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101. Reversal of TMS-induced motor twitch by training is associated with a reduction in excitability of the antagonist muscle.

Author

Massachusetts Institute of Technology. Department of Mechanical Engineering, Krebs, Hermano Igo, Giacobbe, Viola, Fregni, Felipe, Pascual-Leone, Alvaro, Volpe, Bruce T., Edwards, Dylan J., Thickbroom, Gary W., Massachusetts Institute of Technology. Department of Mechanical Engineering, Krebs, Hermano Igo, Giacobbe, Viola, Fregni, Felipe, Pascual-Leone, Alvaro, Volpe, Bruce T., Edwards, Dylan J., and Thickbroom, Gary W.

Abstract

Background: A single session of isolated repetitive movements of the thumb can alter the response to transcranial magnetic stimulation (TMS), such that the related muscle twitch measured post-training occurs in the trained direction. This response is attributed to transient excitability changes in primary motor cortex (M1) that form the early part of learning. We investigated; (1) whether this phenomenon might occur for movements at the wrist, and (2) how specific TMS activation patterns of opposing muscles underlie the practice-induced change in direction. Methods: We used single-pulse suprathreshold TMS over the M1 forearm area, to evoke wrist movements in 20 healthy subjects. We measured the preferential direction of the TMS-induced twitch in both the sagittal and coronal plane using an optical goniometer fixed to the dorsum of the wrist, and recorded electromyographic (EMG) activity from the flexor carpi radialis (FCR) and extensor carpi radialis (ECR) muscles. Subjects performed gentle voluntary movements, in the direction opposite to the initial twitch for 5 minutes at 0.2 Hz. We collected motor evoked potentials (MEPs) elicited by TMS at baseline and for 10 minutes after training. Results: Repetitive motor training was sufficient for TMS to evoke movements in the practiced direction opposite to the original twitch. For most subjects the effect of the newly-acquired direction was retained for at least 10 minutes before reverting to the original. Importantly, the direction change of the movement was associated with a significant decrease in MEP amplitude of the antagonist to the trained muscle, rather than an increase in MEP amplitude of the trained muscle. Conclusions: These results demonstrate for the first time that a TMS-twitch direction change following a simple practice paradigm may result from reduced corticospinal drive to muscles antagonizing the trained direction. Such findings may have implications for training paradigms in neurorehabilitation., National Institutes of Health (U.S.) (grant 1R21HD060999-01)

Published
2011

103. A Framework for Combining rTMS with Behavioral Therapy.

Author

Zoe Tsagaris, K., Labar, Douglas R., and Edwards, Dylan J.

Subjects
TRANSCRANIAL magnetic stimulation, REPETITION training, BEHAVIOR therapy
Abstract

Upon its inception, repetitive transcranial magnetic stimulation (rTMS) was delivered at rest, without regard to the potential impact of activity occurring during or around the time of stimulation. rTMS was considered an experimental intervention imposed on the brain; therefore, the myriad features that might suppress or enhance its desired effects had not yet been explored. The field of rTMS has since grown substantially and therapeutic benefits have been reported, albeit with modest and inconsistent improvements. Work in this field accelerated following approval of a psychiatric application (depression), and it is now expanding to other applications and disciplines. In the last decade, experimental enquiry has sought new ways to improve the therapeutic benefits of rTMS, intended to enhance underlying brain reorganization and functional recovery by combining it with behavioral therapy. This concept is appealing, but poorly defined and requires clarity. We provide an overview of how combined rTMS and behavioral therapy has been delineated in the literature, highlighting the diversity of approaches. We outline a framework for study design and reporting such that the effects of this emerging method can be better understood. [ABSTRACT FROM AUTHOR]

Published
2016
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104. Spared Primary Motor Cortex and The Presence of MEP in Cerebral Palsy Dictate the Responsiveness to tDCS during Gait Training.

Author

Collange Grecco, Luanda A., Santos Oliveira, Claudia, Galli, Manuela, Cosmo, Camila, de Almeida Carvalho Duarte, Natália, Zanon, Nelci, Edwards, Dylan J., and Fregni, Felipe

Subjects
TRANSCRANIAL direct current stimulation, NEUROREHABILITATION, CEREBRAL palsy treatment, NEUROPHYSIOLOGY, REGRESSION analysis
Abstract

The current priority of investigations involving transcranial direct current stimulation (tDCS) and neurorehabilitation is to identify biomarkers associated with the positive results of the interventions such that respondent and non-respondent patients can be identified in the early phases of treatment. The aims were to determine whether: (1) present motor evoked potential (MEP); and (2) injuries involving the primary motor cortex, are associated with tDCS-enhancement in functional outcome following gait training in children with cerebral palsy (CP). We reviewed the data from our parallel, randomized, sham-controlled, double-blind studies. Fifty-six children with spastic CP received gait training (either treadmill training or virtual reality training) and tDCS (active or sham). Univariate and multivariate logistic regression analyses were employed to identify clinical, neurophysiologic and neuroanatomic predictors associated with the responsiveness to treatment with tDCS. MEP presence during the initial evaluation and the subcortical injury were associated with positive effects in the functional results. The logistic regression revealed that present MEP was a significant predictor for the sixminute walk test (6MWT; p = 0.003) and gait speed (p = 0.028), whereas the subcortical injury was a significant predictor of gait kinematics (p = 0.013) and gross motor function (p = 0.021). In this preliminary study involving children with CP, two important prediction factors of good responses to anodal tDCS combined with gait training were identified. Apparently, MEP (integrity of the corticospinal tract) and subcortical location of the brain injury exerted different influences on aspects related to gait, such as velocity and kinematics. [ABSTRACT FROM AUTHOR]

