View clinical trials related to Brain Injuries.
Filter by: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.
The proposed clinical investigation plan is a pivotal controlled study with two parallel groups, has a total duration of 12 months and involves the recruitment of 34 pediatric patients suffering from acquired brain injury. The primary objective of the clinical study is to evaluate the improvement of joint stiffness through the use of sensorized pseudoelastic orthoses for the rehabilitation of pediatric patients with acquired brain injury. The effectiveness of the treatment in terms of joint stiffness (primary outcome) will be assessed and the effect of the treatment will be quantified with clinical evaluation scales and instrumental measurements by means of an optoelectronic system and isokinetic machine. The tolerability and acceptability of the device will also be checked.
Oropharynx is the main source of pathogen microorganisms for the ventilator - associated pneumoniae. As known bacteriophages can eliminate different pathogen microorganisms or reduce a degree of a pathogen's colonization. The research team is considering that oropharyngeal decontamination with bacteriophages can prevent the developing of the ventilator - associated pneumoniae. There will be three groups in this investigation: placebo, antiseptic drug (Octenisept) and bacteriophage (Sexthaphag).
The investigators are suggesting that closed suction systems may reduce the risk of the ventilator - associated pneumoniae (VAP) and the contamination of the closest unanimated surfaces. In 2011 David et al. have shown that closed suction systems might reduce the incidence of the late VAP. Research team is thinking that preventive bundle with closed suction systems can prevent to onset of the VAP. All enrolled patients is randomizing into two groups: control group - conventional suctioning and research group - suctioning with closed suction system.
The purpose of this study was to identify the relationship between coagulopathy during the perioperative period (before the operation and on the first day after the operation) and the long-term survival of traumatic brain injury patients undergoing surgery, as well as to explore the predisposing risk factors that may cause perioperative coagulopathy.
Iatrogenic withdrawal symptomes has been associated with prolonged mechanical ventilation and the and the derived symptoms such as fever and agitation has been shown to cause significantly prolonged ICU and hospital length of stay. The incidence of IWS in the adult general ICU ranges from 16,7-55%. To this date, the incidence of IWS has not been studied in patients with TBI.
This study aimed to investigate the efficacy and safety of extracorporeal shockwave therapy (ESWT) for upper extremity pain related to spasticity in patients with spinal cord injury.
Background: Severe traumatic brain injury (TBI) is a principal cause of post-injury hospitalization, disability, and death throughout the world. TBI is the leading cause of death and disability among young healthy people under 45 years of age and is predicted to be the most prevalent and costliest neurological condition in Canada through the year 2031. TBI is commonly classified into mild, moderate, and severe categories using the Glasgow Coma Scale (GCS), with "severe TBI" defined as a GCS score ≤ 8. Severe TBI is a clinical emergency, during which the trauma team works swiftly to provide the appropriate care. Outcome assessment after TBI is complex and is influenced by pre-injury and injury factors as well as the patient's response at various stages of recovery. The first 48 hrs in hospital, despite being the most resource-intensive period, unfortunately result in the highest mortality. These patients are on life support at the time of their hospital admission and adequate and reliable clinical examination is impossible. Thus, patients receive treatment despite lack of a clear understanding of their prognoses. Hypothesis: Admission Computed Tomographic Perfusion (CTP) can diagnose brain death reliably in severe TBI patients in early stage upon hospital admission, which is not recognised in the usual clinical practice due to inadequate reliable clinical examination. In a small prospective pilot study of 19 patients with severe TBI, admission CTP could predict early in hospital mortality with 75% sensitivity, 100% specificity, 100% positive predictive value (PPV) and 94% negative predictive value (NPV) and perfect inter-rater reliability (kappa=1). We propose ACT-TBI study to evaluate CTP as a triage tool to diagnose early mortality at the time of admission in patients with severe TBI. Primary Objective: To validate admission CTP features of brain death, relative to the clinical examination outcome, for characterizing early in-hospital mortality. Secondary objectives: To establish the safety and interrater reliability of admission CTP.
Robots are commonly used in many settings to help with transportation needs, reduce human injuries, and assisting clinicians during surgeries. These applications could provide direct benefits to patients in the clinical rehabilitation field. In this study, the feasibility of 2 CARE robot prototypes in facilitating dependent transfers and assisting patient mobility in their daily living activities will be studied.
Each year, approx. 100 patients with severe brain injury is admitted to the Clinic for Neurorehabilitation/TBI Unit, Rigshospitalet. Severe brain injury results in local oxygen deficiency and acid formation in the brain, which together destroys brain cells. The purpose of this study is to investigate whether it is possible to carry out a ketogenic diet therapy for patients with severe brain injury for six weeks. Ketosis has been shown to be neuroprotective during and after severe brain injury.