Angel V Peterchev

Psychiatry & Behavioral Sciences, Behavioral Medicine & Neurosciences

Professor in Psychiatry and Behavioral Sciences

Angel V Peterchev Profile Photo

Research Themes

Bioelectric Engineering

Bio

I direct the Brain Stimulation Engineering Lab (BSEL) which focuses on the development, modeling, and application of devices and paradigms for transcranial brain stimulation. Transcranial brain stimulation involves non-invasive delivery of fields (e.g., electric and magnetic) to the brain that modulate neural activity. It is widely used as a tool for research and a therapeutic intervention in neurology and psychiatry, including several FDA-cleared indications. BSEL develops devices for transcranial magnetic stimulation (TMS) and other forms of magnetic stimulation such as magnetogenetics that leverage design techniques from power electronics and computational electromagnetics to enable more flexible stimulus control, focal stimulation, and quiet operation. We also deploy these devices in experimental studies to characterize and optimize the brain response to TMS. Another line of work is multi-scale computational models that couple simulations of the electromagnetic fields, single neuron responses, and neural population modulation induced by electric and magnetic brain stimulation. These models are calibrated and validated with experimental neural recordings through various collaborations. Apart from understanding of mechanisms, we develop modeling, algorithmic, and targeting tools for response estimation, dose individualization, and precise localization of transcranial brain stimulation using advanced techniques such as artificial neural networks and machine learning. Moreover, BSEL is involved in the integration of transcranial brain stimulation with robotics, neuronavigation, intracranial electrophysiology recordings, and imaging modalities such as functional magnetic resonance imaging (fMRI) and electroencephalography (EEG), as well as the evaluation of the safety of device–device interactions, for example between transcranial stimulators and implants. Importantly, we collaborate widely with neuroscientists and clinicians at Duke and other institutions to translate developments from the lab to research and clinical applications. For over 17 years, BSEL has been continuously supported with multiple NIH grants as well as funding by DARPA, NSF, Brain & Behavior Research Foundation, Coulter Foundation, Duke Institute for Brain Sciences, MEDx, Duke University Energy Initiative, and industry. Further, some of our technology has been commercialized, for example as ElevateTMS cTMS, or incorporated in free software packages, such as SimNIBS and SAMT. In recognition of “excellence in non-invasive brain stimulation research that stimulates further work at a higher scientific level” I received the Brainbox Initiative John Rothwell Award in 2024.

Education

B.A. Harvard University, 1999
M.S. University of California, Berkeley, 2002
Ph.D. University of California, Berkeley, 2005

Positions

Professor in Psychiatry and Behavioral Sciences
Professor in Neurosurgery
Associate Professor in Neurosurgery
Associate Professor of Biomedical Engineering
Associate Professor in the Department of Electrical and Computer Engineering
Faculty Network Member of the Duke Institute for Brain Sciences

Courses Taught

ENRGYEGR 531: Power Electronic Circuits for Energy Conversion
ENRGYEGR 431: Power Electronic Circuits for Energy Conversion
ENERGY 396: Connections in Energy: Interdisciplinary Team Projects
EGR 393: Research Projects in Engineering
ECE 899: Special Readings in Electrical Engineering
ECE 531: Power Electronic Circuits for Energy Conversion
ECE 494: Projects in Electrical and Computer Engineering
ECE 493: Projects in Electrical and Computer Engineering
ECE 431: Power Electronic Circuits for Energy Conversion
ECE 392: Projects in Electrical and Computer Engineering
BME 494: Projects in Biomedical Engineering (GE)
BME 493: Projects in Biomedical Engineering (GE)
BME 394: Projects in Biomedical Engineering (GE)

