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Active clinical trials for "Brain Injuries"

Results 331-340 of 2049

SafeBoosC III Two-year Follow-up

DeficitsNeurologic2 more

The SafeBoosC-III 2 year follow up study will follow up on all patients randomised in the SafeBoosC-III clinical trial (NCT03770741). The investigators will collect data when the patients are two years of corrected age from routine standardised follow up assessments, parental questionnaires as well as informal assessments. The study will commence in September 2021, and will expect to include all 72 sites across 18 countries, which take part of the SafeBoosC-III clinical trial.

Recruiting2 enrollment criteria

Narrative Discourse Treatment Development

Traumatic Brain InjuryNeurogenic Communication Disorders

Discourse impairments are breakdowns in meaningful communication beyond the level of single sentences and have a functional impact on the lives of Veterans with TBI, disrupting return to work, communication re integration, socialization, and quality of life. The few prior attempts to treat discourse impairments have been small case studies and resulted in no change or limited gains. The proposed study evaluates the feasibility of a novel narrative discourse treatment that builds upon these prior attempts by addressing breakdowns in both story content and story organization using a theoretically-driven approach. If feasible, as demonstrated by tolerability and acceptability to participants, and later shown to be effective, the proposed discourse treatment has the potential to improve daily communication, which provides a gateway for Veterans with TBI to increase meaningful participation and improve functioning in major life domains.

Not yet recruiting17 enrollment criteria

Effect of Xenon on Brain Injury After Aneurysmal Subarachnoid Hemorrhage

Subarachnoid HemorrhageAneurysmal5 more

An investigator-initiated clinical drug study Main Objective: To explore neuroprotective properties of xenon in patients after aneurysmal subarachnoid hemorrhage (SAH). Primary endpoint: Global fractional anisotropy of white matter of diffusion tensor imaging (DTI). Hypothesis: White matter damage is less severe in xenon treated patients, i.e. global fractional anisotropy is significantly higher in the xenon group than in the control group as assessed with the 1st magnetic resonance imaging (MRI). After confirmation of aSAH and obtaining a signed assent subjects will be randomized to the following groups: Control group: Standard of Care (SOC) group: Air/oxygen and Normothermia 36.5-37.5°C; Xenon group: Normothermia 36.5-37.5°C +Xenon inhalation in air/oxygen for 24 hours. Brain magnetic resonance imaging techniques will be undertaken to evaluate the effects of the intervention on white and grey matter damage and neuronal loss. Neurological outcome will be evaluated at 3, 12 and 24 months after onset of aSAH symptoms Investigational drug/treatment, dose and mode of administration: 50±2 % end tidal concentration of inhaled xenon in oxygen/air. Comparative drug(s)/placebo/treatment, dose and mode of administration: Standard of care treatment according to local and international consensus reports. Duration of treatment: 24 hours Assessments: Baseline data Information that characterizes the participant's condition prior to initiation of experimental treatment is obtained as soon as is clinically reasonable. These include participant demographics, medical history, vital signs, oxygen saturation, and concentration of oxygen administered. Acute data The collected information will contain quantitative and qualitative data of aSAH patients, as recommended by recent recommendations of the working group on subject characteristics, and including all relevant Common Data Elements (CDE) can be applied. Specific definitions, measurements tools, and references regarding each SAH CDE can be found on the weblink here: https://www.commondataelements.ninds.nih.gov/SAH.aspx#tab=Data_Standards.

Not yet recruiting21 enrollment criteria

Growth Hormone Replacement Therapy in Veterans With Mild Traumatic Brain Injury (mTBI) and Adult...

Adult Growth Hormone DeficiencyMild Traumatic Brain Injury

The purpose of this study is to determine whether growth hormone replacement therapy (GHRT) is effective versus placebo in the improvement of Quality of Life in patients with adult growth hormone deficiency (AGHD) and mild traumatic brain injury (mTBI).

Not yet recruiting22 enrollment criteria

Utility of Pupillary Metrics in Diagnosis and Management of Concussion in Children

Brain ConcussionReflex4 more

The purpose of this study is to gather information and compare the potential use of pupillometry to identify concussions and post concussive syndrome with standard age appropriate assessments. The study will compare concussed pediatric patients 5-17 years of age recruited from the emergency department within 72 hours following injury with age and gender matched non-concussed pediatric patients recruited from primary care clinics. Assessment of both concussed and non-concussed subjects will take place at the initial enrollment visit and will be repeated at 1-2 weeks for the concussed subjects and at 12-14 weeks for both groups.

