Transcranial Focused Ultrasound Enhances Sensory Discrimination Capability through Somatosensory Cortical Excitation.
Authors: Liu C, Yu K, Niu X, He B
Low-intensity transcranial focused ultrasound (tFUS) has emerged as a non-invasive brain neuromodulation tool with high spatial specificity. Previous studies attributed tFUS-enhanced sensory performance to the ultrasound-induced inhibitory neural effects. However, to date there is no direct evidence validating the neural mechanism underlying ultrasound-mediated somatosensory enhancement. In this study, healthy human subjects (N = 9) were asked to perform tactile vibration frequency discrimination tasks while tFUS was directed onto the primary somatosensory cortex. During this task, we simultaneously recorded 64-channel electroencephalography (EEG) signals and investigated the brain responses at both EEG sensors and source domains by means of electrophysiological source imaging (ESI). The behavioral results indicated that the subjects' discrimination ability was improved by tFUS with an increased percentage of correct responses. EEG and ESI results revealed that tFUS neuromodulation was able to improve sensory discrimination capability through excitatory effects at the targeted sensory cortex.
Introduction
Purpose
Transcranial ultrasound stimulation
Study Objective
To determine whether low-intensity transcranial focused ultrasound applied to the primary somatosensory cortex enhances tactile vibration frequency discrimination in humans and to characterize the underlying neural mechanism using EEG and electrophysiological source imaging.
Animal model / Human subject
Human, male and female, 35.77±14.06 years
Disease model
healthy
MRI or image guidance method
3-T MRI (MAGNETOM Verio, Siemens, Malvern, PA, USA)
Targeted brain region(s)
Primary Somatosensory Cortex ( Hemisphere)
Outcomes and Safety
Summary of Outcomes
Low-intensity transcranial focused ultrasound targeting primary somatosensory cortex enhanced human tactile vibration frequency discrimination and produced excitatory neural effects at the targeted sensory cortex.
Duration of biological effect
Not reported
Safety-related matter
No safety issues or adverse effects were reported or mentioned.
Brain Region
Ultrasound Parameters
Ultrasound instrument
single element focused transducer (AT31529, Blatek Industries, Inc., State College, PA, USA)
FUS Frequency
500 kHz
FUS Intensity
ISPPA of scalp: 5.64 W/cm^2, ISPTA of scalp: 338.28 mW/cm^2, ISPPA of region: 1.10 W/cm^2, ISPTA of region: 67.13 mW/cm^2
FUS Pressure
scalp: 780.4 kPa, target: 286.0 kPa
FUS Mode
pulsed
Pulse duration
200 µs
Duration of a single FUS session
500 ms
Focal Characteristics
focal length: 38.1 mm
Treatment frequency
multiple sonications per session
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