Title :
A Transcranial Magnetic Stimulator Inducing Near-Rectangular Pulses With Controllable Pulse Width (cTMS)
Author :
Peterchev, Angel V. ; Jalinous, Reza ; Lisanby, Sarah H.
Author_Institution :
Columbia Univ., New York
Abstract :
A novel transcranial magnetic stimulation (TMS) device with controllable pulse width (PW) and near-rectangular pulse shape (cTMS) is described. The cTMS device uses an insulated gate bipolar transistor (IGBT) with appropriate snubbers to switch coil currents up to 6 kA, enabling PW control from 5 mus to over 100 mus. The near-rectangular induced electric field pulses use 2%-34% less energy and generate 67%-72% less coil heating compared to matched conventional cosine pulses. CTMS is used to stimulate rhesus monkey motor cortex in vivo with PWs of 20 to 100 mus, demonstrating the expected decrease of threshold pulse amplitude with increasing PW. The technological solutions used in the cTMS prototype can expand functionality, and reduce power consumption and coil heating in TMS, enhancing its research and therapeutic applications.
Keywords :
bioelectric potentials; biomagnetism; biomedical electronics; biomedical equipment; neuromuscular stimulation; power semiconductor switches; pulse shaping circuits; IGBT switches; bioelectric potentials; biomagnetics; biomembranes; coil heating; controllable pulse width; energy measurement; insulated gate bipolar transistor; matched conventional cosine pulses; near-rectangular induced electric field pulses; near-rectangular pulses; neuromuscular stimulation; power consumption; pulse shaping circuits; rhesus monkey motor cortex; snubbers; therapeutic application; time 20 mus to 100 mus; transcranial magnetic stimulator; Coils; In vivo; Insulated gate bipolar transistors; Magnetic stimulation; Pulse generation; Pulse shaping methods; Shape control; Snubbers; Space vector pulse width modulation; Switches; Bioelectric potentials; Transcranial magnetic stimulation (TMS); bioelectric potentials; biomagnetics; biomembranes; electric fields; energy measurement; heating; insulated gate bipolar transistors; magnetic fields; neuromuscular stimulation; pulse generation; pulse power systems; pulse shaping circuits; pulse width (PW); transcranial magnetic stimulation (TMS); Equipment Design; Equipment Failure Analysis; Signal Processing, Computer-Assisted; Transcranial Magnetic Stimulation; Transducers;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2007.900540
