View clinical trials related to Craniocerebral Trauma.
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Partial assisted mechanical ventilation modes are widely used to manage respiratory failure. It has been demonstrated that they can reduce complications related to mechanical ventilation and neuromuscular blocking agents administration. During partially assisted ventilation, there is no predefined respiratory rate and the patient must trigger each breath. One of the most used partial assisted mode is pressure support ventilation (PSV), which plays a key role in weaning from mechanical ventilation, especially in neuro-cranial diseases. Neurally adjusted ventilatory assist mode (NAVA) has been introduced in clinical practice in recent years. It has been widely demonstrated that NAVA is able to guarantee gas exchange in the same way as PSV in patients admitted to ICU for respiratory failure. Thus, NAVA can improve patient-ventilator interaction reducing the incidence of asynchronous events and favoring the patient's own ventilatory pattern. Nevertheless, NAVA does not appear to have been applied in neuro ICU patients. In a study conducted on non-neurosurgical infants has been demonstrated negative effects of asynchronous events on cerebral blood flow velocities, examined with transcranial Doppler technique. In the present pilot study, the investigators would like to compare NAVA and PSV ventilation influence on cranial blood flow, evaluated with Trans-Cranial Color Doppler, in patients admitted to ICU for neurological injuries.
At the emergencies rooms, patients with head trauma meeting one of the NICE criteria, which include antiplatelet inhibitors treatment, are considered as patients with a risk of cerebral haemorrage and are taken systematically for a CT-scanner. However, there are more and more antiplatelet inhibitor's patient with minor head injury traumas seen at the emergencies room and the efficiency of this NICE criteria is controversial on litterature. This study aims to determine that the absence of no other NICE criteria than antiplatelet inhibitors is a sufficient condition to eliminate a cerebral haemorrhage for patients with head injury traumas, and conversely, that antiplatelet inhibitors treatment would not be by itself an indication for a CT-scanner.
The main aim of this intervention study is to test the hypothesis if helmet initiative program will significantly increase helmet usage in primary school students. The secondary aim of this intervention is to evaluate the behavioral change in standard child safety helmet usage among the parent/adult riders. The study was conducted in 23 primary school in Selangor from 1st January 2016 to 31st December 2018 in three different phases.
The purpose of this research study is to test whether a portable goggle system (I-PAS) is good at diagnosing mild traumatic brain injury (mTBI) in a community setting. The goal is to determine whether the IPAS goggle system can be used reliably in an urgent care or emergency department setting.
This study evaluates the effect of a physical exercise + caregiver skills training on feelings of burden, mood, and biological markers of inflammation in persons who provide care for Veterans with a TBI or dementia. Half of the caregivers will participate in a balance and flexibility + caregiver skills training program, while the other half will participate in a moderate/high intensity aerobic and resistance + caregiver skills training program.
In pediatric age groups communication difficulties very sometimes may present further obstacles in obtaining a detailed injury history and early identification of TBI symptoms. Most emergency management protocols are focused exclusively on the identification of the relatively small number of patients who may require operative intervention, as early surgery is believed to improve outcome.
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.
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 purpose of this study is to evaluate Near-Infrared Spectroscopy for intracranial hematoma detection of head trauma patients