Neural implants have emerged over the last decade as highly effective solutions for the
treatment of dysfunctions and disorders of the nervous system. These implants establish a …

Bidirectional interfacing with the nervous system enables neuroscience research, diagnosis,
and therapy. This two-way communication allows us to monitor the state of the brain and its …

An electroactive scaffold integrated with noninvasive in vivo electrical-stimulation (ES)
capability shows great promise in the repair and regeneration of damaged tissues …

Transcranial focused ultrasound (tFUS) is a promising neuromodulation technique, but its
mechanisms remain unclear. We hypothesize that if tFUS parameters exhibit distinct …

Remote and precisely controlled activation of the brain is a fundamental challenge in the
development of brain–machine interfaces for neurological treatments. Low-frequency …

The causal role of an area within a neural network can be determined by interfering with its
activity and measuring the impact. Many current reversible manipulation techniques have …

Improved methods of noninvasively modulating human brain function are needed. Here we
probed the influence of transcranial focused ultrasound (tFUS) targeted to the human …

Background There is an emerging need for noninvasive neuromodulation techniques to
improve patient outcomes while minimizing adverse events and morbidity. Low-intensity …

Low-intensity, low-frequency ultrasound (LILFU) is the next-generation, non-invasive brain
stimulation technology for treating various neurological and psychiatric disorders. However …

Transcranial focused ultrasound (US) has been demonstrated to stimulate neurons in
animals and humans, but the mechanism of this effect is unknown. It has been hypothesized …