BACKGROUND AND PURPOSE: Neuroplastic alterations of cortical excitability and activity represent the likely neurophysiological foundation of learning and memory formation. Beyond their induction, alterations of these processes by subsequent modification of cortical activity, termed metaplasticity, came into the focus of interest recently. Animal slice experiments demonstrated that neuroplastic excitability enhancements, or diminutions, can be abolished by consecutive subthreshold stimulation. These processes, termed de-potentiation, and de-depression, have so far not been explored in humans. METHODS: We combined neuroplasticity induction by transcranial direct current stimulation (tDCS) applied to the hand area of primary motor cortex (M1), which can be used to induce long-lasting excitability enhancements or reductions, dependent on the polarity of stimulation, with short-lasting voluntary muscle contraction (VMC), which itself does not induce plastic cortical excitability changes. Corticospinal and intra-cortical M1 excitability were monitored by different transcranial magnetic stimulation (TMS) protocols. RESULTS: VMC reduced or tended to reverse the anodal tDCS-driven motor cortical excitability enhancement and the cathodal tDCS-induced excitability diminution. Our findings thus demonstrate de-potentiation- and de-depression-like phenomena at the system level in the human motor cortex. CONCLUSION: This neurophysiological study may contribute to a better understanding of the balance between induction and reversal of plasticity associated with motor learning and rehabilitation processes.
BACKGROUND AND PURPOSE:Neuroplastic alterations of cortical excitability and activity represent the likely neurophysiological foundation of learning and memory formation. Beyond their induction, alterations of these processes by subsequent modification of cortical activity, termed metaplasticity, came into the focus of interest recently. Animal slice experiments demonstrated that neuroplastic excitability enhancements, or diminutions, can be abolished by consecutive subthreshold stimulation. These processes, termed de-potentiation, and de-depression, have so far not been explored in humans. METHODS: We combined neuroplasticity induction by transcranial direct current stimulation (tDCS) applied to the hand area of primary motor cortex (M1), which can be used to induce long-lasting excitability enhancements or reductions, dependent on the polarity of stimulation, with short-lasting voluntary muscle contraction (VMC), which itself does not induce plastic cortical excitability changes. Corticospinal and intra-cortical M1 excitability were monitored by different transcranial magnetic stimulation (TMS) protocols. RESULTS:VMC reduced or tended to reverse the anodal tDCS-driven motor cortical excitability enhancement and the cathodal tDCS-induced excitability diminution. Our findings thus demonstrate de-potentiation- and de-depression-like phenomena at the system level in the human motor cortex. CONCLUSION: This neurophysiological study may contribute to a better understanding of the balance between induction and reversal of plasticity associated with motor learning and rehabilitation processes.
Authors: Hamed Ekhtiari; Hosna Tavakoli; Giovanni Addolorato; Chris Baeken; Antonello Bonci; Salvatore Campanella; Luis Castelo-Branco; Gaëlle Challet-Bouju; Vincent P Clark; Eric Claus; Pinhas N Dannon; Alessandra Del Felice; Tess den Uyl; Marco Diana; Massimo di Giannantonio; John R Fedota; Paul Fitzgerald; Luigi Gallimberti; Marie Grall-Bronnec; Sarah C Herremans; Martin J Herrmann; Asif Jamil; Eman Khedr; Christos Kouimtsidis; Karolina Kozak; Evgeny Krupitsky; Claus Lamm; William V Lechner; Graziella Madeo; Nastaran Malmir; Giovanni Martinotti; William M McDonald; Chiara Montemitro; Ester M Nakamura-Palacios; Mohammad Nasehi; Xavier Noël; Masoud Nosratabadi; Martin Paulus; Mauro Pettorruso; Basant Pradhan; Samir K Praharaj; Haley Rafferty; Gregory Sahlem; Betty Jo Salmeron; Anne Sauvaget; Renée S Schluter; Carmen Sergiou; Alireza Shahbabaie; Christine Sheffer; Primavera A Spagnolo; Vaughn R Steele; Ti-Fei Yuan; Josanne D M van Dongen; Vincent Van Waes; Ganesan Venkatasubramanian; Antonio Verdejo-García; Ilse Verveer; Justine W Welsh; Michael J Wesley; Katie Witkiewitz; Fatemeh Yavari; Mohammad-Reza Zarrindast; Laurie Zawertailo; Xiaochu Zhang; Yoon-Hee Cha; Tony P George; Flavio Frohlich; Anna E Goudriaan; Shirley Fecteau; Stacey B Daughters; Elliot A Stein; Felipe Fregni; Michael A Nitsche; Abraham Zangen; Marom Bikson; Colleen A Hanlon Journal: Neurosci Biobehav Rev Date: 2019-07-02 Impact factor: 8.989
Authors: A J Woods; A Antal; M Bikson; P S Boggio; A R Brunoni; P Celnik; L G Cohen; F Fregni; C S Herrmann; E S Kappenman; H Knotkova; D Liebetanz; C Miniussi; P C Miranda; W Paulus; A Priori; D Reato; C Stagg; N Wenderoth; M A Nitsche Journal: Clin Neurophysiol Date: 2015-11-22 Impact factor: 3.708
Authors: Fuad Ahmad Hazime; Ronaldo Alves da Cunha; Renato Rozenblit Soliaman; Ana Clara Bezerra Romancini; Alberto de Castro Pochini; Benno Ejnisman; Abrahão Fontes Baptista Journal: Int J Sports Phys Ther Date: 2017-06