Published
2016
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105. Eccentric utilization ratio: Effect of sport and phase of training

Author

McGuigan, Michael R, McGuigan, Michael R, Doyle, Timothy, Newton, Michael, Edwards, Dylan J, Nimphius, Sophia, Newton, Robert U, McGuigan, Michael R, McGuigan, Michael R, Doyle, Timothy, Newton, Michael, Edwards, Dylan J, Nimphius, Sophia, and Newton, Robert U

Abstract

The eccentric utilization ratio (EUR), which is the ratio of countermovement jump (CMJ) to static jump (SJ) performance, has been suggested as a useful indicator of power performance in athletes. The purpose of the study was to compare the EUR of athletes from a variety of different sports and during different phases of training. A total of 142 athletes from rugby union, Australian Rules Football, soccer, softball, and field hockey were tested. Subjects performed both CMJ and SJ on a force plate integrated with a position transducer. The EUR was measured as the ratio of CMJ to SJ for jump height and peak power. The rugby union, Australian Rules Football, and hockey athletes were tested during off-season and preseason to provide EUR data during different phases of training. For men, EUR for soccer, Australian Rules Football, and rugby was greater than softball (effect size range, 0.83-0.92). For women, EUR for soccer was greater than field hockey and softball (0.86-1.0). There was a significant difference between the jump height and peak power method for the Australian Rules Football, rugby, and field hockey tests conducted preseason (p < 0.05). Fear field hockey, there was a significant increase in EUR from off-season to preseason. Athletes in sports such as soccer, rugby union, and Australian Rules Football appear to have higher EUR values, which reflects the greater reliance on stretch shortening activities in these sports. It does appear that EUR can be used to track changes in training with the values significantly increasing from off-season to preseason. The EUR provides the practitioner with information about the performance of athletes and appears to be sensitive to changes in the type of training being undertaken.

Published
2006

108. ECCENTRIC UTILIZATION RATIO

Author

MCGUIGAN, MICHAEL R., primary, DOYLE, TIMOTHY L.A., additional, NEWTON, MICHAEL, additional, EDWARDS, DYLAN J., additional, NIMPHIUS, SOPHIA, additional, and NEWTON, ROBERT U., additional

Published
2006
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109. Is there a difference in cortical representation between dominant and non-dominant arm muscles of elite badminton players?

Author

Edwards, Dylan J. and Edwards, Dylan J.

Abstract

Training for sport involves the development of skill and coordination. The physiological changes associated with skill acquisition are complex and at present poorly understood. One of the areas in the central nervous system thought to be involved with skill acquisition is the cerebral motor cortex where localised areas are responsible for controlling specific muscle groups. Learning or improving a motor skill may require reorganisation of the cortical areas controlling relevant muscles to accommodate the new skill. To test this idea we studied a group of elite badminton players that were highly skilled in their dominant playing arm. Transcranial magnetic stimulation was used to stimulate the motor cortex, and surface electrodes recorded the evoked muscle response. A forearm wrist flexor muscle was examined in this study and a comparison was made between the representation of this muscle on the motor cortex, with that of the contralateral untrained muscle. The experiments were repeated in a control group of normal subjects to assess if any interhemispheric differences occur under normal conditions. In order to quantify the results, topographic maps were produced illustrating the area of representation of each muscle on the cortex, and the centre of the map. The maps showed the representation taken from the amplitude of the evoked response, and the silent period following this response. Comparison of the maps revealed no significant differences between the trained and untrained muscles, in the size of the representation, or the excitability of the area. The location of the maps was slightly posterior for the athlete group, particularly in the dominant hemisphere, which also showed a non-significant more lateral placement compared to the control group. Skill differences between the dominant and non-dominant arm in badminton players is not reflected in the representation of the muscles on the motor cortex.

Published
1995

110. Using tDCS to facilitate motor learning in speech production: The role of timing

Author

Buchwald, Adam, Calhoun, Holly, Rimikis, Stacey, Lowe, Mara Steinberg, Wellner, Rebecca, Edwards, Dylan J., Buchwald, Adam, Calhoun, Holly, Rimikis, Stacey, Lowe, Mara Steinberg, Wellner, Rebecca, and Edwards, Dylan J.

Abstract

Buchwald, A., Calhoun, H., Rimikis, S., Lowe, M. S., Wellner, R., & Edwards, D. J. (2019). Using tDCS to facilitate motor learning in speech production: The role of timing. Cortex, 111, 274-285. https://doi.org/10.1016/j.cortex.2018.11.014

111. Critically appraised paper: Non-invasive brain stimulation does not enhance the effect of robotic-assisted upper limb training on arm motor recovery after stroke [commentary]

Author

Edwards, Dylan J. and Edwards, Dylan J.

