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Active clinical trials for "Brain Injuries, Traumatic"

Results 501-510 of 1495

Growth Hormone and Brain Functioning After Traumatic Brain Injury

Traumatic Brain Injury

The current protocol aims to compare the brain-functioning (fMRI & EEG) and white matter structural integrity (DTI) of persons with mild to severe TBI with and without Growth Hormone deficiency during cognitive tasks; and to examine changes in cognitive and motor performance, EEG/fMRI and white matter integrity associated with growth hormone treatment for twelve months using an open-label design in persons with GH deficiency/insufficiency following mild to severe TBI. To meet this aim, we are in the process of screening 40 persons with mild to severe TBI, ages 18-55, who are at least six months post injury. After screening, 10 persons with TBI and GHD (Growth Hormone deficiency) will receive daily rhGH injections titrated to bring their GH levels into the normal range over the course of twelve months. Treatment will be initiated using rhGH (Genotropin). Subjects with TBI and GHD will be assessed at baseline, 6 months, and 12 months with EEG, fMRI and DTI, and neuropsychological measures. 5 persons with TBI who do not have GHD will be assessed at baseline and at 12 months with EEG, fMRI and DTI, and neuropsychological measures.

Completed22 enrollment criteria

Treatment of Post-Traumatic Brain Injury (Post-TBI) Fatigue With Light Therapy

Traumatic Brain InjuryFatigue

This study aims to evaluate the efficacy of 4 weeks of daily light exposure in reducing Post-Traumatic Brain Injury (TBI) Fatigue immediately post-treatment and at a one-month follow up. The investigators hypothesize that individuals receiving 4 weeks of bright white light treatment will report significant reductions in fatigue compared to individuals receiving dim red light treatment for the same duration of time, and that these treatment effects will be maintained one month after treatment completion.

Completed14 enrollment criteria

Evaluation of a Sensory Enrichment Multimodal Device (SEMD) on Physical Therapy Patients With Disequilibrium...

Vestibular DiseasesLabyrinth Diseases3 more

Purpose of this study is to determine the efficiency and safety of a Sensory Enrichment Multimodal Device (SEMD) when applied in conjunction with usual care vestibular-balance physical therapy for rehabilitation of patients who fall as a result of vestibular inducted disequilibrium. Study participants will receive regular physical therapy, and some will use the SEMD device while receiving usual care vestibular-balance physical therapy. The device is an elastic belt that holds eight small battery powered vibrating disks. When using the device, you will sit or stand on a force platform that measures body sway. That movement information is sent to a computer which then sends the information to you via the vibrating disks. The vibrating disks are similar to a vibrating cell phone: you can feel the vibration but it is not uncomfortable. You can also see your sway movement on the computer screen. Some tests and activities will be paced with a beeping sound. The aim of this study is six-fold: 1. Demonstrate the relative efficiency between SEMD and conventional vestibular-balance physical therapy as reported by treating physical therapists' by counting number of skills acquired in a treatment session, and the amount of time needed to acquire the skill; 2. Demonstrate greater improvement earlier on in balance test scores when using the SEMD as an adjunct to conventional vestibular-balance physical therapy; 3. Determine the difference in vestibular habituation between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 4. Demonstrate a more immediate reduction in fall occurrence when using SEMD as an adjunct to conventional vestibular-balance physical therapy; 5. Determine the patient's perception of quality of life between physical therapy plus SEMD and conventional vestibular-balance physical therapy; 6. Determine difference in acquisition of large movement tasks of tandem walk, step quick-turn, and kneel-shoulder rifle-return to stand between subjects that have trained with SEMD and conventional vestibular-balance physical therapy . In addition to primary and secondary outcome measurements, efficiency of skill acquisition, devised for this study, will be evaluated by tracking the number of skills and length of time needed to acquire each skill for each physical therapy session using the Patient Skill Acquisition Chart (PSAC). Usefulness of Tandem Walk, Step Quick-turn, and Kneel- Shoulder Rifle-Return to Stand as intervention outcome, also devised for this study, will be evaluated with pre test to post tests Modified Functional Independence Measure - Motor (MFIM-Motor). These measurements were devised for this study, and will be evaluated for informational purposes only.

Completed11 enrollment criteria

Virtual Reality (VR) Treatment for Balance Problems in Traumatic Brain Injury (TBI)

Traumatic Brain Injury

The purpose of this study is to evaluate the effectivenes of a home-based physical therapy program designed to improve balance following traumatic brain injury by incorporating the use of a virtual reality system.

Completed22 enrollment criteria

Safety, Tolerability and Effectiveness of Nuedexta in the Treatment of Pseudobulbar Affect (PBA)...

