Multiomic Analysis of Traumatic Brain Injury and Hypertension Intracranial Hemorrhage Lesion Tissue...
Brain Injury Traumatic SevereIntracranial Hemorrhage1 moreThe goal of this experimental observation study is to figure out differently expressed biomarkers in lesion tissues in traumatic brain injury or hypertension intracranial hemorrhage patients. The main questions it aims to answer is: Which RNA, protein and metabolites are differently expressed in lesion tissues? What molecular mechanism is participated in TBI or ICH? Participants will be treated by emergency operation, and their lesion tissues will be collected during the operation.
Assignment of the Verbal Component Score and Addition of Pupil Reaction to the Glasgow Coma Scale...
Brain InjuriesTraumaticIn this study, it is aimed to determine the prognostic value of GCS-P and the GCS-P score, which is formed by assigning a verbal score, in patients with traumatic brain injury, where all parameters can be evaluated. In the model to be created, a new total score will be obtained with Motor score + Eye Response + assigned verbal Score-Pupil score and this score will be compared with GCS and GCS-Pupil score.
A Study to Test the SENSE Device in Military-Age Patients With Traumatic Brain Injury
Traumatic Brain InjuryThe study population will consist of 3 mutually-exclusive sets of patients and subjects: TBI patients with intracranial bleeding TBI patients without intracranial bleeding Control subjects with normal brain health. Research subjects between the ages of 22 to 50 will be enrolled. All TBI patients must have a diagnostic head CT scan within 24 hours of the injury. TBI patients without intracranial bleeding based on the CT scan must have a Glasgow Coma Scale (GCS) score at enrollment of ≤ 14. Total maximum duration of active monitoring with the device in this study is 48 hours with a clinical follow-up at day 7 after enrollment.
Imaging of Injury Mechanism and Interaction of Intestinal Bacteria in Children With Mild Traumatic...
MTBI - Mild Traumatic Brain InjuryTraumatic brain injury (TBI) is the leading cause of disability in children and young adults. Children with moderate to severe TBI are typically at risk of poor functional outcome in terms of neurocognitive impairment and behavior problems. Neurocognitive impairments include deficits in attention and working memory, learning and memory, and executive functioning, whereas behavior problems include anxiety, depression and aggression. Neuroimaging techniques based on multi-modal magnetic resonance image (MRI) can detect the structural and functional brain abnormalities objectively and sensitively. Recent evidence indicates that even after mild TBI, children with risk factors for intracranial pathology are at risk of poor neurocognitive and behavioral outcome.Meanwhile, recently, the concept of "gut-brain axis" has been proposed and hint gut microbiota could shape the brain. Some studies have emphasized that human gut microbiota plays an important role in the pathogenesis and development of TBI. However, how the gut affects the brain in patients with TBI is unclear. Thus, combining analysis of neuroimaging and "gut-brain axis" will provide more information for finding the risk factors and imaging diagnostic markers of brain impairment in TBI. It will also helpful for explaining the underlying mechanisms of brain impairment in TBI, providing an objective basis for clinical diagnosis and prediction of the prognosis.
Exploring Accessible Beauty for Individuals With Upper Extremity Deficits
StrokeIschemic14 moreThe purpose of this study is to investigate the accessibility of beauty products for individuals with upper extremity disabilities. By examining various factors such as packaging design, product applicators, and ease of use, this research aims to identify barriers faced by individuals with upper extremity disabilities or visual deficits when using beauty products. The study seeks to provide insights and recommendations for improving the accessibility of beauty products, ultimately promoting inclusivity and enhancing the overall beauty experience for individuals with disabilities.
Mobility and Activity Patterns in Hospitalised Severe Brain Injury
Brain InjuriesThe purpose of this observational study is to quantify physical activity patterns in patients with severe acquired brain injury admitted for in-hospital rehabilitation.
Geri-TBI: A Prospective Multi-center Evaluation of Geriatric Patients With Traumatic Brain Injury...
Traumatic Brain InjuryThis multicenter prospective observational study is designed to prospectively record data on patients who are managed per institutional standard of care. The objectives of this study are to establish an aggregate database of information on baseline clinical and demographic characteristics, medication use, markers of frailty, injury characteristics, management strategies, and outcomes following TBI in geriatric patients, determine best practices for management of geriatric patients with TBI, and establish how markers of frailty correlate with outcome in geriatric patients with TBI.
