Search Results - "Indahlastari, Aprinda"

Effects of inter-individual variation on transcranial electrical stimulation in the aging brain by Indahlastari, Aprinda, Woods, Adam J.

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Modeling transcranial electrical stimulation in the aging brain by Indahlastari, Aprinda, Albizu, Alejandro, O’Shea, Andrew, Forbes, Megan A., Nissim, Nicole R., Kraft, Jessica N., Evangelista, Nicole D., Hausman, Hanna K., Woods, Adam J.

“…Varying treatment outcomes in transcranial electrical stimulation (tES) recipients may depend on the amount of current reaching the brain. Brain atrophy…”
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Effects of Transcranial Direct Current Stimulation Paired With Cognitive Training on Functional Connectivity of the Working Memory Network in Older Adults by Nissim, Nicole R, O'Shea, Andrew, Indahlastari, Aprinda, Kraft, Jessica N, von Mering, Olivia, Aksu, Serkan, Porges, Eric, Cohen, Ronald, Woods, Adam J

“…Working memory, a fundamental short-term cognitive process, is known to decline with advanced age even in healthy older adults. Normal age-related declines in…”
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Machine learning and individual variability in electric field characteristics predict tDCS treatment response by Albizu, Alejandro, Fang, Ruogu, Indahlastari, Aprinda, O’Shea, Andrew, Stolte, Skylar E., See, Kyle B., Boutzoukas, Emanuel M., Kraft, Jessica N., Nissim, Nicole R., Woods, Adam J.

“…Transcranial direct current stimulation (tDCS) is widely investigated as a therapeutic tool to enhance cognitive function in older adults with and without…”
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Machine-learning defined precision tDCS for improving cognitive function by Albizu, Alejandro, Indahlastari, Aprinda, Huang, Ziqian, Waner, Jori, Stolte, Skylar E., Fang, Ruogu, Woods, Adam J.

“…Transcranial direct current stimulation (tDCS) paired with cognitive training (CT) is widely investigated as a therapeutic tool to enhance cognitive function…”
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Impact of electrode selection on modeling tDCS in the aging brain by Indahlastari, Aprinda, Dunn, Ayden L, Pedersen, Samantha, Kraft, Jessica N, Someya, Shizu, Albizu, Alejandro, Woods, Adam J

“…Person-specific computational models can estimate transcranial direct current stimulation (tDCS) current dose delivered to the brain and predict treatment…”
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Individualized tDCS modeling predicts functional connectivity changes within the working memory network in older adults by Indahlastari, Aprinda, Albizu, Alejandro, Kraft, Jessica N., O'Shea, Andrew, Nissim, Nicole R., Dunn, Ayden L., Carballo, Daniela, Gordon, Michael P., Taank, Shreya, Kahn, Alex T., Hernandez, Cindy, Zucker, William M., Woods, Adam J.

“…Working memory decline has been associated with normal aging. The frontal brain structure responsible for this decline is primarily located in the prefrontal…”
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Effects of in-Scanner Bilateral Frontal tDCS on Functional Connectivity of the Working Memory Network in Older Adults by Nissim, Nicole R, O'Shea, Andrew, Indahlastari, Aprinda, Telles, Rachel, Richards, Lindsey, Porges, Eric, Cohen, Ronald, Woods, Adam J

“…Working memory is an executive memory process essential for everyday decision-making and problem solving that declines with advanced age. Transcranial direct…”
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White matter hyperintensities affect transcranial electrical stimulation in the aging brain by Indahlastari, Aprinda, Albizu, Alejandro, Boutzoukas, Emanuel M., O’Shea, Andrew, Woods, Adam J.

“…White matter hyperintensities (WMH) are estimated to occur in greater than 63% of older adults over the age of 60 years. WMH identified in the T2-weighted…”
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The importance of accurately representing electrode position in transcranial direct current stimulation computational models by Indahlastari, Aprinda, Dunn, Ayden L., Pedersen, Samantha, Kraft, Jessica N., Someya, Shizu, Albizu, Alejandro, Woods, Adam J.

