View clinical trials related to Brain Stem Infarctions.
Filter by:The goal of this clinical trial is to demonstrate communication through a brain implant in people in locked-in state, i.e. people with severe paralysis and communication problems. The main questions it aims to answer are efficient and stable control of Brain-Computer interface (BCI) functions for communication with attempted hand movements and operation of a keyword-based speech BCI. Participants will be implanted with four electrode grids, with in total 128 electrodes, on the surface of the brain and a connector on the skull. Participation includes visits of researchers for recording and training at home, 2-3 times per week for one year. Extension of participation after one year is possible. If successful, the participant will be able to use the BCI at home independently, without the presence of a researcher.
Dysphagia is an important complication in patients with medullary infarction, the incidence rate is 57%-69%. Compared with other brain infarctions, the medulla oblongata involves multiple swallowing-related nerve nuclei, and the possibility of brain remodeling after injury is small. Dysphagia has become a prominent clinical problem in patients with medullary infarction, which can lead to malnutrition, decrease the quality of life of patients and affect the prognosis of the disease. Solving this clinical problem is particularly important for patients with medullary infarction. The incidence of UES opening disorder in patients with medullary infarction is as high as 80%, and the clinical problem of UES opening disorder is enthusiastically studied at home and abroad. At present, the intervention measures include balloon dilatation, surgical incision and botulinum toxin injection. Balloon dilatation is easy to cause mucosal edema and damage, and cricopharyngeal myotomy often has complications such as local infection, massive hemorrhage and local nerve injury. There is no significant difference between the success rate of UES botulinum toxin injection and surgical incision. Among the above measures, UES botulinum toxin injection has a good clinical application prospect, but the drug dosage and injection method are still not unified in clinic. In particular, how to accurately locate has become a hot topic in current research. On this basis, this study uses ultrasound combined with balloon localization to inject UES botulinum toxin and make clinical observation.
The goal of this study is to improve our understanding of speech production, and to translate this into medical devices called intracortical brain-computer interfaces (iBCIs) that will enable people who have lost the ability to speak fluently to communicate via a computer just by trying to speak.
The purpose of this study is to obtain preliminary device safety information and demonstrate proof of principle (feasibility) of the ability of people with tetraplegia to control a computer cursor and other assistive devices with their thoughts.
Sturge weber's syndrome is an oculcutaneous syndrome, ocular manifestations may include heamangioma in the eye lids, choroidal heamangioma, or glaucoma, the glaucoma may present at infancy and may be due to resistance to aqueous outflow through trabecular meshwork(1), it may develop later and this is due to episcleral venous raised pressure.(2-3) Glaucoma associated with Sturge weber syndrome is difficult to be treated medically with high risk of complications when treated with bleb -based surgeries. Suprachoroidal hemorrhage or detachment is a challenging complication which must be encountered. The usage of Ahmed valve in the management of glaucoma associated with Sturge weber syndrome is a bleb based procedure carries the risks of over filtration or encapsulation and decreased filtration with failure to control glaucoma. The use of Ahmed valve in the management of pediatric glaucoma associated with Sturge weber syndrome has better results as recorded by Nassiri et al. Ahmed valve implantation can have some drawbacks such as pupillary irregularity, lens opacification, or encapsulation.(4-7) Glaucoma drainage devices such as Ahmed valve, Molteno or Braeveldt valve can be used when other methods of treatment fail, they provide alternative pathway to the aqueous to be collected in a plate positioned under the conjunctiva, (8-10) Encapsulation is a major problem occurs around the end plate due to fibrous reaction and so the drainage of the aqueous is decreased , Epatein (11) attributed that to fibro vascular proliferation in the episcleral tissue .the fibrous reaction is multifactorial , it may be due to the size of the end plate, the biomaterial, design or the shape of the plate. The use of drainage devices with advanced drug delivery system can improve the success of drainage device. A double-layered porous coating for Ahmed glaucoma valves based on biodegradable poly(lactic-co-glycolic acid) (PLGA) was described by Ponnusamy et al. [12] to produce continuous release of antifibrotic agents [mitomycin C (MMC) and/or 5-fluorouracil (5-FU)] to the subconjunctival space. This release continue for about one month with decreasing fibrosis, the nanofiltration membrane could entrap the proteins passing out from the anterior chamber leading to minimal increase in aqueous resistance.(12-13)
Individuals with Sturge-Weber Syndrome (SWS) sometimes have brain involvement which can result in seizures, stroke-like episodes and neurologic deficits. The purpose of this study is to integrate longitudinal clinical data, radiological data, and blood biomarkers of Sturge-Weber syndrome patients. The research aims are: 1. To integrate longitudinal clinical data, radiological data, and blood biomarkers of Sturge-Weber syndrome patients. 2. Identify plasma and imaging biomarkers sensitive to exacerbation of clinical symptoms including seizures, headaches, or stroke-like episodes. 3. For enrolled patients who present with severe neurological symptoms screen blood samples for inflammatory changes. The target enrollment for this study is about 250 individuals diagnosed with Sturge-Weber Syndrome. The goal of this study is to understand more about Sturge-Weber Syndrome, the possible treatments for this disease, and identify targets for clinical trials. Those participating in the database will be asked to consent to blood draws.
