View clinical trials related to Brain Injuries.
Filter by:There are studies reporting that the survival rate in pediatric patients with abnormal pupillary response is 23% and that pupillary response is effective on mortality and patient outcomes. Studies in the literature examining the effect of pupillary response on mortality and outcome in pediatric patients with traumatic brain injury reported that bilaterally dilated pupils were associated with a higher mortality rate. Considering the literature results, we believe that obtaining the GCS-Pupil score by combining GCS and pupillary reaction in pediatric patients with traumatic brain injury will be effective in predicting patient outcomes.
Helsinki University Hospital (HUS) has decided on a strategy to provide digital health care services for several medical specialties - a project called the Health Village (HealthVillage.fi). Within Health Village a specific digital My Path program, iRENE Digital Pathway, has been developed for web-based neuropsychological rehabilitation. iRENE Digital Pathway is a structured program for adults with an acquired brain injury (ABI), which utilizes psychoeducative information and self-evaluation questionnaires for attentional, memory and executive disorders with a feedback, and provides training for internal and external memory and other cognitive strategies. The current study will explore if web-based neuropsychological rehabilitation is a feasible and effective method for carrying out rehabilitation for adults with ABI.
Mild traumatic brain injury (TBI), defined by a Glasgow Coma Scale (GCS) score of 13 to 15, is the cause of many consultations in paediatric emergency departments (1), even though it is a rare cause of acute complication: approximately 10% of children present with intracranial lesions (ICL) on the CT scan and less than 1% require neurosurgical intervention (2). Although ICLs remain a serious complication requiring rapid diagnosis, brain CT scans, the gold standard diagnostic test, cannot be performed routinely because many children would be unnecessarily exposed to ionising radiation associated with an increased risk of cancer (3). In recent years, several clinical decision rules for the management of mTBI have therefore been developed with the aim of identifying children at high or very low risk of ICL in order to better target CT scan indications. Despite this, the rate of CT scans performed has remained high, up to 35%, and has not decreased with the application of these clinical decision rules (4). Furthermore, even though the majority of children and adolescents recover quickly after mTBI, nearly 30% will present symptoms such as headaches, dizziness, asthenia, memory, concentration or sleep disorders persisting beyond one month with a possible impact on their quality of life (5). Thus, there is a need to develop new strategies to (i) limit the use of CT scans while minimising the risk of late diagnosis of ICL, (ii) identify children with a higher risk of adverse outcome and/or post-concussive symptoms. One of the most promising strategies is the use of brain-based blood biomarkers. This study therefore aims to provide new knowledge on two of them, GFAP and UCH-L1 (6,7), in particular by using an automated test combining them (the VIDAS® TBI test developed by bioMérieux) in order to improve the management of CT in the paediatric population at the diagnostic and prognostic levels.
The purpose of the study is to test whether low level electric stimulation, called transcranial Direct Current Stimulation (tDCS), on the part of the brain (i.e., pre-supplementary motor area) thought to aid in memory will improve verbal retrieval in civilian (non-military, non-veteran) participants with histories of traumatic brain injuries. The primary outcome measures are neuropsychological assessments of verbal retrieval, and the secondary measures are neuropsychological assessments of other cognitive abilities and electroencephalography (EEG) measures. Additionally, the study will examine the degree to which baseline assessments of cognition, concussion history, structural brain imaging, and EEG predict responses to treatment over time, both on assessments administered within the intervention period and at follow-up.
A long-term follow-up study of patients who acquired a stroke or traumatic brain injury (TBI) 5-15 years ago. Primary objective is to describe the interaction between measures of cognitive reserve and neuropsychological variables, psychological variables and healthcare usage in relation to outcome (i.e work return, satisfaction with life, psychological well-being and overall outcome) after stroke or traumatic brain injury. Secondary objectives are to describe differences in fatigue related to cognitive reserve after stroke or TBI and to describe differences in health-care usage related to cognitive reserve after stroke or TBI.
