In recent years, the usage of radio frequency magnetic fields for biomedical applications has
increased exponentially. Several diagnostic and therapeutic methodologies exploit this …

This article presents a comprehensive review of current Magnetic Imaging Techniques (MIT),
specifically Magnetic Particle Imaging (MPI) and Magnetic Resonance Imaging (MRI) …

Purpose Magnetic resonance acoustic radiation force imaging (MR‐ARFI) enables focal
spot localization during nonablative transcranial ultrasound therapies. As the acoustic …

Even simple behaviors arise from the simultaneous activation of multiple regions in the
brain. Thus, the ability to simultaneously stimulate multiple regions within a brain circuit …

In the field of ultra-high field MR imaging, the challenges associated with higher frequencies
and shorter wavelengths necessitate rigorous attention to multichannel array design. While …

Ultrasound is an emerging method for non-invasive neuromodulation. Studies in the past
have demonstrated that ultrasound can reversibly activate and inhibit neural activities in the …

Purpose To rapidly image and localize the focus in MR‐guided focused ultrasound (FUS)
while maintaining a low ultrasound duty cycle to minimize tissue effects. Methods MR …

Objective Blood-oxygen-level-dependent functional MRI allows to investigte neural activities
and connectivity. While the non-human primate plays an essential role in neuroscience …

Transcranial magnetic resonance-guided focused ultrasound (tcMRgFUS) revolutionizes
non-invasive therapy by combining MRI and high-intensity focused ultrasound for precise …

Ultra-high field MRI (7T+) unlocks a new era of brain research with superior resolution and
signal-to-noise. Capturing intricate neural activity and detailed soft tissue pathology, this …