Figure - available from: Scientific Reports
This content is subject to copyright. Terms and conditions apply.
Supplementary motor area TUS effects on seed-based functional connectivity. The figure highlights the effects of SMA TUS for each monkey by showing the significant voxels found over-time (lines Z) and the clusters on the basis of the PCA/HCPC model to identify the shape of the time-courses (lines K). IPL: inferior parietal lobule; S1: primary sensory cortex.

Supplementary motor area TUS effects on seed-based functional connectivity. The figure highlights the effects of SMA TUS for each monkey by showing the significant voxels found over-time (lines Z) and the clusters on the basis of the PCA/HCPC model to identify the shape of the time-courses (lines K). IPL: inferior parietal lobule; S1: primary sensory cortex.

Source publication
Article
Full-text available
Low-frequency transcranial ultrasound stimulation (TUS) allows to alter brain functioning with a high spatial resolution and to reach deep targets. However, the time-course of TUS effects remains largely unknown. We applied TUS on three brain targets for three different monkeys: the anterior medial prefrontal cortex, the supplementary motor area an...

Similar publications

Preprint
Full-text available
This research investigates whether ventricular-focused ultrasound stimulation (ventricle-FUS) can serve as an effective control in studies using transcranial FUS, a non-invasive technology for brain modulation. FUS has notable potential for therapeutic applications but requires a robust control to accurately assess its effects. We evaluated the eff...