Active clinical trials for "Aphasia"

This project will investigate the use of noninvasive brain stimulation in the form of tDCS (transcranial direct current stimulation) in conjunction with speech-language therapy, for the improvement of language production in stroke survivors with aphasia. The hypothesis is that anodal tDCS and speech-language therapy will facilitate improved outcomes compared to speech therapy alone.

The purpose of this study is to evaluate how changing different conditions of the speech-language treatment (such as cues, feedback, complexity and practice schedule) affects the language outcome of study subjects with aphasia (i.e., difficulty with the comprehension and expression of spoken and written language) following a stroke.

As aphasia is one of the most common and disabling disorders following stroke, in many cases resolving in long-term deficits, it is now thought that intensive aphasia therapy is effective, even in the chronic phase following stroke. However, as intensive aphasia rehabilitation is difficult to achieve in clinical practice, tablet-based aphasia therapies are explored to further facilitate language recovery. Although there is mounting evidence that computer-based treatments are effective, it is also important to assess the feasibility, usability and acceptability of these technologies, especially in the acute phase post stroke. The investigators assume that tablet-based aphasia therapy is a feasible treatment option for patients with aphasia in the acute phase following stroke. The researchers also believe that the specific app that will be used in therapy is user-friendly and that it will be well accepted by this specific patient population.

This study will investigate the use of repetitive transcranial magnetic stimulation (rTMS), a non-invasive brain stimulation method, to improve word-finding abilities in Veterans and non-Veterans with chronic language problems following stroke (aphasia). Improving word-finding is important because word-finding difficulties are among the most common and debilitating consequences of aphasia. Although rTMS has shown promise as a treatment approach, not all individuals with aphasia show the same level of benefit. Specifically, this study will use functional magnetic resonance imaging (fMRI) to examine whether the likelihood of improved word-finding abilities following rTMS depends on pre-intervention language-related brain activity and will examine changes in brain activity in response to stimulation. A better understanding of how and for whom rTMS works will 1) help to identify the best candidates for rTMS treatment, 2) optimize rTMS treatment protocols to improve patient outcomes, and 3) improve the investigators' understanding of how the brain re-organizes language functions following stroke.

The aim of this study is to investigate the effects of high-frequency short duration tablet-based speech and language therapy (teleSLT) mixed with cognitive training (teleCT) in chronic stroke patients. Recent studies suggest that chronic stroke patients benefit from SLT with high frequency and that cognitive abilities can play a role in sentence comprehension and production by individuals with aphasia. To investigate the effects of the distribution of training time for teleSLT and teleCT the investigators use two combinations. In the experimental group 80% of the training time will be devoted to teleSLT and 20% to teleCT whereas in the control group 20% of the training time will be devoted to teleSLT and 80% to teleCT. Both groups receive the same total amount and frequency of intervention but with different distributions. At three time points (pre-, post-test and 8 week follow-up) the patients' word finding ability is measured.

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

Many stroke survivors experience aphasia, a loss or impairment of language affecting the production or understanding of speech. One common type of aphasia is known as non-fluent aphasia. Patients with non-fluent aphasia have difficulty formulating grammatical sentences, often producing short word fragments despite having a good understanding of what others are trying to communicate to them. Speech language pathologists (SLPs) play a central role rehabilitating persons with aphasia and administer therapy in an attempt to improve communication skills. Despite standard therapy, approximately 50% of individuals who experience aphasia acutely continue to have language deficits more than 6 months post-stroke. In most people, Broca's area is dominant in the left side of the brain. Following a left-sided stroke, the right-sided homologue of Broca's area (the pars triangularis), may adopt language function. Unfortunately, reorganizing language to the right side of the brain seems to be less effective than restoring function to the left hemisphere. Repetitive transcranial magnetic stimulation (rTMS), a form of non-invasive brain stimulation, can be used to suppress activity of specific regions in the right side of the brain to promote recovery of function in the perilesional area. Despite preliminary success in existing studies using rTMS in post-stroke aphasia, there is much work to be done to better understand the mechanisms underlying recovery. Responses to rTMS have been positive, yet heterogenous, which may be related to timing of treatments following stroke.

Many stroke survivors experience aphasia, a loss or impairment of language affecting the production or understanding of speech. One common type of aphasia is known as non-fluent aphasia. Patients with non-fluent aphasia have difficulty formulating grammatical sentences, often producing short word fragments despite having a good understanding of what others are trying to communicate to them. Speech language pathologists (SLPs) play a central role rehabilitating persons with aphasia and administer therapy in an attempt to improve communication skills. Despite standard therapy, approximately 50% of individuals who experience aphasia acutely continue to have language deficits more than 6 months post-stroke. In most people, Broca's area is dominant in the left side of the brain. Following a left-sided stroke, the right-sided homologue of Broca's area (the pars triangularis), may adopt language function. Unfortunately, reorganizing language to the right side of the brain seems to be less effective than restoring function to the left hemisphere. Repetitive transcranial magnetic stimulation (rTMS), a form of non-invasive brain stimulation, can be used to suppress activity of specific regions in the right side of the brain to promote recovery of function in the perilesional area. Despite preliminary success in existing studies using rTMS in post-stroke aphasia, there is much work to be done to better understand the mechanisms underlying recovery. Responses to rTMS have been positive, yet heterogenous, which may be related to timing of treatments following stroke.

This study was designed to examine the effects of speech therapy on ability to produce speech sounds in persons with acquired apraxia of speech.

The primary objective of the study is to obtain preliminary safety and tolerability data with davunetide (NAP, AL-108) in patients with a tauopathy (frontotemporal lobar degeneration [FTLD] with predicted tau pathology, corticobasal degeneration syndrome [CBS] or progressive supranuclear palsy [PSP]). The secondary objectives of this study are to obtain preliminary data on short term changes (at 12 weeks) in a variety of clinical, functional and biomarker measurements from baseline, including cerebrospinal fluid (CSF) tau levels, eye movements, and brain MRI measurements.