Abstract

Edwards, D. J. (2021). Critically appraised paper: Non-invasive brain stimulation does not enhance the effect of robotic-assisted upper limb training on arm motor recovery after stroke [Commentary]. Journal of Physiotherapy, 67(3), 218. https://doi.org/10.1016/j.jphys.2021.05.007

112. Brainwave nets: Are sparse dynamic models susceptible to brain manipulation experimentation?

Author

<p>CNPq FAPESP CAPES</p>, Nascimento, Diego C., Pinto-Orellana, Marco A., Leite, Joao P., Edwards, Dylan J., Louzada, Francisco, Santos, Taiza E.G., <p>CNPq FAPESP CAPES</p>, Nascimento, Diego C., Pinto-Orellana, Marco A., Leite, Joao P., Edwards, Dylan J., Louzada, Francisco, and Santos, Taiza E.G.

Abstract

Nascimento, D. C., Pinto-Orellana, M. A., Leite, J. P., Edwards, D. J., Louzada, F., & Santos, T. E. (2020). Brainwave nets: Are sparse dynamic models susceptible to brain manipulation experimentation?. Frontiers in Systems Neuroscience, 14, article 527757. https://doi.org/10.3389/fnsys.2020.527757

113. Non-invasive brain stimulation as add-on therapy for subacute post-stroke aphasia: A randomized trial (NORTHSTAR)

Author

<p>Canadian Institutes for Health Research W.-D. Heiss Foundation Lady Davis Institute CIHR Postdoctoral fellowship</p>, Zumbansen, Anna, Black, Sandra E., Chen, Joyce L., Edwards, Dylan J., Hartmann, Alexander, Heiss, Wolf-Dieter, Lanthier, Sylvain, Lesperance, Paul, Mochizuki, George, Paquette, Caroline, Rochon, Elizabeth A., Rubi-Fessen, Ilona, Valles, Jennie, Kneifel, Heike, Wortman-Jutt, Susan, Thiel, Alexander, NORTHSTAR-study group, <p>Canadian Institutes for Health Research W.-D. Heiss Foundation Lady Davis Institute CIHR Postdoctoral fellowship</p>, Zumbansen, Anna, Black, Sandra E., Chen, Joyce L., Edwards, Dylan J., Hartmann, Alexander, Heiss, Wolf-Dieter, Lanthier, Sylvain, Lesperance, Paul, Mochizuki, George, Paquette, Caroline, Rochon, Elizabeth A., Rubi-Fessen, Ilona, Valles, Jennie, Kneifel, Heike, Wortman-Jutt, Susan, Thiel, Alexander, and NORTHSTAR-study group

Abstract

Zumbansen, A., Black, S. E., Chen, J. L., Edwards, D. J., Hartmann, A., Heiss, W. D., ... Thiel, A. (2020). Non-invasive brain stimulation as add-on therapy for subacute post-stroke aphasia: A randomized trial (NORTHSTAR). European Stroke Journal, 5(4), 402-413. https://doi.org/10.1177/2396987320934935

114. Fractional anisotropy of thalamic nuclei is associated with verticality misperception after extra-thalamic stroke

Author

<p>CAPES – Brazil (TEGS: #33002029012P3; CR: #1602529)</p> <p>NICHD of USA (DJE) under award number R01HD069776</p>, Santos, Taiza E. G., Baggio, Jussara A. O., Rondinoni, Carlo, Machado, Laura, Weber, Karina T., Stefano, Luiz H., Santos, Antonio C., Pontes-Neto, Octavio M., Leite, Joao P., Edwards, Dylan J., <p>CAPES – Brazil (TEGS: #33002029012P3; CR: #1602529)</p> <p>NICHD of USA (DJE) under award number R01HD069776</p>, Santos, Taiza E. G., Baggio, Jussara A. O., Rondinoni, Carlo, Machado, Laura, Weber, Karina T., Stefano, Luiz H., Santos, Antonio C., Pontes-Neto, Octavio M., Leite, Joao P., and Edwards, Dylan J.

Abstract

Santos, T. E., Baggio, J. A., Rondinoni, C., Machado, L., Weber, K. T., Stefano, L. H., ... Edwards, D. J. (2019). Fractional anisotropy of thalamic nuclei is associated with verticality misperception after extra-thalamic stroke. Frontiers in Neurology, 10, Article 697. Available here

115. Robotic arm rehabilitation in chronic stroke patients with aphasia may promote speech and language recovery (but effect is not enhanced by supplementary tDCS)

Author

Buchwald, Adam, Falconer, Carolyn, Rykman-Peltz, Avrielle, Cortes, Mar, Pascual-Leone, Alvaro, Thickbroom, Gary W., Krebs, Hermano Igo, Fregni, Felipe, Gerber, Linda M., Oromendia, Clara, Chang, Johanna, Volpe, Bruce T., Edwards, Dylan J., Buchwald, Adam, Falconer, Carolyn, Rykman-Peltz, Avrielle, Cortes, Mar, Pascual-Leone, Alvaro, Thickbroom, Gary W., Krebs, Hermano Igo, Fregni, Felipe, Gerber, Linda M., Oromendia, Clara, Chang, Johanna, Volpe, Bruce T., and Edwards, Dylan J.

Abstract

Buchwald, A., Falconer, C., Rykman-Peltz, A., Cortes, M., Pascual-Leone, A., Thickbroom, G. W., ... & Chang, J. (2018). Robotic arm rehabilitation in chronic stroke patients with aphasia may promote speech and language recovery (but effect is not enhanced by supplementary tDCS). Frontiers in Neurology, 9, 853. Available here.

