Active clinical trials for "Aphasia"

This is a double-blind, sham-controlled, crossover study in which subjects with the non-fluent/agrammatic and semantic variants of primary progressive aphasia (naPPA and svPPA, respectively) will undergo language testing and structural and functional brain imaging before and after receiving 10 semi-consecutive daily sessions of real or sham transcranial direct current stimulation (tDCS) paired with modified constraint-induced language therapy (mCILT). Language testing and brain imaging will be repeated immediately after completion of and up-to 24 weeks following completion of treatment. The investigators will examine changes in language performance induced by tDCS + mCILT compared to sham tDCS + mCILT. The investigators will also use network science to analyze brain imaging (fMRI) data to identify network properties associated with baseline PPA severity and tDCS-induced changes in performance. This study will combine knowledge gained from our behavioral, imaging, and network data in order to determine the relative degrees to which these properties predict whether persons with PPA will respond to intervention.

The study aims to assess a individual or group therapy's effectiveness in grammatical time marking. The main objective is to examine whether the therapy improves grammatical time marking of inflected verbs treated on the sessions. We also explore whether the observed progress can be transferred to untrained items, more ecological contexts and if is maintained two and four weeks after the end of treatment. This therapy will be administered to nine individuals with brain lesions after stroke. Five individuals will take part of the individual therapy and four individuals will take part of the group therapy (two individuals per group). The therapy will last one month, at the rate of three weekly sessions of approximately one hour.

This study will assess the effects of transcranial alternating current stimulation (tACS) on language recovery after stroke as well as healthy language functions.

This is a double-blind, sham-controlled, crossover study in which subjects with the non-fluent/agrammatic and logopenic variants of primary progressive aphasia (naPPA and lvPPA, respectively) will undergo language testing and structural and functional brain imaging before and after receiving 10 semi-consecutive daily sessions of real or sham high-definition transcranial direct current stimulation (HD-tDCS) paired with modified constraint-induced language therapy (mCILT). Language testing and brain imaging will be repeated immediately after completion of and 3 months following completion of treatment. The 3-month follow-up will be the primary endpoint. The investigators will examine changes in language performance induced by HD-tDCS + mCILT compared to sham HD-tDCS + mCILT. The investigators will also use network science to analyze brain imaging (fMRI) data to identify network properties associated with baseline PPA severity and tDCS-induced changes in performance. This study will combine knowledge gained from our behavioral, imaging, and network data in order to determine the relative degrees to which these properties predict whether persons with PPA will respond to intervention.

Primary Progressive Aphasia (PPA) is an untreatable neurodegenerative disorder that disrupts language functions. Available therapies are mainly symptomatic and recently attention has been gained by new techniques that allow for noninvasive brain stimulation such as transcranial direct current stimulation (tDCS). The primary objective of this study is to evaluate whether the application of Active tDCS (anode over the left dorsolateral prefrontal cortex- DLPFC with the cathode over the right supraorbital region) to the scalp during individualized language training, would improve naming abilities in the agrammatic variant of PPA (avPPA) more than use of one methodology alone. The effect of treatment on the clinical symptoms will be related to changes in brain activity (Magnetic Resonance Imaging, MRI and Functional near-infrared spectroscopy fNIRS) and in biological markers, using a multimodal approach. Finally, we will assess the long-term effects of this approach.

This study will investigate the effects of mild electrical stimulation in conjunction with speech therapy for people with post-stroke aphasia to enhance language recovery.

The primary objective of this research is to evaluate the effects of non-invasive brain stimulation and computerized cognitive training on executive functioning in individuals with Primary Progressive Aphasia (PPA), mild cognitive impairment (MCI), or dementia. In this study, investigators will use transcranial direct current stimulation (tDCS) to stimulate the left dorsolateral prefrontal cortex (DLPFC). Previous studies have demonstrated that tDCS over the DLPFC led to improvements in attention deficit caused by stroke, Parkinson's Disease, and major depression as well as language deficits caused by neurodegenerative conditions such as primary progressive aphasia or mild cognitive impairment. The investigators seek to expand on this literature by investigating how anodal tDCS paired with and without cognitive training will impact executive functioning in PPA with Frontotemporal Dementia or Alzheimer's Disease pathology and Mild Cognitive Impairment/Alzheimer's Disease (e.g. shifting, updating, monitoring, and manipulation).

