Sarah Grace Hudspeth scite author profile

A distinguishing feature of Broca's aphasia is non-fluent halting speech typically involving one to three words per utterance. Yet, despite such profound impairments, some patients can mimic audio-visual speech stimuli enabling them to produce fluent speech in real time. We call this effect 'speech entrainment' and reveal its neural mechanism as well as explore its usefulness as a treatment for speech production in Broca's aphasia. In Experiment 1, 13 patients with Broca's aphasia were tested in three conditions: (i) speech entrainment with audio-visual feedback where they attempted to mimic a speaker whose mouth was seen on an iPod screen; (ii) speech entrainment with audio-only feedback where patients mimicked heard speech; and (iii) spontaneous speech where patients spoke freely about assigned topics. The patients produced a greater variety of words using audio-visual feedback compared with audio-only feedback and spontaneous speech. No difference was found between audio-only feedback and spontaneous speech. In Experiment 2, 10 of the 13 patients included in Experiment 1 and 20 control subjects underwent functional magnetic resonance imaging to determine the neural mechanism that supports speech entrainment. Group results with patients and controls revealed greater bilateral cortical activation for speech produced during speech entrainment compared with spontaneous speech at the junction of the anterior insula and Brodmann area 47, in Brodmann area 37, and unilaterally in the left middle temporal gyrus and the dorsal portion of Broca's area. Probabilistic white matter tracts constructed for these regions in the normal subjects revealed a structural network connected via the corpus callosum and ventral fibres through the extreme capsule. Unilateral areas were connected via the arcuate fasciculus. In Experiment 3, all patients included in Experiment 1 participated in a 6-week treatment phase using speech entrainment to improve speech production. Behavioural and functional magnetic resonance imaging data were collected before and after the treatment phase. Patients were able to produce a greater variety of words with and without speech entrainment at 1 and 6 weeks after training. Treatment-related decrease in cortical activation associated with speech entrainment was found in areas of the left posterior-inferior parietal lobe. We conclude that speech entrainment allows patients with Broca's aphasia to double their speech output compared with spontaneous speech. Neuroimaging results suggest that speech entrainment allows patients to produce fluent speech by providing an external gating mechanism that yokes a ventral language network that encodes conceptual aspects of speech. Preliminary results suggest that training with speech entrainment improves speech production in Broca's aphasia providing a potential therapeutic method for a disorder that has been shown to be particularly resistant to treatment.

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Transcranial Brain Stimulation to Treat Aphasia: A Clinical Perspective

Fridriksson

Hubbard

Hudspeth

2012

Semin Speech Lang

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Transcranial brain stimulation was first introduced and described during mid-1900s. Since that time, the literature on brain stimulation has expanded with spurious advances in techniques and applications, from its use as a purely investigative tool used to better understand brain mechanisms to its use as a clinical treatment for neurologic diseases. This article offers a brief overview of the development, history, and mechanisms of transcranial brain stimulation, as well as an in-depth discussion of transcranial magnetic stimulation and transcranial direct current stimulation; two methods currently being investigated as treatments for aphasia. Our aim is to provide speech-language pathologists with an overview of the current state of literature on transcranial brain stimulation, as initial findings show it may be a promising new tool for aphasia rehabilitation.

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Sham protocols for transcranial direct current stimulation using high-definition electrodes

et al. 2014

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Are Eye-Movements during Paragraph Reading Affected by Low-Dosage Transcranial Direct Current Stimulation (tDCS)?

Richardson¹,

Luke

Hudspeth³

2017

Brain Stimulation

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