116. Dynamic time series smoothing for symbolic interval data applied to neuroscience

Author

Nascimento, Diego C., Pimentel, Bruno, Souza, Renata, Leite, João P., Edwards, Dylan J., Santos, Taiza E. G., Louzada, Francisco, Nascimento, Diego C., Pimentel, Bruno, Souza, Renata, Leite, João P., Edwards, Dylan J., Santos, Taiza E. G., and Louzada, Francisco

Abstract

Nascimento, D. C., Pimentel, B., Souza, R., Leite, J. P., Edwards, D. J., Santos, T. E., & Louzada, F. (2020). Dynamic time series smoothing for symbolic interval data applied to neuroscience. Information Sciences, 517, 415-426. https://doi.org/10.1016/j.ins.2019.12.026

117. Dose and staffing comparison study of upper limb device-assisted therapy

Author

Wuennemann, Marissa J., Mackenzie, Stuart W., Lane, Heather Pepper, Peltz, Avrielle R., Ma, Xiaoyue, Gerber, Linda M., Edwards, Dylan J., Kitago, Tomoko, Wuennemann, Marissa J., Mackenzie, Stuart W., Lane, Heather Pepper, Peltz, Avrielle R., Ma, Xiaoyue, Gerber, Linda M., Edwards, Dylan J., and Kitago, Tomoko

Abstract

Wuennemann, M. J., Mackenzie, S. W., Lane, H. P., Peltz, A. R., Ma, X., Gerber, L. M., ... & Kitago, T. (2020). Dose and staffing comparison study of upper limb device-assisted therapy. NeuroRehabilitation. 46(3), 287-297. https://doi.org/10.3233/NRE-192993

118. Combined transcranial direct current stimulation and robotic upper limb therapy improves upper limb function in an adult with cerebral palsy

Author

Friel, Kathleen M., Lee, Peter, Soles, Lindsey V., Smorenburg, Ana R. P., Kuo, Hsing-Ching, Gupta, Disah, Edwards, Dylan J., Friel, Kathleen M., Lee, Peter, Soles, Lindsey V., Smorenburg, Ana R. P., Kuo, Hsing-Ching, Gupta, Disah, and Edwards, Dylan J.

Abstract

Friel, K. M., Lee, P., Soles, L. V., Smorenburg, A. R., Kuo, H. C., Gupta, D., & Edwards, D. J. (2017). Combined transcranial direct current stimulation and robotic upper limb therapy improves upper limb function in an adult with cerebral palsy. NeuroRehabilitation, 41(1), 41-50. doi:10.3233/NRE-171455 Available here.

119. Transcranial Direct Current Stimulation and Sports Performance

Author

Edwards, Dylan J., Cortes, Mar, Wortman-Jutt, Susan, Putrino, David, Bikson, Marom, Thickbroom, Gary, Pascual-Leone, Alvaro, Edwards, Dylan J., Cortes, Mar, Wortman-Jutt, Susan, Putrino, David, Bikson, Marom, Thickbroom, Gary, and Pascual-Leone, Alvaro

Abstract

Edwards, D. J., Cortes, M., Wortman-Jutt, S., Putrino, D., Bikson, M., Thickbroom, G., & Pascual-Leone, A. (2017). Transcranial direct current stimulation and sports performance. Frontiers in Human Neuroscience, 11. 1-4. Available here

120. TDCS does not enhance the effects of robot-assisted gait training in patients with subacute stroke

Author

León, Daniel, Cortés, Mar L., Elder, Jessica G., Kumru, Hatice, Laxe, Sara, Edwards, Dylan J., tormos, José M., Bernabéu, Montserrat, Pascual- Leone, Álvaro, León, Daniel, Cortés, Mar L., Elder, Jessica G., Kumru, Hatice, Laxe, Sara, Edwards, Dylan J., tormos, José M., Bernabéu, Montserrat, and Pascual- Leone, Álvaro

Abstract

Leon, D., Cortes, M., Elder, J., Kumru, H., Laxe, S., Edwards, D. J., ... & Pascual-Leone, A. (2017). tDCS does not enhance the effects of robot-assisted gait training in patient with subacute stroke. Restorative Neurology and Neuroscience, 35(4), 377-384. Available here.

121. Neuromeasure: A software package for quantification of cortical motor maps using frameless stereotaxic transcranial magnetic stimulation

Author

Gerber, Michael B., McLean, Alasdair C., Stephen, Samuel J., Chalco, Alex G., Arshad, Usman M., Thickbroom, Gary W., Silverstein, Josh, Tsagaris, K. Zoe, Kuceyeski, Amy, Friel, Kathleen, Santos, Taiza E. G., Edwards, Dylan J., Gerber, Michael B., McLean, Alasdair C., Stephen, Samuel J., Chalco, Alex G., Arshad, Usman M., Thickbroom, Gary W., Silverstein, Josh, Tsagaris, K. Zoe, Kuceyeski, Amy, Friel, Kathleen, Santos, Taiza E. G., and Edwards, Dylan J.