Cross cultural analytical study to translate Modified fatigue impact scale MFIS) in Urdu language. Along with the translated version by evaluating its validity and reliability among the patients of traumatic brain injury. No such study has been previously conducted in Pakistan which translate this scale in Urdu and follows the proper cross- culture adaptation.Condition or disease: Traumatic brain injury. Convenient sampling technique would be used.
nsomnia is a frequent complaint reported by patients with TBI, and exacerbates their ability to return to productive activity, which subsequently elevate related healthcare costs and burden. Existing literatures found that effects of CBTi, first-line therapy for insomnia, on post-traumatic insomnia is still debated, indicating that developing an alternative nonpharmacological therapy for alleviating insomnia following TBI is required. Besides, digital health is one of strategies to achieve precision health. Thus far, knowledge regarding whether mobile-delivered BBTi has non-inferiority effects as BBTi in treating insomnia is still lacking. Therefore, a RCT with a large sample size to examine the immediate and lasting effects of BBTi and mobile-delivered BBTi on insomnia, mood disturbances, and cognitive dysfunctions in patients following TBI at the recovery stage compared with the control participants.
Traumatic brain injury (TBI) is a leading cause of death and disability in trauma patients. As the primary injury cannot be reversed, management strategies must focus on preventing secondary injury by avoiding hypotension and hypoxia and maintaining appropriate cerebral perfusion pressure (CPP), which is a surrogate for cerebral blood flow (CBF). The goal should be euvolemia and avoidance of hypotension. The assessment of a patient's body fluid status is a challenging task for modern clinicians. The use of Ultrasonography to assess body fluids has numerous advantages. The concept of using lung ultrasound for monitoring the patient is one of the major innovations that emerged from recent studies. Pulmonary congestion may be semiquantified using lung ultrasound and deciding how the patient tolerates fluid. Inferior vena cava (IVC) sonography and point-of-care ultrasound (POCUS) has become widely used as a tool to help clinicians prescribe fluid therapy. Common POCUS applications that serve as guides to fluid administration rely on assessments of the inferior vena cava to estimate preload and lung ultrasound to identify the early presence of extravascular lung water and avoid fluid over resuscitation In this study we will use the measurements of both lung and IVC together to guide fluid dosage in critically ill patients with TBI. We will also use ONSD as a mirror for intra-cranial pressure (ICP).
Neurofilament Light Chain Protein (NfL) has been found by many studies as a sensitive biomarker of neuronal damage from several reasons, e.g. neurodegenerative diseases (Alzheimer's disease, Multiple Sclerosis, etc.), inflamation (HIV) or trauma. Its role as biomarker thus offers a possibility to predict and manage diseases associated with neuronal damage. Therefore our aim is to investigate the changes in level of NfL in hydrocephalus and to find its role in management of treatment in hydrocephalus.
Patients with brain injury secondary to stroke, surgery, or trauma frequently suffer from homonymous hemianopia, defined as vision loss in one hemifield secondary to retro- chiasmal lesion. Classic and effective saccadic compensatory training therapies are current aim to reorganize the control of visual information processing and eye movements or, in other words, to induce or improve oculomotor adaptation to visual field loss. Patients learn to intentionally shift their eyes and, thus, their visual field border, into the area corresponding to their blind visual field. This shift brings the visual information from the blind hemifield into the seeing hemifield for further processing. Patients learn, therefore, to efficiently use their eyes "to keep the 'blind side' in sight". Biofeedback training (BT) is the latest and newest technique for oculomotor control training in cases with low vision when using available modules in the new microperimetry instruments. Studies in the literature highlighted positive benefits from using BT in a variety of central vision loss, nystagmus cases, and others.The purpose of this study is to assess systematically the impact of BT in a series of cases with hemianopia and formulate guidelines for further use of this intervention in vision rehabilitation of hemianopia cases in general.