Aphasia is an impairment in the ability to express and/or understand language, commonly observed after stroke to the language dominant (left) hemisphere. Despite natural tendency to spontaneous functional recovery in the first months post stroke and language improvement due to application of behavioral speech and language therapy (SLT), many aphasic patients do not achieve satisfactory level of verbal communication. The aim of the planned study is to explore the potential of the noninvasive repetitive Transcranial Magnetic Stimulation (rTMS) as a therapeutic tool for aphasia in addition to traditional behavioral therapy. In case of aphasia, studies on therapeutic effectiveness of rTMS aim to increase the activity of the language-dominant left cerebral hemisphere, which may be achieved in an indirect manner by inhibiting the activity of the opposite (right) hemisphere or in a direct manner by increasing the excitability of preserved language areas in the left hemisphere. In our study, we plan to administer the newest form of rTMS called Theta Burst Stimulation (TBS), which is safer than the conventional rTMS, even when used in the perilesional area. Computer-based neuronavigation system will be implemented to precisely localize stimulation targets, control administration of stimuli during rTMS sessions, and evaluate differences between participants regarding deviations from established stimulation points. 45 patients (all right-handed, polish native speakers, aged 18-75 years, diagnosed with non-fluent aphasia) will be enrolled in a randomized, double-blind, sham-controlled trial. Subjects will be randomly assigned to one of the three groups: 1) a group with excitatory intermittent TBS of the left hemisphere (iTBS group), 2) a group with inhibitory continuous TBS of the right hemisphere (cTBS group), 3) a group with sham TBS (sTBS group as a control group). Specific forms of stimulation will be carried out for three consecutive weeks (Monday to Friday; a total of 15 stimulation sessions). Immediately after each session of the stimulation, patients will undergo individual SLT. Assessment of language functioning will be carried out three times: before and after the therapy period, and 3 months after its completion. Results of the study will broaden knowledge about hemispherical mechanisms of language and speech recovery after stroke and provide insight into possibilities of their modulation for the purpose of post-stroke rehabilitation.

Primary progressive aphasia (PPA) is a progressive neurological disorder that causes a gradual decline in communication ability as a result of selective neurodegeneration of speech and language networks in the brain. PPA is a devastating condition affecting adults as young as their 40's or 50's, depriving them of the ability to communicate and function in society. There has been significant progress in discovering the neurobiological mechanisms that underlie PPA and in identifying its clinical phenotypes. With these advances, we are poised to investigate behavioral treatments that are grounded in modern cognitive and neuroanatomical concepts. Research documenting the efficacy of speech-language treatment for PPA is emerging, but limited. Systematic research is needed to establish best clinical practices in this unique patient population for whom pharmacological treatment remains elusive. The long-term objectives of this project are to provide evidence-based treatment methods addressing the speech and language deficits in PPA and to determine the neural predictors of responsiveness to intervention. The study has three main goals that build on the findings of our previous work: 1) to examine the utility of treatments designed to facilitate significant, generalized and lasting improvement of speech-language function in PPA, 2) to determine whether treatment alters the trajectory of decline in PPA by comparing performance on primary outcome measures in treated versus untreated participants after a one-year interval, and 3) to identify imaging predictors (gray matter, white matter, and functional connectivity measures) of responsiveness to behavioral intervention in individuals with PPA. In order to accomplish these aims, we will enroll 60 individuals with PPA, who will undergo a comprehensive multidisciplinary evaluation and neuroimaging. Subsequently, participants will be enrolled in treatment designed to promote lasting and generalized improvement of communicative function in core speech-language domains. Participants will be followed for up to one-year post-treatment in order to determine long-term effects of rehabilitation, and their performance will be compared with a historical cohort of untreated PPA patients. This ambitious study and the necessary recruitment will be possible due to an ongoing collaboration with the UCSF Memory and Aging Center, a leading institution in the field of PPA research. The study will broaden the evidence base supporting the efficacy of speech-language intervention in PPA and will provide novel evidence regarding neural predictors of treatment outcomes, with the potential to inform clinical decision-making and improve clinical care for individuals with this debilitating disorder.

The present study aims to investigate the short- and long-term effects of two weeks of intensive speech-language pathology intervention with additional physiotherapy, on aphasia and apraxia of speech (AOS) and their neural correlates in thirty persons with chronic stroke. Changes are studied following intensive treatment of aphasia and AOS with standardised speech-language testing and testing of communication and with voxel-based morphometry (VBM) analysis and resting state functional connectivity (rsFC).