Active clinical trials for "Brain Injuries, Traumatic"

The primary objective of this study is to demonstrate the safety and efficacy of positron emission tomography (PET) imaging with a radioactive compound called [F-18]FDDNP in subjects with suspected Alzheimer's disease or suspected chronic traumatic encephalopathy (CTE) to predict clinical decline after one and two years.

Management of traumatic brain injuries causes significant efforts on emergency departments (ED) and overall health care. Patients on antithrombotic treatment with even minor trauma to the head, although without significant clinical findings, represent special challenges because the risk of traumatic intracranial hemorrhage (tICH) with these agents. The aim of this study was to compare the prevalence of tICH in patients on various pre-injury antithrombotic treatment exposed to minor Traumatic Brain injuries (mTBI) in Sundsvall with untreated patients. Secondary aim was to explore different risk factors for tICH. Data from medical records and radiology registry with mTBI in Sundsvall hospital between 2018-2020 in Sundsvall identified 2044 patients. Demographic data, pre-injury medications with antithrombotic treatment, state of consciousness at admission and the results of CT-scans of brain was investigated.

The investigational device used in this clinical investigation, the Nurochek Headset, is a portable electroencephalogram (EEG) headset which delivers a visual stimulus and measures a VEP. The visual stimulus is delivered to the subjects' eyes via light-emitting diodes, and the EEG measures the user's visual-evoked potential. This headset communicates with an application on a smartphone which processes the signals and transmits them to a secure cloud server for analysis and storage of the data. The primary objective of this clinical investigation was to evaluate the performance of the investigation device (NCII) against clinical diagnosis and SCAT 5, in the accurate detection of mild traumatic brain injury (mTBI). The primary endpoint outlined for this study was set at the collection of 100 valid investigational device readings from individuals with concussion The aim of this study was to collect data from 100 readings from individuals with concussion. It was estimate that approximately 10-20% of baselined players would suffer a concussion during the season. There it was estimated there would be a need to baseline 500-1000 individuals in order to achieve the number of concussions required. The initial assumption was that sites would provide players pre-season and make players available for testing post-concussion. In practice, some sites provided player data only post-concussion event (such as medical clinics). Participants were required from sporting clubs, medical clinicals and schools.

The purpose of this study is to assess a new screening tool for sideline evaluation of concussion injuries in athletes. iDETECT is a new technology that combines several elements of recommended concussion screening tools into a single, portable device.

This study (Part 2) is designed to build a database including EEG, neurocognitive performance, clinical symptoms, history and other relevant data, which will be used to derive a multimodal EEG based algorithm for the identification of concussion and tracking of recovery. In addition, neuroimaging will be conducted at time of injury and following Return to Play (RTP).

Researches that focus on the perception of prosodic elements among adult who suffered traumatic brain injury (TBI), focus on their ability to decipher intonation in order to understand an additional meaning of a sentence. According to these researches, adults who suffer from TBI, with no signs of Aphasia, have difficulty perceiving and deciphering intonation (Marquardt et al., 2001; Angeleri et al., 2008). The current research asks to broaden the knowledge in this domain by examining the ability of adults with TBI to understand an additional prosodic element - focused stress. The ability to identify and understand focused stress in a sentence requires different abilities. First, a psychoacoustic ability in order to detect the stressed word. Second, an ability to understand the lexical grammatical meaning of the word as it negates other possible meanings (for example, in the sentence "I'm eating a red apple" the stressed word negated the option of a different color). Third, an understanding of the stressed word as it creates a different pragmatic/social meaning (for example, in the sentence "mom, I asked for red, yellow and green candy" the role of the stressed word is to mark the candy that the addressee didn't get). The aim of the study is to assess the ability of adults who had experienced TBI to grasp and understand the meaning of focused stress in the different contexts that were described above. An additional aim is to examine if differences in speech and cognitive abilities can describe some of the variation in the results. Thirty adults between the ages of 18-50 years will take part in this study, fifteen adults who had experienced moderate to severe TBI (0.5-3 years post injury) and fifteen healthy adults. Each participant with TBI will be matched to a healthy adult by gender, age, education and social-economic status. All of the participants will be Hebrew native speakers, with no learning disability, no neurological injury, proper speech abilities and no hearing impairment. The participants will undergo seven different tests in three different meetings (60 minute each), in a quiet room at Sheba - Academic Medical Center Hospital. The tests will include different cognitive and language examinations. The main test of the study will be The Hebrew Focused Stress Test (HFST). The HFST includes three subtests. The first subtest requires identification of the stressed word in a sentence based on psychoacoustic abilities alone. The second and the third subtests require understanding the meaning of focused stress in different contexts - lexical grammatical and pragmatic/social. The test includes forty eight recorded sentences. In each sentence one word is stressed. The participants will be asked to listen to the recordings and answer a closed question regarding the stressed word.

Intracranial pressure (ICP) monitoring is the most common neuromonitoring modality used in neurocritical care units (NCCU) around the world. Uncertainties remain around intracranial pressure monitoring both in traumatic and non-traumatic brain injury, and variation in clinical practice of intracranial pressure monitoring exists between neurocritical care units. The objectives of the study will explore intracranial pressure monitoring variation in practice to prioritise uncertainties in the clinical management of critical care patients with acute brain injury and support further collaborative hypotheses-based prospective studies.

Although several prognostic models have been developed to predict outcome for patients with severe traumatic brain injury (TBI), currently no study describes the impact of respiratory failure during Emergency Department treatment on mortality in a population of elderly patients. The purpose of the present study was to evaluate factors predicting poor outcome with special emphasis on the impact of respiratory failure on mortality in elderly patients with isolated severe TBI. All elderly patients (age ≥ 65 years) with isolated severe head injury, admitted to this Level I trauma center, during a period of 16 years (from January 1992 to December 2008) were identified from the trauma registry. Stepwise logistic regression analysis was used to identify risk factors for a poor prognosis and outcome. The logistic regression found the following variables influencing the mortality: respiratory failure (p<0.0005; OR: 9.369), pupillary response (p<0.0212, OR: 3.393) and ISS score (p<0.0001, OR:1.179). A significant (p<0.0001) increased risk of death was also found for patients with a midline shift >15 mm. The present study predicts a strong correlation between respiratory failure, pathological pupillary response, a higher ISS and substantial midline shift with poor outcomes in elderly patients sustaining an isolated severe TBI.

This study is Part 2 of data collection from 13-25 years old subject population for validation of previously derived algorithms. This data will be combined with that collected under NCT02957461 (Part 1 with subject age range 18-25 years) for the final analyses of validation of the algorithms.

Tertiary lesions responsible of the neurological decline after severe traumatic brain injury (TBI) are partially due to a persistent neuro-inflammation directly modulated by inflammatory mediators during the acute phase and detectable by using both multimodal MRI imaging and biological biomarkers during the acute phase after traumatic brain injury. The main objective is to identify if the level of IL-1beta in cerebrospinal fluid predict in a reliable and reproducible way, the neuro-radiological evolution evaluated by the comparison of a quantitative MRI performed in post-resuscitation and at one year (quantitative ΔIRM) in traumatic brain injuried patients. The secondary objectives are: To understand the links between the acute and chronic neuro-inflammatory phase in a population of TBI, To explore the contribution of the adaptive immune response in the persistent activation of the immune response, To Examine the links between persistent neuroinflammation, clinical deterioration and neuroimaging, To establish a correlation between the pathology and the physio-pathology of TBI.