate mood disorders, even in those with substance abuse problems. This drug has also shown positive results as an alternate medication to benzodiazapines in the treatment of alcohol withdrawal, significantly reducing the progression of withdrawal symptoms in patients.

TRAHT is a pilot randomized clinical trial designed to evaluate safety and feasibility of two red blood cells transfusion thresholds in moderate or severe traumatic brain injured patients

Due to recent wars in Afghanistan and Iraq, the number of Veteran suffering from Mild traumatic brain(MTBI) injury and PTSD increases rapidly. Headache is one of the most debilitating clinical symptoms in Veteran with MTBI and the cause of it is still not entirely clear. Recently, the use of non-invasive brain stimulation such as repetitive transcranial magnetic stimulation(rTMS) has yielded favorable clinical outcome in a few intractable chronic central pain conditions including headaches. This study aims to 1) assess the effect of rTMS in relieving headache and improving neurophysiological functions; and 2)explore the neuronal mechanisms associated with MTBI related headache and the analgesic effect of rTMS with function magnetic resonance imaging (fMRI).