Active clinical trials for "Brain Injuries, Traumatic"

Background: Traumatic brain injury (TBI) is one of the leading causes of disability in the United States. The EKSO GT Bionics® (EKSO®) is a robotic exoskeleton approved by the Federal Drug Administration (FDA) for rehabilitation following a cerebrovascular accident (CVA or stroke) and recently received approval for use in patients with TBI. The aim of the study was to examine if the use of exoskeleton rehabilitation in patients with TBI will produce beneficial outcomes. Methods: This retrospective chart-review reports the use of the (EKSO®) robotic device in the rehabilitation of patients with TBI compared to patients with CVA. The investigators utilized data from a single, private rehabilitation hospital for patients that received post-CVA or post-TBI robotic exoskeleton intervention. All patients that used the exoskeleton were discharged from the hospital between 01/01/2017 to 04/30/2020. Ninety-four percent (94%) of patients in the CVA groups and 100% of patients in the TBI group were of Hispanic or Latino ethnicity. Gains in total Functional Independence Measure (FIM), walking and cognition, and length of stay in the rehabilitation facility were measured. Results: Patients in the TBI group (n=11) were significantly younger than the patients in the CVA group (n=66; p< 0.05). Both groups spent a similar amount of time active, number of steps taken, and the number of sessions in the exoskeleton. Both groups also started with similar admission FIM scores. The FIM gain in the TBI group was similar to that of the CVA group (37.5 and 32.0 respectively). The length of stay between groups was not different either. Conclusions: The use of exoskeleton rehabilitation in patients with TBI appear to produce similar outcomes as for patients with CVA, prompting further attention of this intervention for this type of injury.

To describe the frequency and thresholds for sarcopenic obesity in neurodisabled persons and the fat and lean mass distribution based on various neurodisabilities

The investigators predict that decreased heart rate variability and poor sleep quality will be significantly correlated with higher self-reported anxiety following brain injury.

A prospective cohort minimal risk study to determine the impact of the COVID-19 crisis on outcomes of neurologically injured ICU patients.

Tracking post-traumatic brain injury sequale

Abstract Purpose Patients with anticoagulation therapy has a higher risk of developing traumatic Intracranial Hemorrhage (tICH). Delayed Intracranial Hemorrhage (d-ICH) is a rarer clinical manifestation; however, the incidence varies from 0-9,6 % in other studies. Some studies have also questioned the clinical relevance of d-ICH, since the mortality and the need of neurosurgical intervention is reported to be very low. The aim of this study is to determine the incidence of d-ICH at Sundsvall Regional Hospital. Methods A retrospective observational study of patients with mTBI and oral anticoagulation therapy. Data from medical records and radiology registry in Sundsvall hospital for 29 months during 2018-2020 in Sundsvall identified 249 patients with an initial negative CT scan who performed a follow-up CT scan. Outcome measure was incidence of d-ICH.

Intracranial pressure is usually measured by invasive methods requiring an intracranial sensor. There is no non-invasive monitoring method recognized as a gold standard. Tympanometry would make it feasible to evaluate intracranial pressure through sensitive and specific changes in the energy absorbance of the middle ear. It could represent a non-invasive method of monitoring intracranial pressure. This is a prospective monocentric longitudinal study. All adult patients in intensive care for head trauma, intracranial hypertension, or after cranial surgery and requiring invasive monitoring of ICP will be included after their non-opposition has been collected. In a group of 10 controls, multifrequency tympanometry will be performed in the standing position, in the 0° supine position and in the Tredelenburg position at -17°.

Patients with moderate traumatic brain injury (mTBI) are 1,5 times more frequent than those with severe TBI and some of them will develop secondary neurologic deterioration (SND) within the first 7 days. However, identifying at risk patients of SND is still challenging. This study aimed to determine risk factors associated with SND after mTBI.

The main objective is to evaluate the feasibility and interest of setting up a protocol for the systematic measurement of the S100B protein in patients with mild traumatic brain injury admitted to the emergency room of Douai hospital in order to reduce the number of unnecessary brain scans. The main evaluation criterion is the percentage of patients admitted to the emergency department of Douai hospital for mild traumatic brain injury, whose protocol for the systematic measurement of the S100B protein would make it possible to avoid the realization of a brain scans for patients with a protein assay S100B ≤ 0.10 µg/L, carried out within 3h of the onset of MCT. The systematic dosage of the S100B protein in the context of mild traumatic brain injury still does not appear in the recommendations for good practice in 2021. This study will contribute to the reflection on the use of the S100B protein in the development of new recommendations for good practice of mild traumatic brain injury support.

This study utilizes multimodal brain imaging to obtain quantitative biomarkers of brain injury and to improve understanding of the biological basis of brain pathology in adolescents with concussion. Adolescents with a concussion will undergo neuroimaging and neuropsychology assessments acutely and four months after injury.