Julie M. Baker scite author profile

Background and Purpose-Recent research suggests that increased left hemisphere cortical activity, primarily of the left frontal cortex, is associated with improved naming performance in stroke patients with aphasia. Our aim was to determine whether anodal transcranial direct-current stimulation (tDCS), a method thought to increase cortical excitability, would improve naming accuracy in stroke patients with aphasia when applied to the scalp overlying the left frontal cortex. Methods-Ten patients with chronic stroke-induced aphasia received 5 days of anodal tDCS (1 mA for 20 minutes) and 5 days of sham tDCS (for 20 minutes, order randomized) while performing a computerized anomia treatment. tDCS positioning was guided by a priori functional magnetic resonance imaging results for each individual during an overt naming task to ensure that the active electrode was placed over structurally intact cortex. Results-Results

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Individualized model predicts brain current flow during transcranial direct-current stimulation treatment in responsive stroke patient

Datta

et al. 2011

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While numerous published reports have demonstrated the beneficial effects of transcranial direct-current stimulation (tDCS) upon task performance, fundamental questions remain regarding the optimal electrode configuration on the scalp. Moreover, it is expected that lesioned brain tissue will influence current flow and should therefore be considered (and perhaps leveraged) in the design of individualized tDCS therapies for stroke. The current report demonstrates how different electrode configurations influence the flow of electrical current through brain tissue in a patient who responded positively to a tDCS treatment targeting aphasia (see Baker, Rorden, & Fridriksson, 2010). The patient, a 60-year-old male, sustained a left hemisphere ischemic stroke (lesion size = 87.42 cc) 64-months prior to his participation. Here we present results from the first high-resolution (1 mm3) model of tDCS in a brain with considerable stroke-related damage; the model was individualized for the patient who received anodal tDCS to his left frontal cortex with the reference cathode electrode placed on his right shoulder. We modeled the resulting brain current flow and also considered three additional reference electrode positions: right mastoid, right orbitofrontal cortex, and a ‘mirror’ configuration with the anode over the undamaged right cortex. Our results demonstrate the profound effect of lesioned tissue on resulting current flow and the ability to modulate current pattern through the brain, including peri-lesional regions, through electrode montage design. The complexity of brain current flow modulation by detailed normal and pathological anatomy suggest: 1) That computational models are critical for the rational interpretation and design of individualized tDCS stroke-therapy; and 2) These models must accurately reproduce head anatomy as shown here.

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Transcranial Direct Current Stimulation Improves Naming Reaction Time in Fluent Aphasia

Fridriksson

Richardson

Baker

et al. 2011

Stroke

277

227

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Background and Purpose-Previous evidence suggests that anodal transcranial direct current stimulation (A-tDCS) applied to the left hemisphere can improve aphasic participants' ability to name common objects. The current study further examined this issue in a more tightly controlled experiment in participants with fluent aphasia. Methods-We examined the effect of A-tDCS on reaction time during overt picture naming in 8 chronic stroke participants. Anode electrode placement targeted perilesional brain regions that showed the greatest activation on a pretreatment functional MRI scan administered during overt picture naming with the reference cathode electrode placed on the contralateral forehead. A-tDCS (1 mA; 20-minute) was compared with sham tDCS (S-tDCS) in a crossover design. Participants received 10 sessions of computerized anomia treatment; 5 sessions included A-tDCS and 5 included S-tDCS. Results-Coupling

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Activity in Preserved Left Hemisphere Regions Predicts Anomia Severity in Aphasia

et al. 2009

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Understanding the neural mechanism that supports preserved language processing in aphasia has implications for both basic and applied science. This study examined brain activation associated with correct picture naming in 15 patients with aphasia. We contrasted each patient's activation to the activation observed in a neurologically healthy control group, allowing us to identify regions with unusual activity patterns. The results revealed that increased activation in preserved left hemisphere areas is associated with better naming performance in aphasia. This relationship was linear in nature; progressively less cortical activation was associated with greater severity of anomia. These findings are consistent with others who suggests that residual language function following stroke relies on preserved cortical areas in the left hemisphere.

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Julie M. Baker

Using Transcranial Direct-Current Stimulation to Treat Stroke Patients With Aphasia

Individualized model predicts brain current flow during transcranial direct-current stimulation treatment in responsive stroke patient

Transcranial Direct Current Stimulation Improves Naming Reaction Time in Fluent Aphasia

Activity in Preserved Left Hemisphere Regions Predicts Anomia Severity in Aphasia

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