Rigor and reproducibility in research with transcranial electrical stimulation: An NIMH-sponsored workshop

Marom Bikson; Andre R. Brunoni; Leigh E. Charvet; Vincent P. Clark; Leonardo G. Cohen; Zhi De Deng; Jacek Dmochowski; Dylan J. Edwards; Flavio Frohlich; Emily S. Kappenman; Kelvin O. Lim; Colleen Loo; Antonio Mantovani; David P. McMullen; Lucas C. Parra; Michele Pearson; Jessica D. Richardson; Judith M. Rumsey; Pejman Sehatpour; David Sommers; Gozde Unal; Eric M. Wassermann; Adam J. Woods; Sarah H. Lisanby

doi:10.1016/j.brs.2017.12.008

Rigor and reproducibility in research with transcranial electrical stimulation: An NIMH-sponsored workshop

Marom Bikson, Andre R. Brunoni, Leigh E. Charvet, Vincent P. Clark, Leonardo G. Cohen, Zhi De Deng, Jacek Dmochowski, Dylan J. Edwards, Flavio Frohlich, Emily S. Kappenman, Kelvin O. Lim, Colleen Loo, Antonio Mantovani, David P. McMullen, Lucas C. Parra, Michele Pearson, Jessica D. Richardson, Judith M. Rumsey, Pejman Sehatpour, David SommersGozde Unal, Eric M. Wassermann, Adam J. Woods, Sarah H. Lisanby

Psychiatry & Behavioral Sciences

Research output: Contribution to journal › Review article › peer-review

132 Scopus citations

Abstract

Background: Neuropsychiatric disorders are a leading source of disability and require novel treatments that target mechanisms of disease. As such disorders are thought to result from aberrant neuronal circuit activity, neuromodulation approaches are of increasing interest given their potential for manipulating circuits directly. Low intensity transcranial electrical stimulation (tES) with direct currents (transcranial direct current stimulation, tDCS) or alternating currents (transcranial alternating current stimulation, tACS) represent novel, safe, well-tolerated, and relatively inexpensive putative treatment modalities. Objective: This report seeks to promote the science, technology and effective clinical applications of these modalities, identify research challenges, and suggest approaches for addressing these needs in order to achieve rigorous, reproducible findings that can advance clinical treatment. Methods: The National Institute of Mental Health (NIMH) convened a workshop in September 2016 that brought together experts in basic and human neuroscience, electrical stimulation biophysics and devices, and clinical trial methods to examine the physiological mechanisms underlying tDCS/tACS, technologies and technical strategies for optimizing stimulation protocols, and the state of the science with respect to therapeutic applications and trial designs. Results: Advances in understanding mechanisms, methodological and technological improvements (e.g., electronics, computational models to facilitate proper dosing), and improved clinical trial designs are poised to advance rigorous, reproducible therapeutic applications of these techniques. A number of challenges were identified and meeting participants made recommendations made to address them. Conclusions: These recommendations align with requirements in NIMH funding opportunity announcements to, among other needs, define dosimetry, demonstrate dose/response relationships, implement rigorous blinded trial designs, employ computational modeling, and demonstrate target engagement when testing stimulation-based interventions for the treatment of mental disorders.

Original language	English (US)
Pages (from-to)	465-480
Number of pages	16
Journal	Brain Stimulation
Volume	11
Issue number	3
DOIs	https://doi.org/10.1016/j.brs.2017.12.008
State	Published - May 1 2018

Bibliographical note

Publisher Copyright:
© 2018

Keywords

Neuromodulation
Reproducibility
Transcranial alternating current stimulation (tACS)
Transcranial direct current stimulation (tDCS)
Transcranial electrical stimulation (tES)

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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5997279

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Bikson, M., Brunoni, A. R., Charvet, L. E., Clark, V. P., Cohen, L. G., Deng, Z. D., Dmochowski, J., Edwards, D. J., Frohlich, F., Kappenman, E. S., Lim, K. O., Loo, C., Mantovani, A., McMullen, D. P., Parra, L. C., Pearson, M., Richardson, J. D., Rumsey, J. M., Sehatpour, P., ... Lisanby, S. H. (2018). Rigor and reproducibility in research with transcranial electrical stimulation: An NIMH-sponsored workshop. Brain Stimulation, 11(3), 465-480. https://doi.org/10.1016/j.brs.2017.12.008

