Magnetic‐Driven Torque‐Induced Electrical Stimulation for Millisecond‐Scale Wireless Neuromodulation

MagTIES is a wireless neuromodulation technique with millisecond precision. It employs magnetic-driven torque from magnetite nanodiscs to activate piezoelectric nanoparticles, enabling precise temporal control of neuronal activity and brain oscillations using weak, low-frequency magnetic fields. Free from hardware implants and genetic tools, MagTIES offers a minimally invasive, scalable platform for next-generation deep brain stimulation.

Abstract

Wireless neuromodulation using nanoparticles, offering minimally invasive alternatives to conventional deep brain stimulation (DBS) while reducing the risks associated with hardware implants, has gained significant traction over the past decade. Nevertheless, ensuring millisecond-scale wireless DBS for the precise temporal control of neuronal activity remains challenging. This study reports magnetic-driven torque-induced electrical stimulation (MagTIES), a torque-based magnetoelectric neuromodulation method. By utilizing magnetic nanodiscs to generate torque under alternating magnetic fields (AMFs), the MagTIES induces a piezoelectric effect in piezoelectric nanoparticles, thereby overcoming the limitations of traditional magnetostriction-based systems. With an AMF (50 mT at ≈10 Hz), the proposed approach triggers neuronal activity both in vitro and in vivo, specifically in the deep brain region of the amygdala, within milliseconds. Furthermore, MagTIES enables the fine-tuning of amygdala brain oscillations through the precise modulation of the AMF frequency. By combining high spatial and temporal precision with minimal invasiveness, MagTIES provides an innovative approach for advancing neuroscience research with potential applications in understanding neural circuits and developing innovative therapies.