View clinical trials related to Brain Injuries.
Filter by:The main objective of this study is to compare the clinical outcomes of TBI patients receiving only Sterofundin or 0.9% saline as main fluid therapy.
Brian injured patients are predisposed to various complications related to mechanical ventilation. Appropriate decision making of the weaning is crucial and validated predictive parameters are desirable. In present study, the investigators aim to a) validate the electrical activity of diaphragm (EAdi) derived parameters, and b) evaluate the traditional predictive parameters in weaning prediction in brain injured patients.
Traumatic brain injury (TBI) is a serious condition with high morbidity and mortality. The Glasgow score alone, assessed at the initial phase, is not enough to determine the prognosis. The aim of this study is to define and to evaluate a prognostic score for early death based on clinical and CT-scan findings in an observational retrospective derivation cohort of patients hospitalized for traumatic brain injury. This cohort will allow us to carry out a uni- and then multi-variate analysis so as to create a prognostic score for early death. We will subsequently test this score in a prospective validation cohort.
This retrospective study is a more extensive, confirmatory analysis of the cognitive and functional outcomes initially seen in 2 groups of MCI/dementia patients in Springfield, MA and compares specialized dementia care and a comprehensive treatment approach versus usual care delivered in a non-specialist setting. The first group of patients (n= 328) was seen by a dementia specialist, who utilized a standardized assessment and treatment protocol (CNS). This included comprehensive identification and treatment of hypoxia, sleep-disorders, and other cognitively-impairing metabolic conditions as well as maximally- dosed FDA-approved medications for dementia, depression, and PBA. The second group of patients (n= 280) was seen by non-dementia specialists in the community and received usual care which did not include comprehensive assessment or treatment of underlying metabolic derangements or maximal utilization of currently available medications. This study, evaluating date from a larger cohort (n>800) of specialist-treated cognitively-impaired patients, will further examine the hypothesis that a comprehensive dementia treatment protocol yields cognitive stabilization and/or improvement using already available dementia drugs when compared with usual community care.
The primary goal of this study is to provide clinicians with a brief, patient self-administer instrument yielding a single composite score that reliably correlates with objective findings on standardized neurocognitive assessment for concussion.
Head injury is a frequent motive of consultation in paediatric emergency units and the first cause of mortality in infants of more than one year old in developped countries. The indication of performing cerebral CT scans currently depends on clinical decision based on recommendations used in adults. In this way, 60 to 90% of scans are normal in children with head injury. CT scan is expensive and irradiating with the risk of increasing the cancer in children. Protein S100B and copeptin are biomarkers which have shown their ability to detect cerebral lesion in children with head injury. (protein S100B and /or in adults protein S100B and copetin). It is the first clinical biological evaluation of severity of head injury based on dosing of copeptin alone or associated with protein S100B. Furthermore, the evaluation of the biomarkers GFAP, NFL, Tau and UCHL-1 is today necessary from a scientific point of view and to optimize the diagnostic and prognostic value of these biomarkers which can be combined. Indeed, these protein biomarkers are biologically linked to the protein S100B and copeptin, and will allow a more specific and more thorough evaluation of the presence of brain damage at the cellular level. More specifically, the measurement of the S-100B and GFAP proteins will allow evaluation of gliovascular damage while those of copeptin, NFL, Tau and UCHL1 proteins will allow evaluation of neuronal damage. The assay of these different biomarkers will also be carried out on a control population, without head injury or neurological or inflammatory pathologies, in order to establish the standards of these biomarkers on a pediatric population of similar age.
The primary aim of this study is to assess the magnitude of transcranial direct current stimulation (tDCS) -induced cognitive and functional change in patients with mild traumatic brain injury. This study will also attempt to identify biomarkers associated with treatment response. Last, acceptability and tolerability of procedures will be assessed. To accomplish these aims, a randomized, double-blind, sham-controlled, parallel groups, pilot study will be conducted in which participants are assigned to 24 sessions of tDCS or sham stimulation offered concurrent with working memory training. Neural efficiency will be measured with electroencephalogram (EEG) pre and post-intervention.
Microbiome studies may be highlighted as crucial in the development of sleep disorder for TBI patients. The microbiota-gut-brain connection may further provide an opportunity for microbiota manipulation to treat the TBI patients with sleep disorders.This study is to investigate whether exist the relationship between sleep disorder and circadian rhythm of patients with TBI or not and focus the study on the potential of the host-microbiota interaction in regulating sleep disorder.
The primary objective of this study is to collect un-blinded BrainPulse recordings from youth and adults that have a confirmed diagnosis of concussion per protocol guidelines in order to improve a concussion detection algorithm previously developed by Jan Medical, Inc. Subjects will be followed for 21 days after the initial injury with BrainPulse recordings to study the subject's recovery process. The symptomatic evaluation, physical examination, and BrainPulse recordings will be entered in a database to assess clinical outcome and device utilization.BrainPulse(TM)
The purpose of this study is to develop appropriate training methods and gather participant feedback on their use of the Passy Muir Swallowing Self-Training Device (PMSST). The PMSST is a small device that provides external vibratory stimulation to the larynx during swallowing and swallowing training. A secondary purpose of the study is to determine how 3 months of use of the PMSST affects swallowing physiology, brain activation, oral intake and quality of life. This was an uncontrolled pilot study aimed at gaining patient feedback on use of the vibratory device.