Abstract

Gerber, M. B., McLean, A. C., Stephen, S. J., Chalco, A. G., Arshad, U. M., Thickbroom, G. W., ... Edwards, D. J. (2019). NeuroMeasure: A software package for quantification of cortical motor maps using frameless stereotaxic transcranial magnetic stimulation. Frontiers in Neuroinformatics, 13, Article 23. Available here

123. Intensity dependent effects of transcranial direct current stimulation on corticospinal excitability in chronic spinal cord injury

Author

Murray, Lynda M., Edwards, Dylan J., Ruffini, Giulio, Labar, Douglas, Stampas, Argyrios, Pascual-Leone, Alvaro, Cortes, Mar, Murray, Lynda M., Edwards, Dylan J., Ruffini, Giulio, Labar, Douglas, Stampas, Argyrios, Pascual-Leone, Alvaro, and Cortes, Mar

Abstract

Murray, L.M., Edwards, D.J., Ruffini, G., Labar, D., Stampas, A., Pascual-Leone, A., Cortes, M. (2015). Intensity dependent effects of transcranial direct current stimulation on corticospinal excitability in chronic spinal cord injury in Archives of Physical Medicine and Rehabilitation, 96(4), S114-S121. Available here.

124. Clinical improvement with intensive robot-assisted arm training in chronic stroke is unchanged by supplementary tDCS

Author

Edwards, Dylan J., Cortes, Mar, Rykman-Peltz, Avrielle, Chang, Johanna, Elder, Jessica, Thickbroom, Gary, Mariman, Juan J., Gerber, Linda M., Oromendia, Clara, Krebs, Hermano I., Fregni, Felipe, Volpe, Bruce T., Pascual-Leone, Alvaro, Edwards, Dylan J., Cortes, Mar, Rykman-Peltz, Avrielle, Chang, Johanna, Elder, Jessica, Thickbroom, Gary, Mariman, Juan J., Gerber, Linda M., Oromendia, Clara, Krebs, Hermano I., Fregni, Felipe, Volpe, Bruce T., and Pascual-Leone, Alvaro

Abstract

Edwards, D. J., Cortes, M., Rykman-Peltz, A., Chang, J., Elder, J., Thickbroom, G., ... & Pascual-Leone, A. Clinical improvement with intensive robot-assisted arm training in chronic stroke is unchanged by supplementary tDCS. Restorative Neurology and Neuroscience, 37(2), 167–180. Available here

125. Manipulation of human verticality using high-definition transcranial direct current stimulation

Author

Santos, Taiza E.G., Favoretto, Diandra B., Ghodratti Toostani, Iman, Nascimento, Diego C., Rimoli, Brunna P., Bergonzoni, Eduardo, Lemos, Tenysson Will, Truong, Dennis Q., Delbem, Alexandre C.B., Makkiabadi, Bahador, Moraes, Renato, Louzada, Francisco, Bikson, Marom, Leite, Joao P., Edwards, Dylan J., Santos, Taiza E.G., Favoretto, Diandra B., Ghodratti Toostani, Iman, Nascimento, Diego C., Rimoli, Brunna P., Bergonzoni, Eduardo, Lemos, Tenysson Will, Truong, Dennis Q., Delbem, Alexandre C.B., Makkiabadi, Bahador, Moraes, Renato, Louzada, Francisco, Bikson, Marom, Leite, Joao P., and Edwards, Dylan J.

Abstract

Santos, T. E., Favoretto, D. B., Toostani, I. G., Nascimento, D., Rimoli, B. P., Bergonzoni, E., ... & Moraes, R. (2018). Manipulation of human verticality using high-definition transcranial direct current stimulation. Frontiers in Neurology, 9, 825. Available here.

126. Entropy analysis of high-definition transcranial electric stimulation effects on EEG dynamics

Author

<p>The research was partially supported by CNPq, FAPESP and CAPES from Brazil. Research carried out using the computational resources of the Center for Mathematical Sciences Applied to Industry (CeMEAI) funded by FAPESP (grant 2013/07375-0).</p>, Nascimento, Diego C., Depetri, Gabriela, Stefano, Luiz H., Anacleto, Osvaldo, Leite, Joao P., Edwards, Dylan J., Santos, Taiza E. G., Louzada Neto, Francisco, <p>The research was partially supported by CNPq, FAPESP and CAPES from Brazil. Research carried out using the computational resources of the Center for Mathematical Sciences Applied to Industry (CeMEAI) funded by FAPESP (grant 2013/07375-0).</p>, Nascimento, Diego C., Depetri, Gabriela, Stefano, Luiz H., Anacleto, Osvaldo, Leite, Joao P., Edwards, Dylan J., Santos, Taiza E. G., and Louzada Neto, Francisco

Abstract

Nascimento, D. C., Depetri, G., Stefano, L. H., Anacleto, O., Leite, J. P., Edwards, D. J., ... & Louzada Neto, F. (2019). Entropy analysis of high-definition transcranial electric stimulation effects on EEG dynamics. Brain Sciences, 9(8). Available here.

127. Patient engagement is related to impairment reduction during digital game-based therapy in stroke

Author

Putrino, David F., Zanders, Helma, Hamilton, Taya, Rykman, Avrielle, Lee, Peter, Edwards, Dylan J., Putrino, David F., Zanders, Helma, Hamilton, Taya, Rykman, Avrielle, Lee, Peter, and Edwards, Dylan J.

Abstract

Putrino, D., Zanders, H., Hamilton, T., Rykman, A., Lee, P., & Edwards, D. J. (2017). Patient Engagement Is Related to Impairment Reduction During Digital Game-Based Therapy in Stroke. Games for Health Journal. 6(5), 295-302. Available here.

