Research

Depression

Endicott et al.

2000

Multiple Recurrences of Major Depressive Disorder

Santomauro et al

2021

Global prevalence and burden of depressive and anxiety disorders in 204 countries and territories in 2020 due to the COVID-19 pandemic

Burcasa et al

2008

Risk for Recurrence in Depression

Zhdanava et al

2021

The Prevalence and National Burden of Treatment-Resistant Depression and Major Depressive Disorder in the United States

Khalid Saad Al-Harbi

2012

Treatment-resistant depression: therapeutic trends, challenges, and future directions

TMS

Ebrahimzadeh et al

2023

Machine learning approaches and non-linear processing of extracted components in frontal region to predict rTMS treatment response in major depressive disorder

Wang et al

2024

TMS and cortical electrical stimulation of left DLPFC activate similar brain networks in humans

Romero et al

2019

Electrical measurements of neurons during TMS:

Wang et al

2024

Effects of transcranial magnetic stimulation on the human brain recorded with intracranial electrocorticography

Overvliet et al

2021

Study of TMS adverse events

Romero et al

2019

Neural effects of transcranial magnetic stimulation at the single-cell level

Deng et al

2013

Electric field depth–focality tradeoff in transcranial magnetic stimulation: simulation comparison of 50 coil designs

Somani et al

2019

Review of Meta-analyses of TMS RCTs: roughly 29 RCTs covering 1371 patients

Harold A Sackeim et al

2020

Clinical outcomes in a large registry of patients with major depressive disorder treated with Transcranial Magnetic Stimulation

Philip G Janicak et al

2010

80-84% of TMS responders also respond to second course of TMS:

Chen et al

2024

Accelerated TMS with precise targeting shows >80% response in both an open-label and RCT study.

Cortical Stimulation

Fasano et al

2019

PD stratification and device eligibility

Pathak et al

2013

Epidural cortical stimulation of DLPFC failed to separate from shame with stimulation < 10 mA

Underwood et al

2021

Electrical stimulation and TMS of primary motor cortex (M1) - particularly in a closed loop fashion is expected to facilitate movement in patients with PD:

Yang et al

2018

Meta-analysis of 23 studies (646 patients) testing TMS for PD shows significant improvement for those receiving multi-session, high-frequency bi-lateral stimulation of primary motor cortex

Williams et al

2016

Five-Year Follow-Up of Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Nahas et al

2010

Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Williams et al

2016

Five-Year Follow-Up of Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Nahas et al

2011

Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Magnetoelectrics

Alrashadan et al

2024

Magnetoelectrics for Implantable Bioelectronics: Progress to Date

Yu et al

2022

Near-zero power 1.6 kb data uplink from ME-powered implant through 1.5 cm of tissue

Kim et al

2023

Optimized ME materials show record power density for wireless power to bioelectronic implants:

Chen et al

2022

Digitally programmable ME-powered implant shows enough power to stimulate peripheral nerves from within blood vessels in pigs. Similar to the power needed to stimulate through dura in large animals and humans

Singer et al

2021

Review of wireless power transfer technologies shows ME is best choice for all-around performance

Singer et al

2020

Magnetoelectric powered neural stimulator shows robust power transfer to freely behaving rats

Yu et al

2020

Comparison between ME, ultrasound, and inductive coupling shows ME has highest efficiency and excellent misalignment tolerance

Alrashdan et al

2021

Prototype wearable enables battery-powered transmitter for ME implants

Woods et al

2024

Research

Multiple Recurrences of Major Depressive Disorder

Global prevalence and burden of depressive and anxiety disorders in 204 countries and territories in 2020 due to the COVID-19 pandemic

Risk for Recurrence in Depression

The Prevalence and National Burden of Treatment-Resistant Depression and Major Depressive Disorder in the United States

Treatment-resistant depression: therapeutic trends, challenges, and future directions

Machine learning approaches and non-linear processing of extracted components in frontal region to predict rTMS treatment response in major depressive disorder

TMS and cortical electrical stimulation of left DLPFC activate similar brain networks in humans

Electrical measurements of neurons during TMS:

Effects of transcranial magnetic stimulation on the human brain recorded with intracranial electrocorticography

Study of TMS adverse events

Neural effects of transcranial magnetic stimulation at the single-cell level

Electric field depth–focality tradeoff in transcranial magnetic stimulation: simulation comparison of 50 coil designs

Review of Meta-analyses of TMS RCTs: roughly 29 RCTs covering 1371 patients

Clinical outcomes in a large registry of patients with major depressive disorder treated with Transcranial Magnetic Stimulation

80-84% of TMS responders also respond to second course of TMS:

Accelerated TMS with precise targeting shows >80% response in both an open-label and RCT study.

PD stratification and device eligibility

Epidural cortical stimulation of DLPFC failed to separate from shame with stimulation < 10 mA

Electrical stimulation and TMS of primary motor cortex (M1) - particularly in a closed loop fashion is expected to facilitate movement in patients with PD:

Meta-analysis of 23 studies (646 patients) testing TMS for PD shows significant improvement for those receiving multi-session, high-frequency bi-lateral stimulation of primary motor cortex

Five-Year Follow-Up of Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Five-Year Follow-Up of Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Bilateral Epidural Prefrontal Cortical Stimulation for Treatment-Resistant Depression

Magnetoelectrics for Implantable Bioelectronics: Progress to Date

Near-zero power 1.6 kb data uplink from ME-powered implant through 1.5 cm of tissue

Optimized ME materials show record power density for wireless power to bioelectronic implants:

Digitally programmable ME-powered implant shows enough power to stimulate peripheral nerves from within blood vessels in pigs. Similar to the power needed to stimulate through dura in large animals and humans

Review of wireless power transfer technologies shows ME is best choice for all-around performance

Magnetoelectric powered neural stimulator shows robust power transfer to freely behaving rats

Comparison between ME, ultrasound, and inductive coupling shows ME has highest efficiency and excellent misalignment tolerance

Prototype wearable enables battery-powered transmitter for ME implants

Magnetoelectric powered epidural stimulators activate motor circuits in humans similar to TMS