View clinical trials related to Aphasia.
Filter by:Speech-language therapy is generally found to be helpful in the rehabilitation of aphasia. However, not all patients with aphasia have access to adequate treatment to maximize their recovery. The goal of this project is to compare the efficacy of telerehabilitation or Aphasia Remote Therapy (ART) to the more traditional In-Clinic Therapy (I-CT).
The investigators aim to learn more about symptoms suggestive of a neurodegenerative process.
The current planned study is a prospective randomized double-blind, sham-controlled, two parallel-groups, polycentric, phase-I superiority type of trial. Right-handed native Arabic-speaking patients with chronic aphasia post-stroke will be recruited from multiple in and outpatient rehabilitation centers in Saudi Arabia. All participants with aphasia that exceeds at least six months post onset with deficits in naming skills due to ischemic lesion or haemorrhage in the left cerebral hemisphere will be included. All participants will complete three consecutive phases: (i) baseline assessment, (ii) interventions (Speech and Language Therapy (SLT) with real tDCS or sham tDCS, and (iii) outcome testing (GACAT test). The primary hypothesis predicts improvement in naming ability (object naming and action verb naming) and word fluency by combining SLT with anodal-tDCS (intervention group) compared to SLT combined with sham-tDCS (control group). Primary endpoint will be a 6-month follow-up, at which will be expected to show the effects of improvement in the language impairments. The secondary hypothesis predicts that anodal-tDCS will yield beneficial results in secondary outcomes measures compared to sham-tDCS. Secondary endpoint will be immediately post-treatment and a 12-month follow-up, and it will examine the consistency effect of long-term outcomes.
The aim of the study is to observe the effects of speech therapy and transcranial magnetic stimulation therapy in patients who develop anomic aphasia after stroke. Patients meeting the inclusion criteria will be randomly divided into groups. In the repetitive transcranial magnetic stimulation (rTMS) treatment group, a total of 10 sessions, 1 session per day, will be applied to the right inferior frontal gyrus area with a frequency of 1 Hz for 20 minutes. The control group patients will be given speech therapy in the same way, but no active magnetic stimulation will be given in rTMS sessions (sham application). Speech therapy will be given to each patient by the same physiotherapist, and the treatment will last a total of 10 days, 60 minutes a day. Minimental test (MMT), Ege aphasia test, aphasia quality of life scale (SAQOL-39) will be filled in to the patients before and after the treatment.
Spaced Repetition training has been found to be more effective than massed repetition for individuals with aphasia. This study seeks to examine the relative efficiency of three kinds of spacing for picture-naming training: traditional random presentation, non-adaptive spaced repetition, and adaptive spaced repetition.
This study will look at the way activity within the brain changes over time while a person is trying to think about certain everyday concepts. To measure brain activity accurately, we will be using electrodes placed on people's brains during awake brain surgery.
The lives of more than 2 million Americans are affected by aphasia, an acquired language impairment most commonly resulting from stroke that affects the ability to remember and express words. The well-being of these individuals is affected not just by the loss of words that is aphasia, but also the loss of friendships and opportunities for community engagement in which the loss of words can result. This study evaluates an animal-assisted treatment, The Persons with Aphasia Training Dogs (PATD) Program, designed to target the psychosocial consequences of aphasia by training participants in positive reinforcement dog training techniques that harness new skill learning and the advantages of interaction with family- or shelter-dwelling dogs to increase confidence and social engagement to support participants in living well with aphasia.
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).
Every year, approximately 100,000 people are diagnosed with aphasia-a language disorder leading to substantial difficulties in their daily communication. Based on the observation that many people with aphasia can sing words that they otherwise cannot speak, melodic intonation therapy (MIT) was developed in the 1970s. Although recognized as a standard aphasia treatment, the neural mechanisms of MIT have been largely unexplored. Our first goal is to identify the active ingredient of the music intervention. Although rhythm has long been considered secondary to melody, recent evidence has challenged this notion by demonstrating that rhythm alone is sufficient enough to facilitate improvements in speech fluency for people with aphasia. To corroborate the positive role of rhythm, we will train aphasic patients to leverage "rhythmic groove" for sets of sentences/phrases delivered through a fun and engaging video gaming platform. This intervention emerges from the theoretical framework, built from neuroimaging data, that language processes heavily rely on neural resources within the sensorimotor and fronto-striatal circuits that subserve rhythm/timing processes. Our second goal is to characterize the neural plasticity associated with language recovery promoted by the novel rhythm-based therapy. We hypothesize that neuroplasticity will manifest itself as increased white matter tracts, presumably due to changes in myelination in either ipsilateral or contralateral (homologues) language areas. To effectively measure myelin white matter fraction (MWF) in candidate tracts, we will mainly use a patented Laplace-transformed relaxation MRI technique. Additionally, we will measure resting-state functional connectivity using BOLD (Blood Oxygen-Level Dependent) fMRI. Lastly, we will attempt to record cortical activity using fNIRS (functional Near-Infrared Spectroscopy) during the pre-post behavioral assessments. Taken together, the proposed interdisciplinary research has theoretical, methodological, and clinical innovations and significance. This exploratory work will serve as a critical stepping stone toward unraveling the therapeutic component of music in neurological disorders and will provide evidence-based guidance to the clinicians and therapists.
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.