View clinical trials related to Brain Injuries.
Filter by:The goal of this research project is to develop a tele-rehabilitation programme, which will constitute an original care pathway for brain damaged patients. It will aim to improve their impairments, activities and social participation. The programme will deliver a therapeutic education and self-education programme targeting the upper and lower limbs, and will assess the patients by means of a diary and self-evaluation questionnaires.
The investigational device used in this clinical investigation, the Nurochek PRO System (NCPRO), is a portable electroencephalogram (EEG) headset which delivers a visual stimulus and measures a VEP. The visual stimulus is delivered to the subjects' eyes via light-emitting diodes, and the EEG measures the user's visual-evoked potential. This headset communicates with an application on a computer, which processes the signals and transmits them to a secure cloud server for analysis and storage of the data. Nurochek PRO is a development of the previously FDA cleared Nurochek System. The primary objective of this clinical investigation was to evaluate the performance of the investigational device (NCPRO) against clinical diagnosis of detection of mild traumatic brain injury (mTBI). The primary endpoint outlined for this study was set at the collection of 100 valid investigational device readings from individuals with concussion and 500 valid investigational device readings from healthy individuals who have had a plausible mechanism of sustaining a concussion, but do not have one. Additionally, readings from healthy individuals are also to be acquired. The aim of this study was to collect data from 100 readings from individuals with concussion. The initial assumption was that sites would provide players pre-season and make players available for testing post-concussion. In practice, some sites provided player data only post-concussion event (such as medical clinics). Participants were acquired from sporting clubs, medical clinicals and schools.
Background: Cerebrovascular accident [CVA or commonly known as stroke] and traumatic brain injury (TBI) are common causes of morbidity, and motor impairments. Many stroke and TBI patients encounter severe functional impairments of their arm and/or hand. Recent studies have indicated that robotic training can improve upper limb function by enabling repetitive, adaptive, and intensive training. One type of robotic training is error enhancement during three-dimensional movements. The goal of this approach is to elicit better accuracy, stability, fluidity and range of motion during reaching. Previous research indicated the potential of robotic training with error enhancement as a viable clinical intervention for individuals facing motor deficits. Objectives: To evaluate the safety and efficacy of a new robotic system based on error enhancement and intended for rehabilitation of motor hand functions of post-stroke and TBI patients. Methods: A randomized, multi-center study with an open-label design. The study sample will consist of 96 participants who will be randomized into 2 separate groups. The intervention group consisting of 48 patients will receive training with the new robotic system, while the control group consisting of additional 48 patients will receive only standard practice treatments (with no exposure to the new robotic system). The outcomes of safety (adverse events and treatment tolerability), and efficacy (motor function, speed, tone, and spasticity) will be assessed and compared between the two groups. The assessment of the outcomes will be conducted at four different time points: (1) prior to the initiation of the four-week intervention, (2) after 2 weeks of intervention, (3) at the conclusion of the intervention, and (4) at a three-month follow-up session.
Severe trauma is one of the leading causes of morbidity, mortality, and disability worldwide. Currently, it is the primary cause of death among individuals under 45 years of age. This disease, considered a "silent pandemic," exhibits heterogeneous physiopathology and unequal geographic distribution in terms of the type of injuries. The prognosis of subjects who have suffered severe trauma is uncertain, especially in patients with traumatic brain injury. The epidemiology of severe trauma has undergone changes in recent years due to the global aging of society, resulting in different populations with older ages and more associated comorbidities. These factors are frequently linked to the use of chronic treatments such as antiplatelet agents or anticoagulants, which could worsen traumatic hemorrhage-the leading preventable cause of death following severe trauma. Despite efforts for primary prevention, such as road safety campaigns and occupational risk prevention, the annual incidence of severe trauma cases worldwide remains high. Enhancing the management of trauma patients would significantly influence the final clinical outcomes. Given the aforementioned, it is of vital importance to understand the local epidemiology of severe trauma for the development of clinical research. This constitutes an effective tool to investigate changes in clinical practices, improve prevention strategies, and determine the global burden of the disease. The hypothesis of the IcuTrauma Project is to create a territorial Registry of adults with severe trauma admitted to the ICU to understand the local epidemiology in Tarragona (Spain). This initiative would facilitate new lines of clinical research aimed at improving outcomes and the quality of care for trauma patients.
