View clinical trials related to Aphasia.
Filter by:This prospective cohort study hypothesizes that an analysis of parallel qualitative and quantitative data is necessary to examine the full experience of living with aphasia. It is also hypothesized that there are specific factors that act as barriers or facilitators to successfully living with aphasia. A unique aspect of the project is the use of the Assessment for Living with Aphasia (ALA), a new aphasia friendly measure based on the World Health Organization International Classification of Functioning, Disability and Health (WHO ICF). Each session will assess written and spoken language, functional communication, mobility, Activities of Daily Living (ADL) function, burden of stroke, quality of life, and depression.
The purpose of this study is to determine if non-invasive electrical brain stimulation can enhance the out of intensive language therapy in chronic aphasia
This is a behavioral speech therapy trial for individuals who have suffered a stroke on the left side of the brain and have difficulty speaking. The name of this disorder is called 'aphasia'. Individuals who participate in this study will receive 60 hours of therapy for free (2 hours/day, 5 days/week, 6 weeks).
Cognitive impairment after stroke is common and has a major effect on morbidity and quality of life. Acetylcholinesterase inhibitors have demonstrated benefit in vascular dementia, but efficacy in treating more circumscribed cognitive deficits following stroke, such as aphasia, has not been systematically investigated. This study evaluated the efficacy of Galantamine (Reminyl) in subjects with chronic, stable non-fluent aphasia secondary to stroke. Subjects enrolled in a double-blind placebo- controlled cross-over study that employed a comprehensive battery of language tests and measures of general cognitive and behavioral status that will be used to control for factors that may influence language functioning. The primary study outcome was a within-subject comparison of changes in language function and behavioral scores between placebo and active-treatment phases (12 weeks each). Our hypothesis was that by increasing acetylcholine levels, and facilitating activity of other neurotransmitters affecting attentional systems, Galantamine would produce gains in both language and behavioral scores in patients suffering chronic effects in cognitive systems due to injury following stroke.
The purpose of the study is to reveal if individuals who participate in aerobic activity demonstrate greater improvement in language abilities than patients who do not participate in aerobic activity.
The first objective is to asses influence of age on amyloid load measured by PET imaging using Pittsburgh B compound (PiB) radio-tracer, in Alzheimer's disease(AD). This will allow the determination of brains age-specific deterioration factors by comparing Early onset AD (EOAD), Late onset AD (LOAD)and atypical focal cortical AD (PCA and LPA). The amount of brain lesions in AD patients is estimated by: 1. measuring the rate of cortical brain atrophy, 2. FDG imaging of glucose metabolism reflecting neuronal activity, and 3. for patients who benefited from a lumbar puncture; Cortical-spinal fluid (CSF) amounts of amyloïd and tau proteins are measured.
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.
Progressive aphasia is characterized by a steady and progressive loss of language skills in the presence of relatively preserved memory, attention, and thinking. The aim of this study is to slow the progression of language decline in progressive aphasia via language therapy. The first goal of this study is to improve naming abilities of individuals with progressive aphasia. This will be accomplished by carrying out an intensive treatment program for anomia. The second goal is to evaluate whether this intense language treatment re-activates affected areas and/or connections within the language network, using functional Magnetic Resonance Imaging (to measure neural activity in specific brain regions) and Diffusion Tensor Imaging tractography (to measure the connectivity between specific brain regions). This is the first study on progressive aphasia addressing both treatment and imaging in the same patients.
The investigators have been offering computer assisted therapy of aphasia (CAT) as a complement to traditional treatments to aphasia patients of the "Service of Neurorehabilitation" for some years. The investigators have shown its efficacy in hospitalised patients with recently acquired aphasia. In addition to studies stressing the importance of treatment intensity, several studies suggest that pharmacological treatment can also improve recovery after a cerebral lesion. The underlying idea is that the administration of medication influencing the system of neurotransmitters can play a role in functional recovery. Studies have assessed mainly substances acting on the dopaminergic (amphetamine and bromocriptine) and GABAergic system (piracetam). The main objective of the present study concerns the evaluation of the effects of levodopa on recovery of anomia in patients with aphasia. In particular, the investigators use CAT to control intensity and quality of therapy and they will assess whether the administration of levodopa promotes recovery. In each patient, two periods of anomia therapy with CAT, each performed with a different word list, will be compared. In addition to speech therapy, each period will be associated with the administration of either levodopa and benserazide (Madopar ®), or placebo. Evaluations at baseline and after each treatment period will be performed with the material and denomination battery
We are doing this clinical trial in order to evaluate two different treatments for non-fluent aphasia: Melodic Intonation Therapy (MIT) and Speech Repetition Therapy (SRT). MIT uses a simple form of singing, while SRT uses intensive repetition of a set of words and phrases. We want to see which intensive form of treatment is more effective in leading to an improvement in speech output compared to a no-therapy control period, and whether either treatment can cause changes in brain activity during speaking and changes in brain structure. We will use a technique known as functional Magnetic Resonance Imaging (fMRI) to measure blood flow changes in the brain and structural MRI that assess brain anatomy and connections between brain regions. We will use fMRI to assess brain activity while a patient speaks, sings, and hums. We will assess changes in brain activity and in brain structure by comparing scans done prior to treatment to scans obtained after treatment and we will also examine changes between treatment groups. We will correlate changes in brain activity and brain structure with changes in language test scores.