Recruiting20 enrollment criteria

Long-term Clinical Correlates of Traumatic Brain Injury

Traumatic Brain Injury

Background: - Traumatic brain injury may have a range of effects, from severe and permanent disability to more subtle functional and cognitive deficits that often go undetected during initial treatment. To improve treatments and therapies and to provide a uniform quality of care, researchers are interested in developing more standardized criteria for diagnosing and classifying different types of traumatic brain injury. By identifying imaging and other indicators immediately after the injury and during the initial treatment phrase, researchers hope to better understand the nature and effects of acute traumatic brain injury. Objectives: - To study the natural history of traumatic brain injury by examining the changes in brain scans, blood samples, and brain function over 5 years after injury. Eligibility: - Individuals 18 years of age and older who have had a traumatic brain injury within the past 1 year. Design: This study will include about eight visits to the NIH Clinical Center over 5 years. Participants will have four visits in the first year, and one visit each year for the following 4 years. Each visit will take between 1 and 4 days, and participants will be in the outpatient clinic for about 8 hours each day of the visit. At each study visit, participants will have some or all of the following tests: Medical history and physical examination Blood and urine tests Questionnaires and assessments of thinking and memory, which may be spoken aloud, written down, or entered into a computer Imaging scans, such as magnetic resonance imaging (MRI) or positron emission tomography/computed tomography (PET/CT). This study does not provide treatment and does not replace any current therapies. However, participants who are eligible for other National Institutes of Health studies may be referred to these studies by researchers....

Recruiting66 enrollment criteria

Cortical Contributions to Motor Sequence Learning

Brain Injuries

The long-term objective initiated with this study is to determine which brain areas functionally contribute to learning a motor skill. The primary hypothesis of this trial is that premotor cortex (PMC) is necessary to learn a new motor skill. Participants may undergo a MRI scan to acquire a structural image of their brain to target noninvasive stimulation, using transcranial magnetic stimulation (TMS) to one of two brain areas: PMC or primary motor cortex (M1). A third group of individuals will undergo a placebo stimulation protocol. For all three groups, stimulation will be used to create a transient 'virtual lesion' during motor skill training. Temporarily disrupting the normal activity of these brain regions during training will allow us to determine which regions are causally involved in learning a new motor skill. The primary outcome measure will be the change in skill after training in each group.

Recruiting7 enrollment criteria

Biomarkers in the Brain Oxygen Optimization in Severe Traumatic Brain Injury Trial

TBI (Traumatic Brain Injury)

BioBOOST is a multicenter, observational study of the effect of derangements in brain physiologic parameters on brain injury biomarker levels in patients with severe traumatic brain injury.

Recruiting6 enrollment criteria

Intracranial Pressure Monitoring in Moderate Traumatic Brain Injury

Moderate Traumatic Brain Injury

Objectives The primary focus for scientific investigation is to conduct a multi-center observational study to determine if intracranial pressure (ICP) monitoring to direct treatment of patients with moderate traumatic brain injury (TBI) improves medical practice and patient outcomes in China. Design and Outcomes This is a prospective observational cohort multi-center study with blinded evaluation of outcome. It is a 2-group design. Neurologic outcome is evaluated by extended Glasgow outcome score(GOSE) at 6 months. Interventions and Duration This is an observational study. The decision of intracranial pressure monitoring is made by the relatives of patient. Management of all patients will be consistent with protocols presently being used in the study hospitals. For patients who received ICP monitoring, the management will also be based specifically on the presence of intracranial hypertension. Each patient will be evaluated at 6 months post injury on neurological outcomes. Sample Size and Population 832 patients with moderate traumatic brain injury will be collected on this study.

Recruiting22 enrollment criteria

Validity and Reliability Study of the Pain Indicator Behavior Scale-Brain Damage (ESCID-DC)

PainBrain Injuries1 more

A multicentre observational study to validate the adaptation of the Pain Indicator Behavior Scale (ESCID) for patients with acquired Brain Damage (ESCID-DC), as a measuring instrument.

Recruiting15 enrollment criteria
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