128. Paired associative stimulation as a tool to assess plasticity enhancers in chronic stroke

Author

<p>Medical Research Foundation</p>, Silverstein, Joshua, Cortes, Mar, Tsagaris, Katherine Z., Climent, Alejandra, Gerber, Linda M., Oromendia, Clara, Fonzetti, Pasquale, Ratan, Rajiv R., Kitago, Tomoko, Iacoboni, Marco, Wu, Allan, Dobkin, Bruce, Edwards, Dylan J., <p>Medical Research Foundation</p>, Silverstein, Joshua, Cortes, Mar, Tsagaris, Katherine Z., Climent, Alejandra, Gerber, Linda M., Oromendia, Clara, Fonzetti, Pasquale, Ratan, Rajiv R., Kitago, Tomoko, Iacoboni, Marco, Wu, Allan, Dobkin, Bruce, and Edwards, Dylan J.

Abstract

Silverstein, J., Cortes, M., Tsagaris, K. Z., Climent, A., Gerber, L. M., Oromendia, C., ... Edwards, D. J. (2019). Paired associative stimulation as a tool to assess plasticity enhancers in chronic stroke. Frontiers In Neuroscience, 13. Available here.

129. Walking improvement in chronic incomplete spinal cord injury with exoskeleton robotic training (WISE): A randomized controlled trial

Author

Ekso Bionics Ltd, Edwards, Dylan J., Forrest, Gail, Cortes, Mar, Weightman, Margaret M., Sadowsky, Cristina, Chang, Shuo-Hsiu, Furman, Kimberly, Bialek, Amy, Prokup, Sara, Carlow, John, VanHiel, Leslie, Kemp, Laura, Musick, Darrell, Campo, Marc, Jayaraman, Arun, Ekso Bionics Ltd, Edwards, Dylan J., Forrest, Gail, Cortes, Mar, Weightman, Margaret M., Sadowsky, Cristina, Chang, Shuo-Hsiu, Furman, Kimberly, Bialek, Amy, Prokup, Sara, Carlow, John, VanHiel, Leslie, Kemp, Laura, Musick, Darrell, Campo, Marc, and Jayaraman, Arun

Abstract

Edwards, D. J., Forrest, G., Cortes, M., Weightman, M. M., Sadowsky, C., Chang, S. H., . . . Jayaraman, A. (2022). Walking improvement in chronic incomplete spinal cord injury with exoskeleton robotic training (WISE): A randomized controlled trial. Spinal Cord. Advance online publication. https://doi.org/10.1038/s41393-022-00751-8

130. Walking improvement in chronic incomplete spinal cord injury with exoskeleton robotic training (WISE): A randomized controlled trial

Author

Ekso Bionics Ltd, Edwards, Dylan J., Forrest, Gail, Cortes, Mar, Weightman, Margaret M., Sadowsky, Cristina, Chang, Shuo-Hsiu, Furman, Kimberly, Bialek, Amy, Prokup, Sara, Carlow, John, VanHiel, Leslie, Kemp, Laura, Musick, Darrell, Campo, Marc, Jayaraman, Arun, Ekso Bionics Ltd, Edwards, Dylan J., Forrest, Gail, Cortes, Mar, Weightman, Margaret M., Sadowsky, Cristina, Chang, Shuo-Hsiu, Furman, Kimberly, Bialek, Amy, Prokup, Sara, Carlow, John, VanHiel, Leslie, Kemp, Laura, Musick, Darrell, Campo, Marc, and Jayaraman, Arun

Abstract

Edwards, D. J., Forrest, G., Cortes, M., Weightman, M. M., Sadowsky, C., Chang, S. H., . . . Jayaraman, A. (2022). Walking improvement in chronic incomplete spinal cord injury with exoskeleton robotic training (WISE): A randomized controlled trial. Spinal Cord. Advance online publication. https://doi.org/10.1038/s41393-022-00751-8

131. TMS assessment of corticospinal tract integrity after stroke: broadening the concept to inform neurorehabilitation prescription.

Author

Kumar S, Ferraro M, Nguyen L, Cao N, Ung N, Jose JS, Weidenauer C, Edwards DJ, and Mayer NH

Abstract

Upper limb actions require intersegmental coordination of the scapula, shoulders, elbows, forearms, wrists, and hand muscles. Stroke hemiparesis, presenting as an impairment of an intersegmentally coordinated voluntary movement, is associated with altered integrity of corticospinal tract (CST) transmission from the motor cortex (M1) to muscles. Motor evoked potentials (MEPs) elicited by M1 transcranial magnetic stimulation (TMS) of "at rest" muscles, or as a backup, during muscle contraction have been used to identify CST integrity and predict the outcome after hemiparesis, under the implicit assumption that MEPs present in only one or two muscles are manifest surrogates of CST integrity for other muscles of the upper limbs. This study presents a method for applying TMS during motor tasks that involve proximal and distal muscles. It focuses on evaluating multi-muscle electromyography (EMG) and MEPs across all task-relevant limb segments. Protocols are presented for assessing voluntary motor behavior in individuals with hemiparetic stroke using isometric, unimanual, bimanual, and "REST" conditions that broaden the concept of the degree of CST integrity in order to inform clinical prescription for neurorehabilitation and distinguish its potential as a prognostic tool. Data describing the recordings of multi-muscle transcranial magnetic stimulation induced motor evoked potentials (TMS-MEP) will be presented in a case of subacute hemiparetic stroke to elucidate our perspective., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Kumar, Ferraro, Nguyen, Cao, Ung, Jose, Weidenauer, Edwards and Mayer.)

