Transcranial magnetic stimulation elicits coupled neural and hemodynamic consequences.
Citation Info
EA Allen*, BN Pasley*, T Duong and RD Freeman (*Equal contributions)
Transcranial magnetic stimulation elicits coupled neural and hemodynamic consequences.
Science. 317: 1918-1921
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Abstract
Transcranial magnetic stimulation (TMS) is an increasingly common technique used
to selectively modify neural processing. However, application of TMS is limited
by uncertainty concerning its physiological effects. We applied TMS to the cat
visual cortex and evaluated the neural and hemodynamic consequences. Short TMS
pulse trains elicited initial activation (~1 minute) and prolonged suppression
(5 to 10 minutes) of neural responses. Furthermore, TMS disrupted the temporal
structure of activity by altering phase relationships between neural signals.
Despite the complexity of this response, neural changes were faithfully reflected
in hemodynamic signals; quantitative coupling was present over a range of stimulation
parameters. These results demonstrate long-lasting neural responses to TMS and
support the use of hemodynamic-based neuroimaging to effectively monitor these
changes over time.