Quadro-pulse Stimulation is More Effective Than Paired-pulse Stimulation for Plasticity Induction of the Human Motor Cortex

Overview

Journal Clin Neurophysiol

Publisher Elsevier

Specialties Neurology
Psychiatry

Date 2007 Nov 6

PMID 17977788

Citations 36

Authors

Masashi Hamada

Ritsuko Hanajima

Yasuo Terao

Noritoshi Arai

Toshiaki Furubayashi

Satomi Inomata-Terada

Akihiro Yugeta

Hideyuki Matsumoto

Yuichiro Shirota

Yoshikazu Ugawa

Affiliations

Soon will be listed here.

Abstract

Objective: Repetitive paired-pulse transcranial magnetic stimulation (TMS) at I-wave periodicity has been shown to induce a motor-evoked potential (MEP) facilitation. We hypothesized that a greater enhancement of motor cortical excitability is provoked by increasing the number of pulses per train beyond those by paired-pulse stimulation (PPS).

Methods: We explored motor cortical excitability changes induced by repetitive application of trains of four monophasic magnetic pulses (quadro-pulse stimulation: QPS) at 1.5-ms intervals, repeated every 5s over the motor cortex projecting to the hand muscles. The aftereffects of QPS were evaluated with MEPs to a single-pulse TMS, motor threshold (MT), and responses to brain-stem stimulation. These effects were compared to those after PPS. To evaluate the QPS safety, we also studied the spread of excitation and after discharge using surface electromyograms (EMGs) of hand and arm muscles.

Results: Sizes of MEPs from the hand muscle were enhanced for longer than 75min after QPS; they reverted to the baseline at 90min. Responses to brain-stem stimulation from the hand muscle and cortical MEPs from the forearm muscle were unchanged after QPS over the hand motor area. MT was unaffected by QPS. No spreads of excitation were detected after QPS. The appearance rate of after discharges during QPS was not different from that during sham stimulation.

Conclusions: Results show that QPS can safely induce long-lasting, topographically specific enhancement of motor cortical excitability.

Significance: QPS is more effective than PPS for inducing motor cortical plasticity.

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Osada T, Konishi S Psychiatry Clin Neurosci. 2024; 78(5):273-281.

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Pharmacological adjuncts and transcranial magnetic stimulation-induced synaptic plasticity: a systematic review.

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Jiang J, Wan K, Liu Y, Tang Y, Tang W, Liu J Neural Plast. 2023; 2023:2741287.

PMID: 38099081 PMC: 10721349. DOI: 10.1155/2023/2741287.

TMS and neocortical neurons: an integrative review on the micro-macro connection in neuroplasticity.

Tian D, Izumi S Jpn J Compr Rehabil Sci. 2023; 14:1-9.

PMID: 37859791 PMC: 10585015. DOI: 10.11336/jjcrs.14.1.