Published
2024
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132. Graviceptive neglect induced by HD-tDCS of the right or left temporoparietal junction: A within-person randomized trial in healthy adults.

Author

Rimoli BP, Favoretto DB, Santos LRA, Nascimento DC, Weber KT, Louzada F, Leite JP, Edwards DJ, and Edwards TGS

Abstract

Competing Interests: Author disclosure statement None of the authors has any financial or other relationship(s) that could be considered a conflict of interest concerning the content of this article.

Published
2024
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133. Electric Field Navigated 1-Hz rTMS for Poststroke Motor Recovery: The E-FIT Randomized Controlled Trial.

Author

Edwards DJ, Liu CY, Dunning K, Fregni F, Laine J, Leiby BE, Rogers LM, and Harvey RL

Subjects
Humans, Quality of Life, Bayes Theorem, Transcranial Magnetic Stimulation methods, Treatment Outcome, Upper Extremity, Recovery of Function, Stroke Rehabilitation methods, Stroke complications, Stroke therapy
Abstract

Background: To determine if low-frequency repetitive transcranial magnetic stimulation targeting the primary motor cortex contralateral (M1 CL ) to the affected corticospinal tract in patients with hemiparetic stroke augments intensive training-related clinical improvement; an extension of the NICHE trial (Navigated Inhibitory rTMS to Contralesional Hemisphere Trial) using an alternative sham coil., Methods: The present E-FIT trial (Electric Field Navigated 1Hz rTMS for Post-stroke Motor Recovery Trial) included 5 of 12 NICHE trial outpatient US rehabilitation centers. The stimulation protocol remained identical (1 Hz repetitive transcranial magnetic stimulation, M1 CL , preceding 60-minute therapy, 18 sessions/6 wks; parallel arm randomized clinical trial). The sham coil appearance mimicked the active coil but without the weak electric field in the NICHE trial sham coil. Outcomes measured 1 week, and 1, 3, and 6 months after the end of treatment included the following: upper extremity Fugl-Meyer (primary, 6 months after end of treatment), Action Research Arm Test, National Institutes of Health Stroke Scale, quality of life (EQ-5D), and safety., Results: Of 60 participants randomized, 58 completed treatment and were included for analysis. Bayesian analysis of combined data from the E-FIT and the NICHE trials indicated that active treatment was not superior to sham at the primary end point (posterior mean odds ratio of 1.94 [96% credible interval of 0.61-4.80]). For the E-FIT intent-to-treat population, upper extremity Fugl-Meyer improvement ≥5 pts occurred in 60% (18/30) active group and 50% (14/28) sham group. Participants enrolled 3 to 6 months following stroke had a 67% (31%-91% CI) response rate in the active group at the 6-month end point versus 50% in the sham group (21.5%-78.5% CI). There were significant improvements from baseline to 6 months for both active and sham groups in upper extremity Fugl-Meyer, Action Research Arm Test, and EQ-5D ( P <0.05). Improvement in National Institutes of Health Stroke Scale was observed only in the active group ( P =0.004). Ten serious unrelated adverse events occurred (4 active group, 6 sham group, P =0.72)., Conclusions: Intensive motor rehabilitation 3 to 12 months after stroke improved clinical impairment, function, and quality of life; however, 1 Hz-repetitive transcranial magnetic stimulation was not an effective treatment adjuvant in the present sample population with mixed lesion location and extent., Registration: URL: https://www., Clinicaltrials: gov; Unique identifier: NCT03010462., Competing Interests: Disclosures Dr Laine is employed and reports stock holdings in Nexstim Corporation. Dr Fregni reports compensation from Neurive for consultant services and research funding from National Institutes of Health. Dr Rogers reports grants from Nexstim. Dr Harvey reports compensation from Neuro-Innovators LLC for consultant services.

Published
2023
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134. Middle cerebral artery blood flow stability in response to high-definition transcranial electrical stimulation: A randomized sham-controlled clinical trial.

Author

Stefano LHS, Favoretto DB, Nascimento DC, Santos LRA, Louzada F, Bikson M, Leite JP, Pontes-Neto OM, Edwards DJ, and Edwards TGS

Subjects
Adult, Brain physiology, Electric Stimulation, Female, Hemodynamics, Humans, Male, Middle Cerebral Artery diagnostic imaging, Transcranial Direct Current Stimulation methods
Abstract

