View clinical trials related to Aphasia.
Filter by:iReadMore will provide an app-based therapy for people with pure or central alexia. This study aims to test the clinical effectiveness of iReadMore for improving reading accuracy and speed in real world users of the therapy.
The main purpose of this study is to evaluate the use of the immersive 3D HMD VR technology in the language intervention with a home-based telerehabilitation approach for people with aphasia. The assessments will be conducted at the baseline (prior the intervention periods) and after each intervention period (i.e. after the VR-intervention period and the waitlist period).
A stratified, parallel-group, double-blind, randomized controlled trial of remotely delivered START treatment to individuals with severe-to-moderate stroke (with recruitment focused on individuals with low SES) will be conducted. Subjects and assessors will be blinded to the condition making the experiment double blind. Specifically, subjects will be told that we are exploring a new therapy that using different sounds to improve therapy. Parallel group design will ensure that subjects in the Control group are unaware that their "sounds" are softer than the START group. Trainers may become aware that a loud sound is present thus a unique Assessor will evaluate clinical performance before and after training making the study double-blind. Fifty-four subjects will undergo baseline testing in the laboratory to establish their capacity for functional and expressive speech as well as their self-reported health-related quality of life (power analysis below). Next, subjects will participate in a high-frequency, word-picture verification/ auditory-repetition treatment, 2 hr/day for 5 consecutive days focusing on expression of words of functional significance (e.g., water, fall). Subjects will either receive training with START or without (Control). Subjects will be re-tested immediately following training as well as one-month post to assess retention. Aim 1 will evaluate capacity of START to enhance SLT outcomes by assessing the % change in clinical assessment of functional and expressive speech. Our preliminary data points to a robust response [details]. Aim 2 will focus on the capacity of these changes to 1) be retained and 2) impact subject's reported quality of life. NOTE: While we are planning in-person baseline, end, and retention testing, in response to COVID, we have established remote clinical screening using peer-reviewed validated techniques for WAB and ABA-2 (see Alternative Solutions). All preliminary data collected for this proposal were collected remotely via no-contact protocols.
Stroke often causes substantial problems in speaking or understanding speech. Treatments for these problems are currently very limited. Limited studies to date suggest that repetitive Transcranial Magnetic Stimulation (TMS) to the side of the brain opposite to the side on which the stroke occurred may improve language function. The investigators are testing this hypothesis by giving daily 20 minute sessions of repeated TMS to the right (unaffected) side of the brain; the investigators test language function with a variety of tests both before and after the treatment with TMS and subjects are required to undergo functional MRI scans before and after treatment. TMS is a procedure in which a coil is placed next to the head of the subject and an electrical current passes through the coil causing a magnetic field that, in turn, causes a small electric current in the portion of the brain underneath the coil.
Aphasia is the most common type of post-stroke communication disorder characterized by deficits in speech comprehension, production and control. While recovery can be promoted with speech therapy, improvement remains modest and typically requires a large number of sessions contributing to rising health care costs. Traditional aphasia therapy focus on enhancing speech motor output; however, recent evidence suggests that the auditory feedback also plays a critical role in fluent speech. Therefore, a key step toward refining treatment strategies is to develop objective biomarkers that can probe the integrity of sensorimotor mechanisms of speech auditory feedback and identify their impaired function in patients with post-stroke aphasia. This study aims to examine the behavioral, neurophysiological (EEG), and neuroimaging (fMRI) biomarkers of speech impairment following stroke with focus on understanding the role of auditory feedback for speech production and control. We plan to test individuals with post-stroke aphasia and a matched neuroptypical control group during different speech production tasks under the altered auditory feedback paradigm. In addition, we aim to examine the effect of audio-visual feedback training on enhancing communication ability during speech. These biomarkers will be combined with existing lesion-symptom-mapping data in the aphasic group in order to identify the patterns of brain damage and diminished structural connectivity within the auditory-motor areas of the left hemisphere that predict impaired sensorimotor processing of speech in aphasia. The long-term goal of this research is to develop a model for identifying the source of sensorimotor deficit and improve diagnosis and targeted treatment of speech disorders in aphasia.
The purpose of this research is to better understand how dementia affects activity in different parts of the brain.
The purpose of this research is to better understand how dementia affects activity in different parts of the brain.
Aphasia is a disorder of language processing caused by a lesion in particular brain regions. Treatment aims at improving or restoring impaired function or at compensating for deficits. More recently, computer technology has been integrated into treatment options. In this study, a detailed and comprehensive computerized software program for aphasia rehabilitation is designed for the treatment of Arabic speaking Egyptian aphasic patients. Aim of the study: design a computerized software program for the rehabilitation of Arabic speaking Egyptian aphasic patients.
The aim of this study is to create a repository of both cross-sectional and longitudinal data, including cognitive, linguistic, imaging and biofluid biological specimens, for neurodegenerative disease research and treatment.
high frequency excitatory rTMS applied over the dominant hemisphere in chronic post stroke aphasic patients to help the restoration of function by the left hemisphere