Publications

Murphy DLK, Koponen LM, Wood E, Li Y, Bukhari-Parlakturk N, Goetz SM, et al. Reduced auditory perception and brain response with quiet TMS coil. Brain Stimul. 2024 Oct 10;17(6):1197–207.
Bukhari-Parlakturk N, Mulcahey PJ, Lutz MW, Ghazi R, Huang Z, Dannhauer M, et al. TMS target comparison identifies motor network reorganization associated with behavioral improvement in writer’s cramp dystonia: A randomized, double-blind, Sham-controlled clinical trial. Cold Spring Harbor Laboratory. 2024.
Labruna L, Merrick C, Peterchev AV, Inglis B, Ivry RB, Sheltraw D. Kilohertz Transcranial Magnetic Perturbation (kTMP): A New Non-invasive Method to Modulate Cortical Excitability. eLife Sciences Publications, Ltd. 2024.
Labruna L, Merrick C, Peterchev AV, Inglis B, Ivry RB, Sheltraw D. Kilohertz Transcranial Magnetic Perturbation (kTMP): A New Non-invasive Method to Modulate Cortical Excitability. eLife Sciences Publications, Ltd. 2024.
Goswami N, Shen M, Gomez LJ, Dannhauer M, Sommer MA, Peterchev AV. A semi-automated pipeline for finite element modeling of electric field induced in nonhuman primates by transcranial magnetic stimulation. J Neurosci Methods. 2024 Aug;408:110176.
Schlesinger O, Kundu R, Isaev D, Choi JY, Goetz SM, Turner DA, et al. Scalp surface estimation and head registration using sparse sampling and 3D statistical models. Comput Biol Med. 2024 Aug;178:108689.
Pavey NA, Menon P, Peterchev AV, Kiernan MC, Vucic S. Abnormalities of cortical stimulation strength-duration time constant in amyotrophic lateral sclerosis. Clin Neurophysiol. 2024 Aug;164:161–7.
Peterchev AV. Direction and Directionality: The Neural Effects of Transcranial Magnetic Stimulation Coil Orientation and Pulse Waveform. Biol Psychiatry Cogn Neurosci Neuroimaging. 2024 Aug;9(8):739–41.
Wang B, Peterchev AV, Gaugain G, Ilmoniemi RJ, Grill WM, Bikson M, et al. Quasistatic approximation in neuromodulation. J Neural Eng. 2024 Jul 24;21(4).
Murphy DLK, Koponen LM, Wood E, Li Y, Bukhari-Parlakturk N, Goetz SM, et al. Reduced Auditory Perception and Brain Response with Quiet TMS Coil. 2024.
Li Z, Yang A, Chen G, Tashakor N, Zeng Z, Peterchev AV, et al. A Rapidly Reconfigurable DC Battery for Increasing Flexibility and Efficiency of Electric Vehicle Drive Trains. IEEE Transactions on Transportation Electrification. 2024 Jun 1;10(2):2322–31.
Wang B, Peterchev AV, Gaugain G, Ilmoniemi RJ, Grill WM, Bikson M, et al. Quasistatic approximation in neuromodulation. ArXiv. 2024 Apr 23;
Labruna L, Merrick C, Peterchev AV, Inglis B, Ivry RB, Sheltraw D. Kilohertz Transcranial Magnetic Perturbation (kTMP): A New Non-invasive Method to Modulate Cortical Excitability. eLife Sciences Publications, Ltd. 2024.
Abbott CC, Miller J, Farrar D, Argyelan M, Lloyd M, Squillaci T, et al. Amplitude-determined seizure-threshold, electric field modeling, and electroconvulsive therapy antidepressant and cognitive outcomes. Neuropsychopharmacology. 2024 Mar;49(4):640–8.
Zhang J, Tian X, Wang B, Peterchev AV, Goetz S. Modulation-Enhanced Nearest-Level Quantization for a Wide Output Bandwidth. IEEE Trans Power Electron. 2024 Mar;39(3):3289–99.
Zhang J, Al Munefi M, Peterchev AV, Goetz SM. Overshoot Dynamics in Parallel Connectivity Enabled Multilevel Converters: Generalized Analytic Expression and Impact Analysis. In: Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC. 2024. p. 581–6.
Zhang J, Peterchev AV, Goetz SM. Frequency-Dependent Impedance Variation in Multilevel Converters with Parallel Connectivity. In: Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC. 2024. p. 2337–41.
Zhang J, Wang B, Tian X, Peterchev AV, Goetz SM. Analytical Model and Planar Magnetic Solution for Parallelization Surges in Switched-Capacitor and Series/Parallel Multilevel Circuits. IEEE Transactions on Industrial Electronics. 2024;1–9.
