View clinical trials related to Brain Injuries.
Filter by:The goal of this or clinical trial is to explore efficacy of stellate ganglion block on dysphagia and activities of daily living in Traumatic Brain Injury Patients. The main question it aims to answer are: Can stellate ganglion block improve the dysphagia and activities of daily living in Traumatic Brain Injury Patients. Traumatic Brain Injury Patients will be divided into the the control group and observation group evenly. All the patients were provided with routine therapy, while the patients in the observation group were given stellate ganglion block. The swallowing function, and activities of daily living of the two groups of patients before and after treatment were evaluated.
This was a multicenter randomized controlled study of 98 severe Traumatic Brain Injury patients with tracheostomy. Patients enrolled were divided randomly into the observation group with Intermittent Oro-esophageal Tube Feeding (n=50) or the control group with Nasogastric tube feeding (n=48) for enteral nutrition support, respectively. Nutritional status, complications, decannulation of tracheostomy tubes and level of consciousness on day 1 and day 28 were recorded and compared.
Acute brain injury due to aneurysmal subarachnoid haemorrhage (SAH) or traumatic brain injury (TBI) is a condition with a high mortality, and surviving patients often have permanent disabilities. Multimodal neuromonitoring of intracranial pressure, brain tissue oxygen tension (PbtO2), and brain energy metabolism (measured with microdialysis (MD)) may help individualise the treatment of this patient group to protect the brain and potentially improve outcomes. However, there is still a significant lack of knowledge regarding the advantages and disadvantages of this type of monitoring. The present study consists of four substudies with the overall aim of examining which factors are most influential for regulating commonly measured intracerebral parameters such as oxygenation, glucose, and lactate. Additionally, the influence of these of parameters on functional outcome and mortality will be explored. The individual studies are detailed below:
Pragmatics of language refers to the set of abilities that allow one to use and interpret language according to context and, in general, to communicate effectively. Disorders in the pragmatics of language are prevalent in various clinical populations. They are a cause of social withdrawal and worse quality of life, both for patients directly affected and for their family members. Despite this, this type of disorder is rarely considered in neuropsychological assessment and rehabilitation. This study's objective is to characterize pragmatic deficits in various neurological populations, allowing for the most accurate diagnosis possible and leading to the planning of personalized and effective Rehabilitation Plans.
The purpose of this research is to understand and treat Traumatic Brain Injury (TBI) associated photophobia (light sensitivity) and its impact on visual function.
A prospective, multicenter, randomized controlled, open-label, blinded endpoint evaluation study.
Impaired respiratory function may occur after brain injury, and will progress to restricted respiratory dysfunction without early intervention. At present, there is a lack of effective treatment options for respiratory dysfunction. Repetitive Transcranial Magnetic Stimulation(rTMS) is a non-invasive, painless and non-invasive neuroregulatory technique. In healthy people, rTMS applied to the respiratory motor cortex induces a contralateral respiratory muscle response. However, whether rTMS can improve respiratory function in patients with brain injury remains unclear. gut microbiota can affect muscle function and mass, and animal experiments have shown that probiotics can increase skeletal muscle mass and grip strength in mice. On the other hand, studies have found that rTMS can improve the nutritional status of patients with vegetative state by regulating the structure of gut microbiota. However, it remains unclear whether rTMS can improve respiratory muscle function in patients with brain injury by regulating gut microbiota. Therefore, the investigators intend to apply rTMS to the respiratory motor cortex to observe whether rTMS can improve respiratory function and reduce the incidence of pneumonia in patients with brain injury, and to observe the role of gut microbiota in this process.
Purpose: to observe the possible benefits produced by conventional therapy through virtual reality with the Nintendo Switch to try to improve motivation and increase the degree of care satisfaction. The aim is to improve postural control in both seated and standing positions and to maintain and improve cognitive capacity. Material and methods: one group (experimental group) will receive a total of 8 one-hour sessions or 16 half-hour sessions, depending on their individual needs, for 8 weeks using the Nintendo Switch. The other group (control group) will continue to receive their conventional scheduled therapy. Measures: Abilhand, MEC-Lobo, FIST, Fugl-Meyer, Berg Balance Scale and CSQ-8.
Patients with acute severe brain injury are usually admitted to the Intensive Care Unit. A substantial proportion of these patients will have disorders of consciousness (DOC) after interruption of sedation. It is difficult to reliably predict neurological outcome in these patients. Dependent on the extent of permanently damaged brain areas, DOC in patients with acute severe brain injury may improve or persist, eventually evolving into a minimal conscious state (MCS) or unresponsive wakefulness syndrome (UWS). These conditions are accompanied by long term severe disability. In current practice, the decision to withdraw life-sustaining support is made by interpreting the results of repeated bedside neurological examination and conventional CT-brain imaging. Reliable identification of patients with a possible good outcome, in whom treatment should not be withdrawn, is difficult. In this prospective observational cohort study we aim to identify patients with a good neurological outcome.
The goal of this clinical trial is to test the safety of the drug Angiotensin (1-7) and learn whether it works well as a treatment in people who have suffered a moderate to severe traumatic brain injury (TBI). The main questions this trial aims to answer are: - Is Angiotensin (1-7) safe? - Does Angiotensin (1-7) improve mental functioning and reduce physical signs of brain damage in people who have suffered a moderate to severe TBI? Participants will: - Complete 21 days of study treatment consisting of a once-daily injection. - Provide blood samples. - Undergo two magnetic resonance imaging (MRI) scans of the brain. - Complete specific tasks and questionnaires that allow researchers to evaluate the participant's brain and psychological functioning. Researchers will compare three groups: two groups that receive different doses of Angiotensin (1-7) and one group that receives a look-alike treatment with no active drug. This will allow researchers to see if the drug has any negative effects and whether it improves mental functioning and physical signs of brain damage after a TBI.