View clinical trials related to Severe Brain Injury.
Filter by:Building a Large Chinese Cohort(Chinese Severe brain injury Trial)
Long-term sequelae in TBI is a well-recognized burn. We designed a proof of concept study, randomized, double-blind, placebo-controlled to evaluate 36 adult TBI patients. To evaluate the early and late effects of 10 days of 20 minutes applying transcranial direct-current stimulation (tDCS) in the dorsolateral prefrontal cortex (DLPFC), bilateral temporal cortex (CTB) and compare to sham stimulation, and online cognitive training. We expect that the active group will differ from the sham group, showing larger effect sizes in the cognitive assessment.
The purpose of this study is to characterize and improve pain and nociception management in patients with disorders of consciousness (DOC). This project is divided into two phases, a first phase to evaluate pain level and a second phase which consist of a clinical trial to evalute pain medication efficacy. The main aim is to evaluate the use of the Nociception Coma Scale-Revised (NCS-R) and its cut-off score (i.e., 5) as an assessment and management tool to define guidelines for managing pain in patients with DOC. In this double-blind, placebo-controlled clinical study, we will evaluate the use of analgesic treatments in reducing pain in subacute/chronic patients. The project will also allow us to validate the NCS-R cut-off score defined previously.
Serious head trauma is a common and pathology and responsible of high morbidity and mortality. The major challenge, from the very first hours, is to limit cerebral ischemia by controlling secondary brain injury factors. These parameters must be integrated early in order to guide the better cerebral resuscitation. Brain monitoring is multimodal:transcranial Doppler, intracranial pressure sensor, cerebral tissue pressure in O2. In the case of refractory intracranial hypertension to well-conducted medical treatment, targeted temperature control showed its efficacy on the control of intracranial pressure. There are few data in the literature on PbtO2 modifications during therapeutic hypothermia. PbtO2 monitoring is now commonly used according to literature data, showing the benefit of the latter but the interpretation of its values during the phase of targeted temperature control is not known. Due to the lack of data on the variation of values of PbtO2 during the hypothermia phase, values falsely comfortable or falsely weak could lead respectively to a lack of support of an episode of tissue hypoxia or the introduction of unjustified aggressive therapeutics.
Severe brain-injured patients require prolonged mechanical ventilation. Weaning these patients from mechanical ventilation is challenging. During neurologic recovery, brain injured patients usually present satisfactory respiratory autonomy. However, the exact timing of extubation is unknown and is frequently delayed because of potential inhalation. To date, there are no clinical signs available in the current literature that can help the attending physician in the decision-making process of extubation in brain-injured-patients
In this study, researchers will show to caregivers of patients how to use a tDCS device (this device was designed to be easy to use, with fixed parameters and only one button to press to run the stimulation). They will be asked to apply a stimulation every day, 5 days per week during for 4 weeks, in chronic patients in minimally conscious state (MCS). 2 sessions of 4 weeks of stimulations will be realized, one anodal and one sham in a randomized order. Before and after each session, behavioral improvement will be assessed with the Coma Recovery Scale Revised (CRS-R). A final assessment will be done 8 weeks after the end of the sessions to assess the long term effect of tDCS.