Τρίτη 12 Σεπτεμβρίου 2017

FV 5 Quadri-pulse theta burst stimulation using ultra-high frequency bursts at I-wave periodicity induces direction dependent bi-directional plasticity in human primary motor cortex

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Publication date: October 2017
Source:Clinical Neurophysiology, Volume 128, Issue 10
Author(s): N. Jung, B. Gleich, N. Gattinger, C. Höss, C. Haug, H. Siebner, V. Mall
Background/QuestionLong-term potentiation (LTP) and long-term depression (LTD) are forms of cortical plasticity and are considered to be synaptic processes underlying learning and memory. Patterned transcranial magnetic stimulation (TMS) such as theta burst stimulation (TBS) or quadri-pulse stimulation (QPS) can induce LTP-like and LTD-like effects in human primary motor cortex (M1), displayed by an increase or decrease in cortico-spinal excitability. Here, we aimed to test the plasticity-inducing capabilities of a novel protocol that merged TBS and QPS – so called quadri-pulse theta burst stimulation (qTBS) – at interstimulus intervals (ISI) that mimic I-wave periodicity (i.e. 1.5ms/666Hz) with an effective anterior-posterior (AP) and posterior-anterior (PA) current flow in the brain.MethodsWe investigated healthy volunteers (n=12 per protocol) with 360 bursts of qTBS that was continuously given to M1 (i.e. 1440 full-sine pulses). QTBS consisted of repeated bursts of four biphasic TMS pulses (duration: 160μs) separated by ISI of 1.5ms (666Hz) and inter-burst intervals of 200ms. (5Hz). TMS was applied by a custom-made magnetic stimulator (IMETUM, Munich). Resting motor threshold (rMT), and motor evoked potential (MEP) amplitudes with stimulus intensities to target amplitudes of 1mv (SI1mV) were measured before (Pre) qTBS, directly after (Post1), after 15min (Post2), after 30min (Post3) and after 60min (Post4).ResultsPA-qTBS at 666Hz caused a decrease in mean MEP amplitudes, whereas AP-qTBS at 666Hz induced an increase in mean MEP amplitudes outlasting for approximately 60min. As expected, baseline data of rMT prior to qTBS differed significantly, with higher thresholds in AP direction.Discussion/ConclusionContinuous qTBS at 666Hz can induce lasting changes in cortico-spinal excitability. Induced current direction in the brain appears to be relevant when qTBS targets I-wave periodicity, corroborating that high-fidelity spike timing mechanisms are critical for inducing bi-directional plasticity in human M1.



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