Li Y, Peterchev AV, Downar J. Tetra codes: A precise, concise notation system for scalp-based neuronavigation. Brain Stimul. 2024;17(5):1142–4.
Zhang J, Wang B, Tian X, Peterchev AV, Goetz SM. DC-to-5-MHz Wide-Output-Bandwidth High-Power High-Fidelity Converter. IEEE Transactions on Industrial Electronics. 2024 Jan 1;
Peterchev A, Deng Z-D, Sikes-Keilp C, Feuer E, Rosa M, Lisanby S. Optimal Frequency for Seizure Induction with Electroconvulsive Therapy and Magnetic Seizure Therapy. bioRxiv. 2024.
Yu G, Ranieri F, Lazzaro VD, Sommer M, Peterchev A, Grill W. Circuits and Mechanisms for TMS-Induced Corticospinal Waves: Connecting Sensitivity Analysis to the Network Graph. bioRxiv. 2024.
Koponen LM, Martinez M, Wood E, Murphy DLK, Goetz SM, Appelbaum LG, et al. Transcranial magnetic stimulation input-output curve slope differences suggest variation in recruitment across muscle representations in primary motor cortex. Front Hum Neurosci. 2024;18:1310320.
McAllister ML, Slayton MA, Bukhari-Parlakturk N, Liu AJ, Peterchev AV, Davis SW. Intermittent Theta-Burst Stimulation for Memory Modulation in a Patient With Mild Cognitive Impairment and Trigeminal Neuralgia. J ECT. 2023 Dec 1;39(4):279–80.
Schlesinger O, Kundu R, Goetz S, Sapiro G, Peterchev AV, Di Martino JM. Automatic Neurocranial Landmarks Detection from Visible Facial Landmarks Leveraging 3D Head Priors. In: Clin Image Based Proced Fairness AI Med Imaging Ethical Philos Issues Med Imaging (2023). 2023. p. 12–20.
Goswami N, Gomez LJ, Sommer M, Dannhauer M, Peterchev A, Shen M. Data from: A semi-automated pipeline for finite element modeling of induced electric field in nonhuman primates by transcranial magnetic stimulation. 2023.
Wang B, Peterchev AV, Goetz SM. Three novel methods for determining motor threshold with transcranial magnetic stimulation outperform conventional procedures. J Neural Eng. 2023 Sep 13;20(5).
Aberra AS, Wang R, Grill WM, Peterchev AV. Multi-scale model of axonal and dendritic polarization by transcranial direct current stimulation in realistic head geometry. 2023.
Mulcahey PJ, Peterchev AV, Calakos N, Bukhari-Parlakturk N. Transcranial magnetic stimulation: the road to clinical therapy for dystonia. Dystonia. 2023 Aug 16;2.
Aberra AS, Lopez A, Grill WM, Peterchev AV. Rapid estimation of cortical neuron activation thresholds by transcranial magnetic stimulation using convolutional neural networks. Neuroimage. 2023 Jul 15;275:120184.
Wang B, Zhang J, Li Z, Grill WM, Peterchev AV, Goetz SM. Optimized monophasic pulses with equivalent electric field for rapid-rate transcranial magnetic stimulation. J Neural Eng. 2023 Jun 6;20(3).
Menon P, Pavey N, Aberra AS, van den Bos MAJ, Wang R, Kiernan MC, et al. Dependence of cortical neuronal strength-duration properties on TMS pulse shape. Clin Neurophysiol. 2023 Jun;150:106–18.
Kritzer MD, Peterchev AV, Camprodon JA. Electroconvulsive Therapy: Mechanisms of Action, Clinical Considerations, and Future Directions. Harv Rev Psychiatry. 2023 May;31(3):101–13.
Wang B, Aberra AS, Grill WM, Peterchev AV. Responses of model cortical neurons to temporal interference stimulation and related transcranial alternating current stimulation modalities. J Neural Eng. 2023 Jan 3;19(6).
Aberra AS, Wang R, Grill WM, Peterchev AV. Multi-scale model of axonal and dendritic polarization by transcranial direct current stimulation in realistic head geometry. Brain Stimul. 2023;16(6):1776–91.
Li Z, Zhang J, Peterchev AV, Goetz SM. Modular pulse synthesizer for transcranial magnetic stimulation with fully adjustable pulse shape and sequence. J Neural Eng. 2022 Nov 23;19(6).
Li Z, Peterchev AV, Rothwell JC, Goetz SM. Detection of motor-evoked potentials below the noise floor: rethinking the motor stimulation threshold. J Neural Eng. 2022 Oct 21;19(5).
Wang B, Peterchev A, Li Z, Grill W, Goetz S. Data from: Optimized Monophasic Pulses with Equivalent Electric Field for Rapid-Rate Transcranial Magnetic Stimulation. 2022.
