View clinical trials related to Focused Ultrasound.
Filter by:Transcranial focused ultrasound (tFUS) can be used as a non-invasive brain neuromodulation technique. Low-intensity focused ultrasound has been demonstrated to be safe and have neuromodulatory effects on the cerebral cortex in healthy human and animal experiments.This study aims to investigate the effect of tFUS on cortical excitability for motor recovery in patients with stroke.
Focused ultrasound (FUS) has been shown to differentially lesion or modulate (excite and inhibit) brain circuit and neural activity across a broad range of acoustic stimulus parameters (intensity, duty cycle, pulse repetition frequency and pulse duration) for decades. From our previous study, FUS sonication may suppress the number of epileptic signal bursts observed in EEG recordings after the induction of acute epilepsy. The presence of the suppressive effect was found in terms of the number of epileptic EEG spikes from the analysis of the unfiltered and theta-band EEG activity, and further discontinue the seizure attacks. EEG activity has also been consistently reported to have a positive correlation with the level of epilepsy, and FUS-mediated reduction of epileptic EEG activity was most notably observed, no matter lesioning or modulating effects. The aims of this study are to demonstrate the safety and efficacy of FUS technology in epilepsy patients and to estimate the optimal parameters of focused ultrasound exposure that will be used in the case of epilepsy.
The purpose of the registry is to collect data on the performance of the focused ultrasound (FUS) technology and health outcomes. A wide variety of approaches exist for using FUS on pancreatic cancer patients, and the primary goal is to capture this broad spectrum of approaches and their impact on patients overall health. This information will help provide a better understanding of current care, and may possibly direct further, more specific investigations that will follow this registry.
Focused ultrasound at low intensities is a form of neuromodulation with high spatial resolution that can be applied invasively or non-invasively using acoustic energy to affect neuronal activity. The purpose of this study is to better understand the effects of low intensity focused ultrasound (FUS) on the central nervous system. Specific patient populations within UVA health system are undergoing treatment that provide unique opportunities to study these effects.