Bikson, M, Brunoni, AR, Charvet, LE, Clark, VP, Cohen, LG, Deng, ZD, Dmochowski, J, Edwards, DJ, Frohlich, F, Kappenman, ES, Lim, KO, Loo, C, Mantovani, A, McMullen, DP, Parra, LC, Pearson, M, Richardson, JD, Rumsey, JM, Sehatpour, P, Sommers, D, Unal, G, Wassermann, EM, Woods, AJ & Lisanby, SH 2018, 'Rigor and reproducibility in research with transcranial electrical stimulation: An NIMH-sponsored workshop', Brain Stimulation, vol. 11, no. 3, pp. 465-480. https://doi.org/10.1016/j.brs.2017.12.008

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abstract = "Background: Neuropsychiatric disorders are a leading source of disability and require novel treatments that target mechanisms of disease. As such disorders are thought to result from aberrant neuronal circuit activity, neuromodulation approaches are of increasing interest given their potential for manipulating circuits directly. Low intensity transcranial electrical stimulation (tES) with direct currents (transcranial direct current stimulation, tDCS) or alternating currents (transcranial alternating current stimulation, tACS) represent novel, safe, well-tolerated, and relatively inexpensive putative treatment modalities. Objective: This report seeks to promote the science, technology and effective clinical applications of these modalities, identify research challenges, and suggest approaches for addressing these needs in order to achieve rigorous, reproducible findings that can advance clinical treatment. Methods: The National Institute of Mental Health (NIMH) convened a workshop in September 2016 that brought together experts in basic and human neuroscience, electrical stimulation biophysics and devices, and clinical trial methods to examine the physiological mechanisms underlying tDCS/tACS, technologies and technical strategies for optimizing stimulation protocols, and the state of the science with respect to therapeutic applications and trial designs. Results: Advances in understanding mechanisms, methodological and technological improvements (e.g., electronics, computational models to facilitate proper dosing), and improved clinical trial designs are poised to advance rigorous, reproducible therapeutic applications of these techniques. A number of challenges were identified and meeting participants made recommendations made to address them. Conclusions: These recommendations align with requirements in NIMH funding opportunity announcements to, among other needs, define dosimetry, demonstrate dose/response relationships, implement rigorous blinded trial designs, employ computational modeling, and demonstrate target engagement when testing stimulation-based interventions for the treatment of mental disorders.",

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AU - Clark, Vincent P.

AU - Cohen, Leonardo G.

AU - Deng, Zhi De

AU - Dmochowski, Jacek

AU - Edwards, Dylan J.

AU - Frohlich, Flavio

AU - Kappenman, Emily S.

AU - Lim, Kelvin O.

AU - Loo, Colleen

AU - Mantovani, Antonio

AU - McMullen, David P.

AU - Parra, Lucas C.

AU - Pearson, Michele

AU - Richardson, Jessica D.

AU - Rumsey, Judith M.

AU - Sehatpour, Pejman

AU - Sommers, David

AU - Unal, Gozde

AU - Wassermann, Eric M.

AU - Woods, Adam J.

AU - Lisanby, Sarah H.

PY - 2018/5/1

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N2 - Background: Neuropsychiatric disorders are a leading source of disability and require novel treatments that target mechanisms of disease. As such disorders are thought to result from aberrant neuronal circuit activity, neuromodulation approaches are of increasing interest given their potential for manipulating circuits directly. Low intensity transcranial electrical stimulation (tES) with direct currents (transcranial direct current stimulation, tDCS) or alternating currents (transcranial alternating current stimulation, tACS) represent novel, safe, well-tolerated, and relatively inexpensive putative treatment modalities. Objective: This report seeks to promote the science, technology and effective clinical applications of these modalities, identify research challenges, and suggest approaches for addressing these needs in order to achieve rigorous, reproducible findings that can advance clinical treatment. Methods: The National Institute of Mental Health (NIMH) convened a workshop in September 2016 that brought together experts in basic and human neuroscience, electrical stimulation biophysics and devices, and clinical trial methods to examine the physiological mechanisms underlying tDCS/tACS, technologies and technical strategies for optimizing stimulation protocols, and the state of the science with respect to therapeutic applications and trial designs. Results: Advances in understanding mechanisms, methodological and technological improvements (e.g., electronics, computational models to facilitate proper dosing), and improved clinical trial designs are poised to advance rigorous, reproducible therapeutic applications of these techniques. A number of challenges were identified and meeting participants made recommendations made to address them. Conclusions: These recommendations align with requirements in NIMH funding opportunity announcements to, among other needs, define dosimetry, demonstrate dose/response relationships, implement rigorous blinded trial designs, employ computational modeling, and demonstrate target engagement when testing stimulation-based interventions for the treatment of mental disorders.

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KW - Reproducibility

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KW - Transcranial direct current stimulation (tDCS)

KW - Transcranial electrical stimulation (tES)

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Rigor and reproducibility in research with transcranial electrical stimulation: An NIMH-sponsored workshop

Abstract

Bibliographical note

Keywords

Access

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