In this project the accuracy of a novel, rapid magnetic resonance imaging (MRI) approach to detect brain abnormalities in patients with Sturge-Weber syndrome (SWS) will be tested; this new imaging approach, that can create multiple types of MR images in about 5 minutes, without contrast administration (and sedation even in young children), can be also readily applied in other pediatric brain disorders in the future. The investigators will also study how advanced MRI, including susceptibility-weighted and diffusion tensor imaging can detect detailed signs of brain vascular and neuronal reorganization that helps improve neurological and cognitive outcome of children and young adults with SWS, who could benefit from targeted interventions in the future to minimize neurocognitive deficits in affected patients. All enrolled subjects will undergo advanced brain MRI and neurocognitive evaluation to achieve these goals.
This project adds to non-invasive BCIs for communication for adults with severe speech and physical impairments due to neurodegenerative diseases. Researchers will optimize & adapt BCI signal acquisition, signal processing, natural language processing, & clinical implementation. BCI-FIT relies on active inference and transfer learning to customize a completely adaptive intent estimation classifier to each user's multi-modality signals simultaneously. 3 specific aims are: 1. develop & evaluate methods for on-line & robust adaptation of multi-modal signal models to infer user intent; 2. develop & evaluate methods for efficient user intent inference through active querying, and 3. integrate partner & environment-supported language interaction & letter/word supplementation as input modality. The same 4 dependent variables are measured in each SA: typing speed, typing accuracy, information transfer rate (ITR), & user experience (UX) feedback. Four alternating-treatments single case experimental research designs will test hypotheses about optimizing user performance and technology performance for each aim.Tasks include copy-spelling with BCI-FIT to explore the effects of multi-modal access method configurations (SA1.3a), adaptive signal modeling (SA1.3b), & active querying (SA2.2), and story retell to examine the effects of language model enhancements. Five people with SSPI will be recruited for each study. Control participants will be recruited for experiments in SA2.2 and SA3.4. Study hypotheses are: (SA1.3a) A customized BCI-FIT configuration based on multi-modal input will improve typing accuracy on a copy-spelling task compared to the standard P300 matrix speller. (SA1.3b) Adaptive signal modeling will allow people with SSPI to typing accurately during a copy-spelling task with BCI-FIT without training a new model before each use. (SA2.2) Either of two methods of adaptive querying will improve BCI-FIT typing accuracy for users with mediocre AUC scores. (SA3.4) Language model enhancements, including a combination of partner and environmental input and word completion during typing, will improve typing performance with BCI-FIT, as measured by ITR during a story-retell task. Optimized recommendations for a multi-modal BCI for each end user will be established, based on an innovative combination of clinical expertise, user feedback, customized multi-modal sensor fusion, and reinforcement learning.
The aim of the study is to investigate the effect of anodal transcranial direct current stimulation applied over the pharyngeal motor area in 60 dysphagic patients with acute isolated brainstem stroke. Thirty patients will undergo stimulation on the pharyngeal area contralateral to the side of brainstem lesion, and 30 patients will receive sham stimulation over the contralateral area, for 4 consecutive days. Patients will be re-evaluated after 4 consecutive days of stimulation. Primary outcome: The Penetration/Aspiration Scale after 4 consecutive days of stimulation. Secondary outcomes: changes in electromyographic parameters and pharyngeal cortical motor evoked potentials, changes in the Dysphagia Severity Rating Scale (DSRS), in the Functional Oral Intake Scale (FOIS), and in the "Dysphagia Limit Test", after 4 consecutive days of stimulation.
The CortiCom system consists of 510(k)-cleared components: platinum PMT subdural cortical electrode grids, a Blackrock Microsystems patient pedestal, and an external NeuroPort Neural Signal Processor. Up to two grids will be implanted in the brain, for a total channel count of up to 128 channels, for six months. In each participant, the grid(s) will be implanted over areas of cortex that encode speech and upper extremity movement.