Focused ultrasound brain stimulation to anesthetized rats induces long-term changes in somatosensory evoked potentials.

Low-intensity transcranial focused ultrasound (FUS) has emerged as a non-invasive brain stimulation modality that can reach deep brain areas with high spatial specificity. Previous studies have identified transient effects of FUS on the brain excitability and accompanying physiological responses. Yet the presence of long-lasting effects of FUS, which extend on the order of half an hour or more, has not been probed. We transcranially applied FUS to the somatosensory areas of the anesthetized rats for 10 min at a low duty cycle (5%) and intensity, far below the level that could alter the tissue temperature. Concurrently, we measured electroencephalographic (EEG) somatosensory evoked potentials (SEP) induced by the unilateral electrical stimulation of the hind limb before and after the sonication. Compared to the control sham condition that did not involve sonication, differential SEP features were evident and persisted beyond 35 min after the administration of FUS. The presence of this non-transient neuromodulatory effect may provide early evidence that FUS-mediated brain stimulation has the potential to induce neuroplasticity.

Introduction

Purpose Examing the possibility of the effect of neuromodulatory FUS to last more than 30 mins

Study Objective neuromodulatory investigation

Animal model / Human subject 11 male Sprague-Dawley rats

Disease model have underwent surgery for pedestal (Plastic one, Roanoke, VA) implant using a cyanoacrylate adhesive (Loctite 4541; Loc- tite Corporation, Rocky Hill, CT) with two screws to anchor the pedestal to the skull.

MRI or image guidance method stereotactic

Targeted brain region(s) Somatosensory Area

Target coordinates Did not specifically mentioned

Cargo name and characteristics did not have one

Outcomes and Safety

Summary of Outcomes The study shows that FUS-mediated neuromodulatory effects could last more than 35 mins, suggested a non-transient, extended scale of time of FUS effectiveness, thus, might be able to induce initial LTD/LTP-like synaptic behavior. Moreover, the SEP acquired at 35 mins in the sham condition resembled the SEP acquired at 15 mins after the sonication. If it is not coincidental, the researchers suggests that iy may possibly suggesting that the FUS expedited the SEP features to appear 20 mins early

Duration of biological effect The SEP persisted even more than 35 mins after the sonication.

Safety-related matter Heating of the tissue caused by the FUS application: negligible, the rise of temperature is 0.093celcius

Brain Region

Ultrasound Parameters

Ultrasound instrument self-assembled FUS equipment

FUS Frequency fundamental ultrasound frequency: 650kHz

FUS Intensity ISPPA: 4.2W/cm2 ISPTA: 210mW/cm2

FUS Pressure not mentioned

FUS Mode pulsed

Pulse duration 0.5ms

Duration of a single FUS session 10 mins

Focal Characteristics FWHM: A fundamental ultrasound frequency of 650 kHz was used and the acoustic focus was formed 10.5 mm away from the exit plane of the transducer. The size of the focus was 7.5 mm in length and 2.5 mm in diameter

Treatment frequency ?? Single??

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