The purpose of this randomized controlled trial is to evaluate whether the InMotion intervention, delivered via telehealth (using a HIPAA-compliant video platform or phone), which uses evidence-based behavioral and motivational counseling to increase daily physical activity, is an effective treatment for Major Depressive Disorder (MDD) for people who are at least one year out from sustaining a traumatic brain injury (TBI). The first aim is to compare the efficacy of the InMotion intervention to the waitlist control (WLC) condition on measures of depression severity and associated conditions in under-active adults with TBI and MDD. For the second aim the investigators plan to identify possible moderators of exercise treatment effects. The third aim will examine possible mediators of treatment outcome. In addition, the weekly dose of exercise, the extent to which exercise generates positive affect, and engagement in enjoyable or meaningful aspects of life will be explored.
Acquired brain injury (ABI) is one of the biggest cause of death and disability in the world. Patients with ABI often have difficulties with swallow and breath. The study purpose is to evaluate if the Expiratory Flow Accelerator (EFA) technology has positive effects on the respiratory and swallowing function in patients with acquired brain injury (ABI). Researchers recruit patients at Centro Ettore Spalenza-Fondazione Don Carlo Gnocchi in Rovato, Italy. To partecipate, patients should satisfy certain eligibility criteria; they will not be enrolled if they satisfy exclusion criteria. If a patient can be recruited, researchers conduct the baseline assessment lasting 1 one week. After that, the patient will be randomized to the study or control group. If the patient is in the control group, he will receive a traditional rehabilitation treatment. Otherwise, the patient will receive an additional treatment with the EFA device. Researchers will assess again the patient (with the same procedures of baseline assessment) after 8 weeks of treatment. They want to see if the EFA device could help patients with ABI to improve their health conditions.
The aim of this study is to describe the quality of life of CT patients in our study, at least 6 months after the occurrence of the trauma. This assessment is related to the patient's degree of sequelae, using the GOSE scale.
Traumatic brain injury (TBI) is a condition that occurs when a mechanical blow to the head causes damage to the brain. The diagnosis of this pathology requires the evaluation of several dimensions, including clinical symptoms, physical signs, cognitive disorders, behavioral and sleep disturbances and state of consciousness. This multidimensional approach provides a comprehensive and accurate assessment of head injury and its severity. The Berlin Consensus of the International Conference on Concussion in Contact Risk Sports held in Berlin in 2016 (McCrory et al., 2017) emphasized that the management of a CTE must be multimodal and multidisciplinary. This expert consensus converged on a tool that is now the most widely used in protocols studying concussion in sports at risk of BTI. This tool, the SCAT 5 (Sports Concussion Assessment Tool), combines symptom assessment, cognitive examination, neurological examination (oculomotricity, balance) and immediate and delayed memory. However, it requires the intervention of a medical expert to assess the clinical signs of the concussed athlete. Hänninen et al (2021) showed that test-retest reproducibility was very good for the clinical symptomatology subscore, but poor or average for the subscores summarizing cognitive tests and balance assessment. Clinicians now need to be able to better assess the severity of damage following head injury, and to monitor the patient's progress. This will improve the management of concussed athletes right up to their eventual return to sporting activity. The ultimate aim of our project is to develop and optimize an easily exportable multimodal concussion assessment tool, based on the use of a virtual reality headset, which will enable us to objectively characterize the state and evolution of a subject after a TCE. This will enable the assessment of neuro-visual functions and compensations in the concussed patient, revealing a higher attentional cost characterized by instability of orthostatic control, higher blink frequency and larger pupil size. The multimodal tool will be built from the results of various tests: - Standardized oculomotor tasks(pro-saccades, anti-saccades, smooth pursuit, memory guided saccades, self paced saccades) - Orthostatic balance control to assess postural compensations and estimate attentional cost during oculomotor tasks. - Pupil dynamics using the Pupil Cycle Time (PCT) test. The aim of this exploratory study is to determine the repeatability of measurements provided by the SPORTiCARE virtual reality headset during different tasks.
Feasibility and safety of targeting neutral vs liberal fluid balance in traumatic brain injured patients: a phase II randomized controlled trial
The goal of this clinical trial is to evaluate the effects of Lifebloom One in people who have suffered a stroke or a traumatic brain injury. The main questions to be answered are: - Does Lifebloom One allow users to spend more time standing each day? - Does Lifebloom One allow users to improve their balance and gait? Participants will use Lifebloom One during 8 weeks. For each participant, gait and balance are compared either with and without Oxilio or before and after Lifebloom One intervention.