Sebesta C, Torres Hinojosa D, Wang B, Asfouri J, Li Z, Duret G, et al. Subsecond multichannel magnetic control of select neural circuits in freely moving flies. Nat Mater. 2022 Aug;21(8):951–8.
Siebner HR, Funke K, Aberra AS, Antal A, Bestmann S, Chen R, et al. Transcranial magnetic stimulation of the brain: What is stimulated? - A consensus and critical position paper. Clin Neurophysiol. 2022 Aug;140:59–97.
Chen JC, Kan P, Yu Z, Alrashdan F, Garcia R, Singer A, et al. A wireless millimetric magnetoelectric implant for the endovascular stimulation of peripheral nerves. Nat Biomed Eng. 2022 Jun;6(6):706–16.
Goetz SM, Howell B, Wang B, Li Z, Sommer MA, Peterchev AV, et al. Isolating two sources of variability of subcortical stimulation to quantify fluctuations of corticospinal tract excitability. Clin Neurophysiol. 2022 Jun;138:134–42.
Dannhauer M, Huang Z, Beynel L, Wood E, Bukhari-Parlakturk N, Peterchev AV. TAP: targeting and analysis pipeline for optimization and verification of coil placement in transcranial magnetic stimulation. J Neural Eng. 2022 Apr 21;19(2).
Sombeck JT, Heye J, Kumaravelu K, Goetz SM, Peterchev AV, Grill WM, et al. Characterizing the short-latency evoked response to intracortical microstimulation across a multi-electrode array. J Neural Eng. 2022 Apr 20;19(2).
Luber B, Davis SW, Deng ZD, Murphy D, Martella A, Peterchev AV, et al. Using diffusion tensor imaging to effectively target TMS to deep brain structures. In: NeuroImage. 2022.
Luber B, Davis SW, Deng Z-D, Murphy D, Martella A, Peterchev AV, et al. Using diffusion tensor imaging to effectively target TMS to deep brain structures. Neuroimage. 2022 Apr 1;249:118863.
Wang B, Li Z, Sebesta C, Torres Hinojosa D, Zhang Q, Robinson JT, et al. Multichannel power electronics and magnetic nanoparticles for selective thermal magnetogenetics. J Neural Eng. 2022 Mar 29;19(2).
Zeng Z, Koponen LM, Hamdan R, Li Z, Goetz SM, Peterchev AV. Modular multilevel TMS device with wide output range and ultrabrief pulse capability for sound reduction. J Neural Eng. 2022 Mar 17;19(2).
Wang B, Zhang J, Li Z, Grill W, Peterchev A, Goetz S. Optimized Monophasic Pulses with Equivalent Electric Field for Rapid-Rate Transcranial Magnetic Stimulation. bioRxiv. 2022.
Koponen LM, Peterchev AV. Preventing misestimation of transcranial magnetic stimulation motor threshold with MTAT 2.0. Brain Stimul. 2022;15(5):1073–6.
Wang B, Aberra A, Grill W, Peterchev A. Responses of Model Cortical Neurons to Temporal Interference Stimulation and Related Transcranial Alternating Current Stimulation Modalities. bioRxiv. 2022.
Li Z, Tashakor N, Peterchev A, Goetz SM. Asymmetrical Modular Multilevel Converter with Sensorless Voltage Control for High-Quality Output. In: IECON Proceedings (Industrial Electronics Conference). 2022.
Aberra A, Lopez A, Grill W, Peterchev A. Rapid estimation of cortical neuron activation thresholds by transcranial magnetic stimulation using convolutional neural networks. bioRxiv. 2022.
Beynel L, Deng L, Crowell C, Dannhauer M, Hilbig S, Palmer H, et al. Network Controllability: A Potential Targeting Approach for TMS With Important Considerations for Aging. In: NEUROPSYCHOPHARMACOLOGY. 2022. p. 68–9.
Wang B, Peterchev A, Goetz S. Three Novel Methods for Determining Motor Threshold with Transcranial Magnetic Stimulation Outperform Conventional Procedures. bioRxiv. 2022.
Zhongxi L, Goetz S. A high-frequency pulsating dc link for electric vehicle drives with reduced losses. IEEE Industrial Electronics Society (IECON). 2021 Nov 1;47.
Beynel L, Dannhauer M, Palmer H, Hilbig SA, Crowell CA, Wang JE-H, et al. Network-based rTMS to modulate working memory: The difficult choice of effective parameters for online interventions. Brain Behav. 2021 Nov;11(11):e2361.
