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Modeling transcranial electrical stimulation in the aging brain

Aprinda Indahlastari, Alejandro Albizu, Andrew O’Shea, Megan A. Forbes, Nicole R. Nissim, Jessica N. Kraft, Nicole D. Evangelista, Hanna K. Hausman, Adam J. Woods

2020Brain stimulation115 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Varying treatment outcomes in transcranial electrical stimulation (tES) recipients may depend on the amount of current reaching the brain. Brain atrophy associated with normal aging may affect tES current delivery to the brain. Computational models have been employed to compute predicted tES current inside the brain. This study is the largest study that uses computational models to investigate tES field distribution in healthy older adults. METHODS: Individualized head models from 587 healthy older adults (mean = 73.9years, 51-95 years) were constructed to create field maps. Two electrode montages (F3-F4, M1-SO) with 2 mA input current were modeled using ROAST with modified codes. A customized template of healthy older adults, the UFAB-587, was created from the same dataset and used to warp individual brains into the same space. Warped models were analyzed to determine the relationship between computed field measures, brain atrophy and age. MAIN RESULTS: = 0.0829, p = 1.14e-12). Field pattern showed negative correlation with age in brain sub-regions including part of DLPFC and precentral gyrus. Mediation analysis revealed that the negative correlation between age and current density is partially mediated by brain-to-CSF ratio. CONCLUSIONS: Computed field measures showed decreasing amount of tES current reaching the brain with increasing atrophy. Therefore, adjusting current dose by modifying tES stimulation parameters in older adults based on degree of atrophy may be necessary to achieve desired stimulation benefits. Results from this study may inform future tES application in healthy older adults.

Topics & Concepts

NeuroscienceTranscranial direct-current stimulationBrain stimulationMedicineStimulationPsychologyPhysical medicine and rehabilitationTranscranial Magnetic Stimulation StudiesNeuroscience and Neural EngineeringElectromagnetic Fields and Biological Effects
Modeling transcranial electrical stimulation in the aging brain | Litcius