View clinical trials related to Aphasia.
Filter by:The primary goal of this pilot project is to adapt an evidence-informed on-line psychoeducation program (Tele-Savvy) to address the unique challenges facing informal caregivers of those living with PPA and geared toward achieving caregiver mastery in this population.
Of the 15,000 Veterans who are hospitalized for stroke each year more than half experience spatial and motor impairments and pain. Spatial-motor-sensory problems limit functioning and independence, which is costly to Veterans, their families, and society. Currently, spatial-motor-sensory problems are targeted using different treatments. However, there is a treatment that has shown promise in simultaneously targeting spatial function, motor function and pain in right-brain stroke. The investigators propose to investigate the feasibility of using adapted spatial-motor sensory assessment and treatment procedures for Veterans with left-brain stroke who have language and cognitive impairment. The next step will be to conduct a large-scale study focused on this multi-target treatment for more efficient and effective stroke rehabilitation. The investigators expect this line of research to increase functioning, independence and quality of life in Veteran stroke survivors.
The Aphasia Rapid Test (ART) is a bedside aphasia screening test developed originally in French. The purpose of this study is to assess the inter-rater reliability of the Turkish version of the ART in stroke patients.
The present parallel-group, single-center, blinded-assessment controlled trial seeks to explore the feasibility - in terms of high completion rates - and potential efficacy of intensive communicative-pragmatic social interaction for treatment of post stroke depression in subacute aphasia. Apart from evidence of treatment feasibility, the primary hypothesis predicts significantly greater progress on self-report and clinician-rated measures of depression severity after (i) intensive communicative-pragmatic social interaction combined with standard care, compared to (ii) standard care alone.
The use of non-invasive brain stimulation techniques like transcranial direct-current stimulation (tDCS) for rehabilitation of language is a growing field that needs further studies to determine how best it can be used to enhance treatment outcomes. It has been shown that tDCS can improve language performance in healthy and brain-injured individuals such as increased naming accuracy. However, at present, it is not known what effect tDCS has on higher-level language skills like discourse production (i.e. story telling, giving instructions) in healthy, older speakers. Therefore, the aim of this study is to investigate in healthy older adults, the effect of tDCS on discourse production as well as the ideal tDCS electrode placement for improving language at the discourse level. It is hypothesised that tDCS will result in greater language changes and improvements during discourse production compared to no stimulation.
Aphasia is a language impairment caused by brain injury such as stroke that affects the ability to understand and express language, read and write due to damage in the language regions of the brain. Non-invasive brain stimulation (NIBS) techniques like transcranial direct-current stimulation (tDCS) have been found to improve aphasia treatment effects in post stroke patient populations such as improved naming abilities. However, the effect of tDCS on more functional, higher level language skills such as discourse production (i.e. story telling, giving instructions) has yet to be understood.Therefore the aim of this study is to determine the potential effectiveness of tDCS as an adjunct to speech and language therapy (SLT) to improve discourse speech production in people with post-stroke aphasia. It is hypothesised that SLT combined with tDCS will result in greater improvements in discourse language production compared to SLT on its own.
Most of us take being able to communicate for granted. Anomia (word finding problems) after stroke can cause profound frustration and anxiety for patients and families. Some people recover; many don't. ~ 250,000 people in the UK have chronic speech and language problems post-stroke. This project will investigate how treatment for these people might be improved. The brain's speech areas can be stimulated using transcranial direct current stimulation (tDCS). The kit is simple; a battery powering electrodes placed on the scalp. Healthy people who had tDCS while naming pictures could find words quicker and their speech areas responded more efficiently. How it affects aphasic stroke patients' brain function is unknown.
Post-stroke aphasia (PSA), the partial or total loss of the ability to produce and/or understand language associated with stroke, is a highly prevalent and disabling disorder that negatively impacts the personal, social and working life of patients and families. Modern theory-based language therapies (LT) with proved efficacy in chronic PSA are brief (weeks), intensive, and oriented to specific domains (e.g., anomia). However, in order to maximize therapeutic benefits, it becomes essential to implement complementary strategies that boost gains in language, communication and behaviour and also to identify predictors of treatment response (demographics, anatomical) that enable to customize interventions adjusting them to each profile (linguistic deficits, brain structure and connectivity). Our group has repeatedly shown that LT combined with cognitive enhancing drugs (CED) (e.g., Donepezil and Memantine) are safe and promote better outcomes that when these interventions are administered separately. Moreover, non-invasive brain stimulation techniques (NIBS), such as transcranial direct current stimulation (tDCS), are also emerging as a promising treatment option for chronic PSA. However, is still unknown whether or not treatments that combine several biological strategies aid to improve outcomes further. Brain changes induced by these interventions and the premorbid characteristic of a "good responder" are also unknown. The aims of this clinical trial are: (1) Study the efficacy of combined treatments in a sample of patients with chronic PSA (n = 40); (2) Document with multimodal neuroimaging the functional and connectivity changes (neuroplasticity) promoted by these interventions; and (3) Identify linguistic, cognitive and behavioural variables that may predict outcomes for each intervention.
Rising life expectancy is leading to a rising incidence of strokes worldwide. Approximately one third of people who had a stroke live with a communication disorder, aphasia, which is associated with the largest negative relationship to quality of life. In chronic stages, people with aphasia (PwA) often do not receive any rehabilitation, despite treatment being shown to significantly reduce impairment. In contrast to existing computerized aphasia treatment, VoiceAdapt is an innovative and motivating application for PwA that provides adaptive and context-aware training lessons via speech interaction on the mobile device. A user-centred design process and motivational gamification ensure long-term engagement in training. Through providing an autonomously usable and low-cost tool, VoiceAdapt will positively affect PwA's self-esteem and social inclusion, leading to higher quality of life.
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.