Koponen LM, Goetz SM, Peterchev AV. Double-Containment Coil With Enhanced Winding Mounting for Transcranial Magnetic Stimulation With Reduced Acoustic Noise. IEEE Trans Biomed Eng. 2021 Jul;68(7):2233–40.
Huang WA, Stitt IM, Negahbani E, Passey DJ, Ahn S, Davey M, et al. Transcranial alternating current stimulation entrains alpha oscillations by preferential phase synchronization of fast-spiking cortical neurons to stimulation waveform. Nat Commun. 2021 May 25;12(1):3151.
Price RB, Gillan CM, Hanlon C, Ferrarelli F, Kim T, Karim HT, et al. Effect of Experimental Manipulation of the Orbitofrontal Cortex on Short-Term Markers of Compulsive Behavior: A Theta Burst Stimulation Study. Am J Psychiatry. 2021 May 1;178(5):459–68.
Lizana F. R, Rivera S, Li Z, Dekka A, Rosenthal L, Bahamonde I. H, et al. Modular Multilevel Series/Parallel Converter for Bipolar DC Distribution and Transmission. IEEE Journal of Emerging and Selected Topics in Power Electronics. 2021 Apr 1;9(2):1765–79.
Gomez LJ, Dannhauer M, Peterchev AV. Fast computational optimization of TMS coil placement for individualized electric field targeting. Neuroimage. 2021 Mar;228:117696.
Halawa I, Reichert K, Aberra AS, Sommer M, Peterchev AV, Paulus W. Effect of Pulse Duration and Direction on Plasticity Induced by 5 Hz Repetitive Transcranial Magnetic Stimulation in Correlation With Neuronal Depolarization. Front Neurosci. 2021;15:773792.
Zeng Z, Koponen L, Hamdan R, Li Z, Goetz S, Peterchev A. Modular multilevel TMS device with wide output range and ultrabrief pulse capability for sound reduction. 2021;
Dannhauer M, Huang Z, Beynel L, Wood E, Bukhari-Parlakturk N, Peterchev A. TAP: Targeting and analysis pipeline for optimization and verification of coil placement in transcranial magnetic stimulation. 2021;
Rossi S, Antal A, Bestmann S, Bikson M, Brewer C, Brockmöller J, et al. Safety and recommendations for TMS use in healthy subjects and patient populations, with updates on training, ethical and regulatory issues: Expert Guidelines. Clin Neurophysiol. 2021 Jan;132(1):269–306.
Labruna L, Merrick C, Peterchev A, Inglis B, Ivry R, Sheltraw D. Kilohertz Transcranial Magnetic Perturbation (kTMP): A New Non-invasive Method to Modulate Cortical Excitability. bioRxiv. 2021.
Wang B, Li Z, Sebesta C, Hinojosa DT, Zhang Q, Robinson J, et al. High Bandwidth Power Electronics and Magnetic Nanoparticles for Multichannel Magnetogenetic Neurostimulation. 2021;
Li Z, Motwani JK, Zeng Z, Lukic SM, Peterchev AV, Goetz SM. A Reduced Series/Parallel Module for Cascade Multilevel Static Compensators Supporting Sensorless Balancing. IEEE Transactions on Industrial Electronics. 2021 Jan 1;68(1):15–24.
Turner DA, Degan S, Galeffi F, Schmidt S, Peterchev AV. Rapid, Dose-Dependent Enhancement of Cerebral Blood Flow by transcranial AC Stimulation in Mouse. Brain Stimul. 2021;14(1):80–7.
Li Z, Lizana R, Yu Z, Sha S, Peterchev AV, Goetz SM. Modulation and Control of Series/Parallel Module for Ripple-Current Reduction in Star-Configured Split-Battery Applications. IEEE Transactions on Power Electronics. 2020 Dec 1;35(12):12977–87.
Gamboa Arana OL, Palmer H, Dannhauer M, Hile C, Liu S, Hamdan R, et al. Intensity- and timing-dependent modulation of motion perception with transcranial magnetic stimulation of visual cortex. Neuropsychologia. 2020 Oct;147:107581.
Crowell CA, Davis SW, Beynel L, Deng L, Lakhlani D, Hilbig SA, et al. Older adults benefit from more widespread brain network integration during working memory. Neuroimage. 2020 Sep;218:116959.
Beynel L, Deng L, Crowell CA, Dannhauer M, Palmer H, Hilbig S, et al. Structural Controllability Predicts Functional Patterns and Brain Stimulation Benefits Associated with Working Memory. J Neurosci. 2020 Aug 26;40(35):6770–8.