Since neuronal activity is coupled with neurovascular activity, we aimed to analyze the cerebral blood flow hemodynamics during and following high-definition transcranial direct current stimulation (HD-tDCS). We assessed the mean middle cerebral artery blood flow velocity (MCA-BFv) bilaterally using transcranial doppler ultrasound, during and after HD-tDCS, in eleven right-handed healthy adult participants (6 women, 5 men; mean age 31 ± 5.6 years old), with no evidence of brain or cardiovascular dysfunction. The HD-tDCS electrode montage was centered over the right temporo-parietal junction. The stimulation protocol comprised 3 blocks of 2 min at each current intensity (1, 2, and 3 mA) and an inter-stimulus interval of 5 min between blocks. Participants received three electrical stimulation conditions (anode center, cathode center, and sham) on three different days, with an interval of at least 24 h. Stimulation was well tolerated across HD-tDCS conditions tested, and the volunteers reported no significant discomfort related to stimulation. There was no significant difference in the right or the left MCA-BFv during or after the stimulation protocol across all stimulation conditions. We conclude that at a range of intensities, vascular reaction assessed using middle cerebral artery blood flow is not significantly altered during or after HD-tDCS both locally and remotely, which provides further evidence for the safety of HD-tDCS., Competing Interests: Declaration of interest The City University of New York has inventions on tES with MB as inventor. MB has equity in Soterix Medical and serves on the scientific advisory boards or has grants from Mecta, Halo Neuroscience, Boston Scientific and GlaxoSmithKline. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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135. Walking improvement in chronic incomplete spinal cord injury with exoskeleton robotic training (WISE): a randomized controlled trial.

Author

Edwards DJ, Forrest G, Cortes M, Weightman MM, Sadowsky C, Chang SH, Furman K, Bialek A, Prokup S, Carlow J, VanHiel L, Kemp L, Musick D, Campo M, and Jayaraman A

Subjects
Exercise Therapy, Gait, Humans, Walking, Exoskeleton Device, Robotic Surgical Procedures, Robotics, Spinal Cord Injuries complications
Abstract

Study Design: Clinical trial., Objective: To demonstrate that a 12-week exoskeleton-based robotic gait training regimen can lead to a clinically meaningful improvement in independent gait speed, in community-dwelling participants with chronic incomplete spinal cord injury (iSCI)., Setting: Outpatient rehabilitation or research institute., Methods: Multi-site (United States), randomized, controlled trial, comparing exoskeleton gait training (12 weeks, 36 sessions) with standard gait training or no gait training (2:2:1 randomization) in chronic iSCI (>1 year post injury, AIS-C, and D), with residual stepping ability. The primary outcome measure was change in robot-independent gait speed (10-meter walk test, 10MWT) post 12-week intervention. Secondary outcomes included: Timed-Up-and-Go (TUG), 6-min walk test (6MWT), Walking Index for Spinal Cord Injury (WISCI-II) (assistance and devices), and treating therapist NASA-Task Load Index., Results: Twenty-five participants completed the assessments and training as assigned (9 Ekso, 10 Active Control, 6 Passive Control). Mean change in gait speed at the primary endpoint was not statistically significant. The proportion of participants with improvement in clinical ambulation category from home to community speed post-intervention was greatest in the Ekso group (>1/2 Ekso, 1/3 Active Control, 0 Passive Control, p < 0.05). Improvements in secondary outcome measures were not significant., Conclusions: Twelve weeks of exoskeleton robotic training in chronic SCI participants with independent stepping ability at baseline can improve clinical ambulatory status. Improvements in raw gait speed were not statistically significant at the group level, which may guide future trials for participant inclusion criteria. While generally safe and tolerable, larger gains in ambulation might be associated with higher risk for non-serious adverse events., (© 2022. The Author(s).)

Published
2022
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136. An observational report of intensive robotic and manual gait training in sub-acute stroke.

Author

Conesa L, Costa Ú, Morales E, Edwards DJ, Cortes M, León D, Bernabeu M, and Medina J

Subjects
Female, Gait, Gait Disorders, Neurologic physiopathology, Humans, Male, Middle Aged, Recovery of Function, Robotics instrumentation, Robotics methods, Stroke physiopathology, Exercise Therapy instrumentation, Exercise Therapy methods, Gait Disorders, Neurologic rehabilitation, Stroke Rehabilitation
Abstract

Background: The use of automated electromechanical devices for gait training in neurological patients is increasing, yet the functional outcomes of well-defined training programs using these devices and the characteristics of patients that would most benefit are seldom reported in the literature. In an observational study of functional outcomes, we aimed to provide a benchmark for expected change in gait function in early stroke patients, from an intensive inpatient rehabilitation program including both robotic and manual gait training., Methods: We followed 103 sub-acute stroke patients who met the clinical inclusion criteria for Body Weight Supported Robotic Gait Training (BWSRGT). Patients completed an intensive 8-week gait-training program comprising robotic gait training (weeks 0-4) followed by manual gait training (weeks 4-8). A change in clinical function was determined by the following assessments taken at 0, 4 and 8 weeks (baseline, mid-point and end-point respectively): Functional Ambulatory Categories (FAC), 10 m Walking Test (10 MWT), and Tinetti Gait and Balance Scales., Results: Over half of the patients made a clinically meaningful improvement on the Tinetti Gait Scale (> 3 points) and Tinetti Balance Scale (> 5 points), while over 80% of the patients increased at least 1 point on the FAC scale (0-5) and improved walking speed by more than 0.2 m/s. Patients responded positively in gait function regardless of variables gender, age, aetiology (hemorrhagic/ischemic), and affected hemisphere. The most robust and significant change was observed for patients in the FAC categories two and three. The therapy was well tolerated and no patients withdrew for factors related to the type or intensity of training., Conclusions: Eight-weeks of intensive rehabilitation including robotic and manual gait training was well tolerated by early stroke patients, and was associated with significant gains in function. Patients with mid-level gait dysfunction showed the most robust improvement following robotic training.

Published
2012
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