Foundational Insights To Pave a Way For Theranostic Applications of MagnetoElectric NanoParticles
Reviewing emerging biomedical applications of MagnetoElectric NanoParticles (MENPs),
this paper presents basic physics considerations to help understand the possibility of future …
this paper presents basic physics considerations to help understand the possibility of future …
Magnetoelectric nanoparticles shape modulates their electrical output
Core-shell magnetoelectric nanoparticles (MENPs) have recently gained popularity thanks
to their capability in inducing a local electric polarization upon an applied magnetic field and …
to their capability in inducing a local electric polarization upon an applied magnetic field and …
Linking Computers to the Brain: Overview of Cybersecurity Threats and Possible Solutions
T Lahtinen, A Costin - International Symposium on Business Modeling and …, 2023 - Springer
The brain-computer interface (BCI) is a growing field of technology, and it has become clear
that BCI systems' cybersecurity needs amelioration. When BCI devices are developed with …
that BCI systems' cybersecurity needs amelioration. When BCI devices are developed with …
Multiphysics analysis of the dual role of magnetoelectric nanoparticles in a microvascular environment: from magnetic targeting to electrical activation
Minimally invasive medical treatments for peripheral nerve stimulation are critically needed
to minimize surgical risks, enhance the precision of therapeutic interventions, and reduce …
to minimize surgical risks, enhance the precision of therapeutic interventions, and reduce …
Multi‐Scale Modeling of a 3D Soft Magnetoelectric Patch for Wireless Nerve Stimulation
Magnetoelectric nanoparticles (MENPs) are able to locally generate high electric fields
when activated with human‐safe, low‐intensity magnetic fields. However, when implanted …
when activated with human‐safe, low‐intensity magnetic fields. However, when implanted …
Magnetoelectric Nanoparticles for Wireless Peripheral Nerve Stimulation: A Computational Study
This study aims to precisely characterize the use of magnetoelectric nanoparticles (MENPs)
for stimulating peripheral nerves. Numerical methods were employed to quantify the …
for stimulating peripheral nerves. Numerical methods were employed to quantify the …
Magnetostrictive nanoparticles in piezoelectric environments for spatially-confined electric brain and nerve stimulation
Magnetoelectric nanomaterials are investigated in view of their application in noninvasive
electrical stimulation of brain cells and nerves for the treatment of neural diseases and pain …
electrical stimulation of brain cells and nerves for the treatment of neural diseases and pain …
Development of a magnetoelectric neural stimulator for in vitro experiments
S Matsoukis, J Covelo… - … Circuits and Systems …, 2023 - ieeexplore.ieee.org
Magnetoelectric (ME) materials hold the potential for wireless and minimally invasive brain
stimulation with high spatial precision. However, comprehensive integration of ME materials …
stimulation with high spatial precision. However, comprehensive integration of ME materials …
Wireless electrical stimulation induced by a 3D biofriendly polymer-based magnetoelectric graft: an in silico study
Electrical stimulation promotes the repair of nerve injuries, however, their large-scale
application in vivo is still limited due to the issues related to invasive and not-mechanically …
application in vivo is still limited due to the issues related to invasive and not-mechanically …