Transcranial Electric Stimulation for Precision Medicine: A Spatiomechanistic Framework

Yavari, Fatemeh; Nitsche, Michael A.; Ekhtiari, Hamed

doi:10.3389/fnhum.2017.00159

Cited by 28 publications

(26 citation statements)

References 140 publications

(185 reference statements)

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“…Biomarker development incorporating multimodal measures, rather than a single modality, and taking advantage of both the high spatial resolution of fMRI and high temporal resolution of EEG is likely to provide a more complete picture of both the cognitive functions and the underlying mechanisms dysregulated in SUD. Identification of biomarkers for both risk and protective factors and targets for treatment will likely uncover a proximal, brain-based measure of dependence essential for individualized medicine and curbing the significant societal impact of SUDs (Yavari et al, 2017).…”

Section: Biomarkers For Treatment Selection and Monitoringmentioning

confidence: 99%

Transcranial electrical and magnetic stimulation (tES and TMS) for addiction medicine: A consensus paper on the present state of the science and the road ahead

Ekhtiari

Tavakoli

Addolorato

et al. 2019

Neuroscience & Biobehavioral Reviews

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237

189

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There is growing interest in non-invasive brain stimulation (NIBS) as a novel treatment option for substance-use disorders (SUDs). Recent momentum stems from a foundation of preclinical neuroscience demonstrating links between neural circuits and drug consuming behavior, as well as recent FDA-approval of NIBS treatments for mental health disorders that share overlapping pathology with SUDs. As with any emerging field, enthusiasm must be tempered by reason; lessons learned from the past should be prudently applied to future therapies. Here, an international ensemble of experts provides an overview of the state of transcranial-electrical (tES) and transcranial-magnetic (TMS) stimulation applied in SUDs. This consensus paper provides a systematic literature review on published data-emphasizing the heterogeneity of methods and outcome measures while suggesting strategies to help bridge knowledge gaps. The goal of this effort is to provide the community with guidelines for best practices in tES/TMS SUD research. We hope this will accelerate the speed at which the community translates basic neuroscience into advanced neuromodulation tools for clinical practice in addiction medicine.

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Section: Biomarkers For Treatment Selection and Monitoringmentioning

confidence: 99%

Transcranial electrical and magnetic stimulation (tES and TMS) for addiction medicine: A consensus paper on the present state of the science and the road ahead

Ekhtiari

Tavakoli

Addolorato

et al. 2019

Neuroscience & Biobehavioral Reviews

Self Cite

237

189

View full text Add to dashboard Cite

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“…The modulation effects of tES on cognitive and motor functions could be understood from different mechanistic levels ( Yavari et al, 2017 ). On the neurochemical level, neurotransmitters associated with cognitive functions [glutamatergic ( N -methyl- D -aspartate) ( Liebetanz et al, 2002 ; Nitsche et al, 2003 , 2004a,b ) and γ-aminobutyric acid–ergic receptors ( Nitsche et al, 2004c )] relate to tES long-term effects; on the neuroelectrical level, cortical neuronal excitability increased/decreased under anodal/cathodal tDCS ( Nitsche and Paulus, 2000 , 2001 ); on the brain oscillatory level, tES modifies brain waves and their synchronizations ( Keeser et al, 2011b ; Jacobson et al, 2012 ; Herrmann et al, 2013 ).…”

Section: Neurophysiological Mechanics Of Tesmentioning

confidence: 99%

The Effects of Transcranial Electrical Stimulation on Human Motor Functions: A Comprehensive Review of Functional Neuroimaging Studies

et al. 2020

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Transcranial electrical stimulation (tES) is a promising tool to enhance human motor skills. However, the underlying physiological mechanisms are not fully understood. On the other hand, neuroimaging modalities provide powerful tools to map some of the neurophysiological biomarkers associated with tES. Here, a comprehensive review was undertaken to summarize the neuroimaging evidence of how tES affects human motor skills. A literature search has been done on the PubMed database, and 46 relative articles were selected. After reviewing these articles, we conclude that neuroimaging techniques are feasible to be coupled with tES and offer valuable information of cortical excitability, connectivity, and oscillations regarding the effects of tES on human motor behavior. The biomarkers derived from neuroimaging could also indicate the motor performance under tES conditions. This approach could advance the understanding of tES effects on motor skill and shed light on a new generation of adaptive stimulation models.

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“…Electrical stimulation is an efficacious therapeutic modality for neurological disorders, such as stroke, depression, and schizophrenia [1][2][3][4][5] . In this system, an electrical stimulus is delivered either invasively, e.g., deep brain stimulation (DBS), or non-invasively, e.g., transcranial magnetic stimulation (TMS), or by transcranial electrical stimulation (TES).…”

Section: Analyzing the Advantages Of Subcutaneous Over Transcutaneousmentioning

confidence: 99%

Analyzing the advantages of subcutaneous over transcutaneous electrical stimulation for activating brainwaves

Kang

Lee

Kim

et al. 2020

Sci Rep

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Transcranial electrical stimulation (TES) is a widely accepted neuromodulation modality for treating brain disorders. However, its clinical efficacy is fundamentally limited due to the current shunting effect of the scalp and safety issues. A newer electrical stimulation technique called subcutaneous electrical stimulation (SES) promises to overcome the limitations of TES by applying currents directly at the site of the disorder through the skull. While SES seems promising, the electrophysiological effect of SES compared to TES is still unknown, thus limiting its broader application. Here we comprehensively analyze the SES and TES to demonstrate the effectiveness and advantages of SES. Beagles were bilaterally implanted with subdural strips for intracranial electroencephalography and electric field recording. For the intracerebral electric field prediction, we designed a 3D electromagnetic simulation framework and simulated TES and SES. In the beagle model, SES induces three to four-fold larger cerebral electric fields compared to TES, and significant changes in power ratio of brainwaves were observed only in SES. Our prediction framework suggests that the field penetration of SES would be several-fold larger than TES in human brains. These results demonstrate that the SES would significantly enhance the neuromodulatory effects compared to conventional TES and overcome the TES limitations.

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Transcranial Electric Stimulation for Precision Medicine: A Spatiomechanistic Framework

Cited by 28 publications

References 140 publications

Transcranial electrical and magnetic stimulation (tES and TMS) for addiction medicine: A consensus paper on the present state of the science and the road ahead

Transcranial electrical and magnetic stimulation (tES and TMS) for addiction medicine: A consensus paper on the present state of the science and the road ahead

The Effects of Transcranial Electrical Stimulation on Human Motor Functions: A Comprehensive Review of Functional Neuroimaging Studies

Analyzing the advantages of subcutaneous over transcutaneous electrical stimulation for activating brainwaves

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