Comparison of Narcotrend and Cerebral Function Analysing Monitor in Intensive Care to Monitor Seizures...
Traumatic Brain InjurySubarachnoid Hemorrhage7 moreA study in the use of the Narcotrend depth of anaesthesia monitor to record a) seizures, and b) monitor a level of sedation referred to as 'burst suppression', in sedated patients in the adult and paediatric intensive care. Studies have shown that patients in coma on the intensive care unit may have subclinical in addition to clinical seizures. Subclinical seizures are seizures that do not show any outward signs and may go undetected. The current gold standard of recording seizures in the intensive care unit is by non-invasive, continuous monitoring of the electrical activity of the brain by electroencephalography (cEEG) using cerebral function analysing monitor (CFAM). This is recorded with simultaneous video recording and is performed by Clinical Neurophysiology departments. There has been a steady increase in demand for this service over recent years. Additionally, CFAM / cEEG is labour intensive and expensive. If trends continue, the proportion of hospitals offering CFAM / cEEG will continue to rise, creating increased demand for specialist staff, of which there are a finite number. Depth of anaesthesia monitors are used by anaesthetists to assess the level of anaesthesia in sedated patients using specialised, automated EEG analysis and are now recommended by NICE (DG6) to tailor anaesthetic dose to individual patients. This study aims to investigate the utility of the Narcotrend depth of anaesthesia monitor to monitor for seizures and burst suppression on the adult and paediatric intensive care unit. These monitors are cheaper and more widely available with the scope to be used at every bed space requiring neuro observation on the intensive care unit. The study aims to recruit all patients who are referred for CFAM / cEEG monitoring at Nottingham University Hospitals (NUH) Trust over a 12 month period. These patients will undergo simultaneous recording using CFAM / cEEG and depth of anaesthesia monitoring.
Neuroplasticity After Proprioceptive Rehabiliation
StrokeHemiparesis1 moreSequences of muscle tendon vibrations allow to reproduce the sensory feedback during movement like locomotion and kinaesthesia. It is known that such a treatment promotes motor recovery after stroke assuming that it enhances neuroplasticity. The aim of the research is to study the activity in cerebrospinal circuitry to evaluate the neuroplastic changes during and after instrumented proprioceptive rehabilitation relying on sequences of muscle vibration in subacute stroke stages.
Estimating Brain Biomechanics Using MRI
Healthy VolunteerTraumatic Brain Injury3 moreObjective: In this study we will develop and apply imaging techniques to perform the first three-dimensional (3-D) measurements of brain biomechanics during mild head movement in healthy human subjects. Biomechanics is the application of mechanics, or the physical principles in action when force is applied to an object, to the anatomical structure and/or function of organisms. Such techniques will be invaluable for building computational models of brain biomechanics, understanding variability of brain biomechanics across individual characteristics, such as age and sex, and determining brain sub-structures at risk for damage when movement of the head is accelerated, such as during a traumatic event. Study Population: Measurements will be performed on 90 healthy men and women aged 18-65. Design: We will build upon the model pioneered by our collaborator, Dr. Philip Bayly. The model places a human subject in a magnetic resonance (MR) scanner with one of two head support units that allows a specific range of motion. Each head support is latched such that it can be released by the subject, and results in either a rotation of the head of approximately 30 degrees or a flexion-extension of the head of approximately 4 degrees. Although both supports are weighted so that the motion is repeatable if the subject is relaxed, the subject can easily counteract the weight. The resulting acceleration/deceleration is small (in the range of normal activities, such as turning one's head during swimming) and has been validated and used in other human investigations of brain biomechanics. The subject repeats the motion multiple times during the MR scan under their own volition and desired pace to measure motion of the head and brain. Outcome measures: This project is a pilot study evaluating the potential of extracting three-dimensional estimates of brain deformation, such as strain measurements, using MR imaging. A primary outcome of this project will be a fast MR acquisition sequence for measuring 3-D brain deformation. The sequence will be evaluated by applying the protocol to human subjects, followed by preliminary quantification of the reproducibility and stability of deformation measurements.