A wireless millimetric magnetoelectric implant for the endovascular stimulation of peripheral nerves
Implantable bioelectronic devices for the simulation of peripheral nerves could be used to
treat disorders that are resistant to traditional pharmacological therapies. However, for many …
treat disorders that are resistant to traditional pharmacological therapies. However, for many …
Wearable wireless power systems for 'ME-BIT'magnetoelectric-powered bio implants
FT Alrashdan, JC Chen, A Singer… - Journal of neural …, 2021 - iopscience.iop.org
Objective. Compared to biomedical devices with implanted batteries, wirelessly powered
technologies can be longer-lasting, less invasive, safer, and can be miniaturized to access …
technologies can be longer-lasting, less invasive, safer, and can be miniaturized to access …
Magnetoelectric bio-implants powered and programmed by a single transmitter for coordinated multisite stimulation
This article presents a hardware platform including stimulating implants wirelessly powered
and controlled by a shared transmitter (TX) for coordinated leadless multisite stimulation …
and controlled by a shared transmitter (TX) for coordinated leadless multisite stimulation …
A comprehensive study on magnetoelectric transducers for wireless power transfer using low-frequency magnetic fields
Magnetoelectric (ME) transducers, comprising of layered magnetostrictive and piezoelectric
materials, are more efficient than inductive coils in converting low-frequency magnetic fields …
materials, are more efficient than inductive coils in converting low-frequency magnetic fields …
A Wireless Network of 8.8-mm3 Bio-Implants Featuring Adaptive Magnetoelectric Power and Multi-Access Bidirectional Telemetry
This paper presents a hardware platform for wireless mm-sized bio-implant networks,
exploiting adaptive magnetoelectric power transfer and novel schemes for efficient …
exploiting adaptive magnetoelectric power transfer and novel schemes for efficient …
Miniaturized wirelessly powered and controlled implants for multisite stimulation
I Habibagahi, J Jang… - IEEE transactions on …, 2023 - ieeexplore.ieee.org
This article presents a miniaturized implant with a diameter of only 14 mm, which houses a
novel system on chip (SoC) enabling two-voltage-level stimulation of up to 16 implants using …
novel system on chip (SoC) enabling two-voltage-level stimulation of up to 16 implants using …
Miniaturized wirelessly powered and controlled implants for vagus nerve stimulation
I Habibagahi, J Jang… - 2022 IEEE Radio …, 2022 - ieeexplore.ieee.org
Multisite stimulation has shown enhanced clinical outcomes in different biomedical
applications. This work presents a novel System on Chip (SoC) solution that enables up to …
applications. This work presents a novel System on Chip (SoC) solution that enables up to …
Endocisternal interfaces for minimally invasive neural stimulation and recording of the brain and spinal cord
JC Chen, A Dhuliyawalla, R Garcia, A Robledo… - bioRxiv, 2023 - biorxiv.org
Minimally invasive neural interfaces can be used to diagnose, manage, and treat many
disorders with substantially reduced risks of surgical complications. Endovascular neural …
disorders with substantially reduced risks of surgical complications. Endovascular neural …
Wireless endovascular nerve stimulation with a millimeter-sized magnetoelectric implant
Implanted bioelectronic devices have the potential to treat disorders that are resistant to
traditional pharmacological therapies; however, reaching many therapeutic nerve targets …
traditional pharmacological therapies; however, reaching many therapeutic nerve targets …
[PDF][PDF] Magnetoelectric Wireless Power and Data Links for Millimetric Bioelectronic Implants
Z Yu - 2023 - repository.rice.edu
Implantable bioelectronics, characterized by electronic devices that are integrated within the
human body and capable of perceiving and modulating biological signals, offer immense …
human body and capable of perceiving and modulating biological signals, offer immense …