Yiftach Roth1, Yechiel Levkovitz2, Gaby S Pell1, Moria Ankry3, Abraham Zangen4. 1. Department of Life Sciences, Ben-Gurion University, Beer Sheva, Israel; Brainsway Ltd, Israel. 2. The Emotion-Cognition Research Center, Shalvata Mental Health Care Center, Hod-Hasharon, Israel(1); Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel. 3. Brainsway Ltd, Israel. 4. Department of Life Sciences, Ben-Gurion University, Beer Sheva, Israel; Brainsway Ltd, Israel. Electronic address: azangen@bgu.ac.il.
Abstract
BACKGROUND: Currently available TMS stimulators have a single channel operating a single coil. OBJECTIVE: To outline and present physical and physiological benefits of a novel convenient multi-channel stimulator, comprising five channels, where the stimulation parameters of each channel are independently controllable. METHODS: Simultaneous and sequential operation of various channels was tested in healthy volunteers. Paired pulses schemes with various inter-stimulus intervals (ISIs) were studied for the hand APB and the leg AH muscles. Energy consumption and coil heating rates with simultaneous operation of 4 channels was compared to a single figure-8 coil. RESULTS: Repetitive operation of separate channels with different stimulation parameters is demonstrated. The operations of various channels can be combined simultaneously or sequentially to induce multiple pulses with ISIs of μs resolution. A universal pattern of inhibition and facilitation as a function of ISI was found, with some dependence on coils configurations and on pulse widths. A strong dependence of the induced inhibition on the relative orientation of the conditioning and test pulses was discovered. The ability of this method to induce inhibition in shallow brain region but not in deeper region, thus focusing the effect in the deep brain region, is demonstrated. A significant saving in energy consumption and a reduction in coil heating were demonstrated for several channels operated simultaneously compared to a standard single channel figure-8 coil. CONCLUSIONS: The multi-channel stimulator enables the synchronized induction of different excitability modulations to different brain regions using different stimulation patterns in various channels. Multiple pulses operation with coils with various depth profiles can increase the focality of TMS effect in deep brain regions.
BACKGROUND: Currently available TMS stimulators have a single channel operating a single coil. OBJECTIVE: To outline and present physical and physiological benefits of a novel convenient multi-channel stimulator, comprising five channels, where the stimulation parameters of each channel are independently controllable. METHODS: Simultaneous and sequential operation of various channels was tested in healthy volunteers. Paired pulses schemes with various inter-stimulus intervals (ISIs) were studied for the hand APB and the leg AH muscles. Energy consumption and coil heating rates with simultaneous operation of 4 channels was compared to a single figure-8 coil. RESULTS: Repetitive operation of separate channels with different stimulation parameters is demonstrated. The operations of various channels can be combined simultaneously or sequentially to induce multiple pulses with ISIs of μs resolution. A universal pattern of inhibition and facilitation as a function of ISI was found, with some dependence on coils configurations and on pulse widths. A strong dependence of the induced inhibition on the relative orientation of the conditioning and test pulses was discovered. The ability of this method to induce inhibition in shallow brain region but not in deeper region, thus focusing the effect in the deep brain region, is demonstrated. A significant saving in energy consumption and a reduction in coil heating were demonstrated for several channels operated simultaneously compared to a standard single channel figure-8 coil. CONCLUSIONS: The multi-channel stimulator enables the synchronized induction of different excitability modulations to different brain regions using different stimulation patterns in various channels. Multiple pulses operation with coils with various depth profiles can increase the focality of TMS effect in deep brain regions.
Authors: Simone Rossi; Andrea Antal; Sven Bestmann; Marom Bikson; Carmen Brewer; Jürgen Brockmöller; Linda L Carpenter; Massimo Cincotta; Robert Chen; Jeff D Daskalakis; Vincenzo Di Lazzaro; Michael D Fox; Mark S George; Donald Gilbert; Vasilios K Kimiskidis; Giacomo Koch; Risto J Ilmoniemi; Jean Pascal Lefaucheur; Letizia Leocani; Sarah H Lisanby; Carlo Miniussi; Frank Padberg; Alvaro Pascual-Leone; Walter Paulus; Angel V Peterchev; Angelo Quartarone; Alexander Rotenberg; John Rothwell; Paolo M Rossini; Emiliano Santarnecchi; Mouhsin M Shafi; Hartwig R Siebner; Yoshikatzu Ugawa; Eric M Wassermann; Abraham Zangen; Ulf Ziemann; Mark Hallett Journal: Clin Neurophysiol Date: 2020-10-24 Impact factor: 4.861