Pseudobulbar Affect (PBA)Stroke2 more

The objectives of the study are to evaluate the safety, tolerability, and effectiveness of NUEDEXTA capsules containing 20 mg DM (Dextromethorphan)/10 mg Q (Quinidine) for treatment of Pseudobulbar Affect (PBA) in patients with prevalent conditions such as dementia, stroke, and traumatic brain injury (TBI)over a 12 week period.

Completed9 enrollment criteria

Effect of Rosuvastatin on Cytokines After Traumatic Brain Injury

Head Injury

The purpose of this study is to determine whether rosuvastatin could alter the immunological response after head injury by modulating TNF-alpha,IL6,IL-1.

Completed12 enrollment criteria

Interacting Together Everyday: Recovery After Childhood Traumatic Brain Injury (TBI) "I-InTERACT...

Traumatic Brain Injury

The purpose of this study is to test an on-line intervention for families of young children who have experienced moderate or severe traumatic brain injury (TBI). Previous interventions were not designed to address the needs of young children with TBI, and feedback revealed a desire for more examples and materials appropriate for families of younger children. This project builds upon the investigators previous research by modifying the online intervention content to address the needs of young children with TBI. The goal of this project is to develop an intervention that will encourage positive parenting behaviors, improve child behaviors, and reduce parent distress and burden following TBI. The investigators hypothesize that the intervention group will exhibit more effective parenting skills as well as better child functioning and lower levels of parental distress at follow-up than will the active comparison group.

Completed7 enrollment criteria

Treatment of Traumatic Brain Injury With Hyperbaric Oxygen Therapy

Brain InjuryChronic

The purpose of this study is to determine if hyperbaric oxygen therapy (HBOT) improves the cognitive function of OIF/OEF individuals who have chronic mild to moderate traumatic brain injury (TBI). Cognitive function includes such things as thinking, remembering, recognition, concentration ability and perception. Traumatic brain injury is common with head injuries caused by blows to the head, nearby explosions, or concussion. Subjects will be assigned to an intervention or sham arm. Computer based cognitive tests will be used as outcome measures. Subjects are enrolled by invitation only.

Completed12 enrollment criteria

Near Infrared Spectroscopy (NIRS) as Transfusion Indicator in Neurocritical Patients

Traumatic Brain InjurySubarachnoid Hemorrhage1 more

Neurocritical ill patients are frequently transfused. Red blood cell transfusion (RBCT) in these patients has been associated with deleterious effects, including higher rates of nosocomial infections, multi-organ failure, and mortality. Therefore, it seems crucial to avoid any unnecessary RBCT. Most critically ill patients tolerate hemoglobin levels near 7 g/dL without an increase in morbidity or mortality rates. In this regard, a recent sub-analysis of TRICC trial has showed that TBI patients may tolerate hemoglobin levels as low as 7 g/dL, but other studies including neurocritical patients suggested that severe anemia may worsen clinical outcome. Therefore, optimal hemoglobin levels in neurocritical care patients remain largely unknown. Some textbooks and guidelines recommend to transfuse these patients to reach hemoglobin levels near to 10 g/dL, despite the lack of a solid scientific background supporting this target. Even though it has not been demonstrated, hemoglobin-based RBCT prescription could result in over- or under-transfusion in neurocritical patients. Alternatively, it has been suggested that more physiological transfusion triggers, using direct signals coming from the brain, will progressively replace arbitrary hemoglobin-based transfusion triggers in the neurocritical patients [65]. At the neurocritical units, patients are often monitored by using non-invasive methods, such as near infrared spectroscopy which indirectly measures regional cerebral oxygen saturation (rSO2). Changes in rSO2 values have been shown to directly correlate with changes in erythrocyte mass, thus increasing with RBCT and decreasing with blood losses. Moreover, rSO2 values also show a good correlation with clinical outcome and other variables which are often monitored in TBI patients. The purpose of this study is to ascertain as to whether rSO2 levels are more efficacious than conventional hemoglobin levels in guiding RBCT in patients admitted to a neurocritical care unit.

Completed12 enrollment criteria

Effects of Aerobic Exercise on Cognition, Mood and Fatigue Following TBI

Traumatic Brain Injury

The purpose of the study is to determine the efficacy of aerobic exercise for improving cognition, mood, and fatigue after Traumatic Brain Injury (TBI) as well as examine the role of Brain Derived Neurotropic Factor (BDNF) and peripheral Vascular Endothelial Growth Factor (VEGF) as mediators of response to exercise.

Completed25 enrollment criteria
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