View clinical trials related to Brain Injuries, Traumatic.
Filter by:Traumatic brain injury is a common neurosurgical emergency managed in all tertiary and secondary hospitals. Detecting the underlying pathology is a major challenge especially for surgical cases. The outcome differs if the early intervention is performed. Near-infrared spectroscopy (NIRS) based device will detect the hematoma at the bedside. It is not the replacement of a CT scan but can help in triage. This is a large-scale prospective study to establish the role of NIRS device in detecting intracerebral hematoma and correlate the finding with CT scan finding.
Injuries affecting the central nervous system may disrupt the cortical pathways to muscles causing loss of motor control. Nevertheless, the brain still exhibits sensorimotor rhythms (SMRs) during movement intents or motor imagery (MI), which is the mental rehearsal of the kinesthetics of a movement without actually performing it. Brain-computer interfaces (BCIs) can decode SMRs to control assistive devices and promote functional recovery. Despite rapid advancements in non-invasive BCI systems based on EEG, two persistent challenges remain: First, the instability of SMR patterns due to the non-stationarity of neural signals, which may significantly degrade BCI performance over days and hamper the effectiveness of BCI-based rehabilitation. Second, differentiating MI patterns corresponding to fine hand movements of the same limb is still difficult due to the low spatial resolution of EEG. To address the first challenge, subjects usually learn to elicit reliable SMR and improve BCI control through longitudinal training, so a fundamental question is how to accelerate subject training building upon the SMR neurophysiology. In this study, the investigators hypothesize that conditioning the brain with transcutaneous electrical spinal stimulation, which reportedly induces cortical inhibition, would constrain the neural dynamics and promote focal and strong SMR modulations in subsequent MI-based BCI training sessions - leading to accelerated BCI training. To address the second challenge, the investigators hypothesize that neuromuscular electrical stimulation (NMES) applied contingent to the voluntary activation of the primary motor cortex through MI can help differentiate patterns of activity associated with different hand movements of the same limb by consistently recruiting the separate neural pathways associated with each of the movements within a closed-loop BCI setup. The investigators study the neuroplastic changes associated with training with the two stimulation modalities.
This is a pilot study to identify biomarkers that individually, and in combination, demonstrate the greatest sensitivity to repetitive, low-level blast exposure (RLLBE) neurotrauma in Special Operations Forces (SOF) personnel. The proposed cross-sectional, multimodal study will elucidate the potential effects of long-term RLLBE by comparing biomarkers across subjects.
the study is designed to perform an intervention for enhancement of cerebral blood flow in patients with traumatic brain injury showing vasospasm through transcranial doppler
Severe Acquired Brain Injury (sABI) is defined as "an encephalic impairment that occurs after birth and is not related to a congenital or degenerative disease. This impairment may be temporary, or permanent, and cause partial or functional disability or psychosocial distress." In Italy there are at least 10-15 new cases of sABI per year per 100,000 inhabitants; the estimated prevalence is about 150,000 cases per year. Often, people with sABI present focal neurological deficits, including alterations in strength, sensitivity, coordination and gait. Most of the rehabilitation protocols for people with sABI are derived from post-stroke studies, caused by lack of evidence on specific rehabilitation of people with sABI. Rehabilitation of people with sABI should begin as soon as possible, to prevent the onset of retractions and decubitus, and to regain joint mobility, strength, and coordination. OMEGO® (Tyromotion) is a newly developed device used in lower extremity rehabilitation, that provides visual and auditory feedback. Specifically, OMEGO® contains several games developed to enhance and promote learning behaviors, that simulate activities of daily living. The use of devices such as cycle ergometers is recommended in the rehabilitation of people with sABI; however, there are no studies demonstrating the effect of cycle ergometer training in association with visual feedback. The purpose of this study is to evaluate, both in people without apparent pathology (hereafter identified as "healthy") and in people with sABI, whether visual feedback during OMEGO® exercise modifies brain connectivity, emotional drive, and lower limb performance during a lower limb-specific motor rehabilitation task.
This study will assess the combined effectiveness of repetitive transcranial magnetic stimulation (rTMS) and telehealth based therapy in helping manage mild traumatic brain injury (mTBI) related headaches. The investigators hypothesize that active rTMS combined with telehealth therapy will provide marked reduction in mTBI related headaches and symptoms in comparison to their placebo counterparts.
This multicenter prospective observational study is designed to prospectively record data on patients who are managed per institutional standard of care. The objectives of this study are to establish an aggregate database of information on baseline clinical and demographic characteristics, medication use, markers of frailty, injury characteristics, management strategies, and outcomes following TBI in geriatric patients, determine best practices for management of geriatric patients with TBI, and establish how markers of frailty correlate with outcome in geriatric patients with TBI.
Severe traumatic brain injury (TCI), defined by an initial GCS of ≤ 8 and/or admitted to a neurosurgical intensive care unit, are responsible for diffuse brain lesions that can lead to multiple deficits, including impairment of sphincter functions: bladder, rectal and sexual. Bladder-sphincter disorders are very common after a TBI. Urinary incontinence predominates, with a prevalence varying from 50 to 100% in the acute period following a TBI. The variability of the clinical data is explained by the heterogeneity of the populations studied (severity of TBI, duration of coma, time to care) and the tools used to objectify sphincter disorders. The interest of this study is to make an evaluation and a prospective follow-up of sphincter disorders in this population during one year.
Gaining Real-life Skills Over the Web (GROW) is an online parenting-skills intervention for caregivers of children aged 0-4 who sustained traumatic brain injuries. GROW is designed to promote family and child coping and adjustment for caregivers.
The study population will consist of 3 mutually-exclusive sets of patients and subjects: - TBI patients with intracranial bleeding - TBI patients without intracranial bleeding - Control subjects with normal brain health. Research subjects between the ages of 22 to 50 will be enrolled. All TBI patients must have a diagnostic head CT scan within 24 hours of the injury. TBI patients without intracranial bleeding based on the CT scan must have a Glasgow Coma Scale (GCS) score at enrollment of ≤ 14. Total maximum duration of active monitoring with the device in this study is 48 hours with a clinical follow-up at day 7 after enrollment.