“…•Existing tDCS models largely include artificially created electrodes adapted from planned montages.•Final location of real electrodes during live tDCS…”
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Non-invasive Brain Stimulation: Probing Intracortical Circuits and Improving Cognition in the Aging Brain by Gomes-Osman, Joyce, Indahlastari, Aprinda, Fried, Peter J, Cabral, Danylo L F, Rice, Jordyn, Nissim, Nicole R, Aksu, Serkan, McLaren, Molly E, Woods, Adam J

“…The impact of cognitive aging on brain function and structure is complex, and the relationship between aging-related structural changes and cognitive function…”
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High fidelity finite element models to predict changes in functional connectivity of the working memory networks in older adults by Indahlastari, Aprinda, Albizu, Alejandro, O'Shea, Andrew, Nissim, Nicole, Dunn, Ayden, Carballo, Daniela, Gordon, Michael, Taank, Shreya, Kraft, Jessica, Woods, Adam

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Impact of Transcranial Direct Current Stimulation and Cognitive Training on Frontal Lobe Neurotransmitter Concentrations by Alvarez-Alvarado, Stacey, Boutzoukas, Emanuel M, Kraft, Jessica N, O'Shea, Andrew, Indahlastari, Aprinda, Albizu, Alejandro, Nissim, Nicole R, Evangelista, Nicole D, Cohen, Ronald, Porges, Eric C, Woods, Adam J

“…This study examines the impact of transcranial direct current stimulation (tDCS) combined with cognitive training on neurotransmitter concentrations in the…”
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Machine learning-optimized non-invasive brain stimulation and treatment response classification for major depression by Albizu, Alejandro, Indahlastari, Aprinda, Suen, Paulo, Huang, Ziqian, Waner, Jori L, Stolte, Skylar E, Fang, Ruogu, Brunoni, Andre R, Woods, Adam J

“…Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation intervention that shows promise as a potential treatment for depression…”
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Facilitation of working memory capacity by transcranial direct current stimulation: a secondary analysis from the augmenting cognitive training in older adults (ACT) study by Aksu, Serkan, Indahlastari, Aprinda, O’Shea, Andrew, Marsiske, Michael, Cohen, Ronald, Alexander, Gene E., DeKosky, Steven T., Hishaw, Georg A., Dai, Yunfeng, Wu, Samuel S., Woods, Adam J.

“…Aging is a public health concern with an ever-increasing magnitude worldwide. An array of neuroscience-based approaches like transcranial direct current…”
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The impact of a tDCS and cognitive training intervention on task-based functional connectivity by Kraft, Jessica N., Indahlastari, Aprinda, Boutzoukas, Emanuel M., Hausman, Hanna K., Hardcastle, Cheshire, Albizu, Alejandro, O’Shea, Andrew, Evangelista, Nicole D., Van Etten, Emily J., Bharadwaj, Pradyumna K., Song, Hyun, Smith, Samantha G., DeKosky, Steven T., Hishaw, Georg A., Wu, Samuel, Marsiske, Michael, Cohen, Ronald, Alexander, Gene E., Porges, Eric, Woods, Adam J.

“…Declines in several cognitive domains, most notably processing speed, occur in non-pathological aging. Given the exponential growth of the older adult…”
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Methods to Compare Predicted and Observed Phosphene Experience in tACS Subjects by Sadleir, Rosalind J., Chauhan, Munish, Mousa, Bakir, Castellano, Kevin, Saar, Christopher, Kasinadhuni, Aditya K., Indahlastari, Aprinda, Mareci, Thomas H.

“…Background. Phosphene generation is an objective physical measure of potential transcranial alternating current stimulation (tACS) biological side effects…”
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Benchmarking transcranial electrical stimulation finite element models: a comparison study by Indahlastari, Aprinda, Chauhan, Munish, Sadleir, Rosalind J

“…To compare field measure differences in simulations of transcranial electrical stimulation (tES) generated by variations in finite element (FE) models due to…”
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Low-Frequency Conductivity Tensor Imaging of the Human Head In Vivo Using DT-MREIT: First Study by Chauhan, Munish, Indahlastari, Aprinda, Kasinadhuni, Aditya K., Schar, Michael, Mareci, Thomas H., Sadleir, Rosalind J.

“…We present the first in vivo images of anisotropic conductivity distribution in the human head, measured at a frequency of approximately 10 Hz. We used…”
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Augmenting cognitive training in older adults with transcranial direct current stimulation: Initial results from the Phase III ACT trial and new directions by Woods, Adam J., Alexander, Gene, Cohen, Ronald, Marsiske, Michael, DeKosky, Steven T, Hishaw, Georg A., Wu, Samuel S., Indahlastari, Aprinda, Albizu, Alejandro, Fang, Ruogu

“…Background Effective non‐pharmacological interventions to remediate age‐related cognitive decline and alter trajectories toward dementia are limited. The…”
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