Gamboa OL, Brito A, Abzug Z, D’Arbeloff T, Beynel L, Wing EA, et al. Application of long-interval paired-pulse transcranial magnetic stimulation to motion-sensitive visual cortex does not lead to changes in motion discrimination. Neurosci Lett. 2020 Jun 21;730:135022.
Beynel L, Davis SW, Crowell CA, Dannhauer M, Lim W, Palmer H, et al. Site-Specific Effects of Online rTMS during a Working Memory Task in Healthy Older Adults. Brain Sci. 2020 Apr 27;10(5).
Gamboa Arana OL, Palmer H, Dannhauer M, Hile C, Liu S, Hamdan R, et al. Dose-dependent enhancement of motion direction discrimination with transcranial magnetic stimulation of visual cortex. 2020;
Koponen LM, Peterchev AV. Transcranial Magnetic Stimulation: Principles and Applications. In: Neural Engineering: Third Edition. 2020. p. 245–70.
Kritzer M, Tharayil J, Lai C, Cruz DA, Rodriguez R, Wetsel WE, et al. Assessment of Behavioral Phenotypes After Chronic Social Defeat Stress and Electroconvulsive Stimulation in Mice Using Lasso Regression. In: BIOLOGICAL PSYCHIATRY. 2020. p. S143–S143.
Koponen LM, Goetz SM, Tucci DL, Peterchev AV. Sound comparison of seven TMS coils at matched stimulation strength. Brain Stimul. 2020;13(3):873–80.
Gomez L, Dannhauer M, Peterchev A. Fast computational optimization of TMS coil placement for individualized electric field targeting. 2020;
Gomez LJ, Dannhauer M, Koponen LM, Peterchev AV. Conditions for numerically accurate TMS electric field simulation. Brain Stimul. 2020;13(1):157–66.
Aberra AS, Wang B, Grill WM, Peterchev AV. Simulation of transcranial magnetic stimulation in head model with morphologically-realistic cortical neurons. Brain Stimul. 2020;13(1):175–89.
Alavi SMM, Goetz SM, Peterchev AV. Erratum to: "Optimal Estimation of Neural Recruitment Curves Using Fisher Information: Application to Transcranial Magnetic Stimulation". IEEE Trans Neural Syst Rehabil Eng. 2019 Nov;27(11):2315.
Hans Bahamonde I, Rivera S, Li Z, Goetz S, Peterchev A, Ricardo Lizana F. Different parallel connections generated by the Modular Multilevel Series/Parallel Converter: An overview. In: IECON Proceedings (Industrial Electronics Conference). 2019. p. 6114–9.
Li Z, Ricardo Lizana F, Yu Z, Sha S, Peterchev AV, Goetz SM. A Modular Multilevel Series/Parallel Converter for a Wide Frequency Range Operation. IEEE Transactions on Power Electronics. 2019 Oct 1;34(10):9854–65.
Goetz SM, Kozyrkov IC, Luber B, Lisanby SH, Murphy DLK, Grill WM, et al. Accuracy of robotic coil positioning during transcranial magnetic stimulation. J Neural Eng. 2019 Sep 17;16(5):054003.
Li Z, Lizana R, Sha S, Yu Z, Peterchev AV, Goetz SM. Module implementation and modulation strategy for sensorless balancing in modular multilevel converters. IEEE Transactions on Power Electronics. 2019 Sep 1;34(9):8405–16.
Goetz SM, Wang C, Li Z, Murphy DLK, Peterchev AV. Concept of a distributed photovoltaic multilevel inverter with cascaded double H-bridge topology. International Journal of Electrical Power and Energy Systems. 2019 Sep 1;110:667–78.
Wang C, Peterchev AV, Goetz SM. Closed-loop predictively optimizing control for modular multilevel converter with parallel connectivity. In: 2019 21st European Conference on Power Electronics and Applications, EPE 2019 ECCE Europe. 2019.
Wang C, Peterchev AV, Goetz SM. Online switch open-circuit fault diagnosis using reconfigurable scheduler for modular multilevel converter with parallel connectivity. In: 2019 21st European Conference on Power Electronics and Applications, EPE 2019 ECCE Europe. 2019.
Kritzer M, Rosario W, Tharayil J, Lai C, Botros P, Lowell A, et al. Erratum to ‘Electroconvulsive stimulation increases astrocyte marker GFAP in mouse hippocampus regardless of chronic social defeat stress’ (Brain Stimulation (2019) 12(2) (543), (S1935861X18312105), (10.1016/j.brs.2018.12.791)). Brain Stimulation. 2019 Sep 1;12(5):e167.
Goetz SM, Alavi SMM, Deng Z-D, Peterchev AV. Statistical Model of Motor-Evoked Potentials. IEEE Trans Neural Syst Rehabil Eng. 2019 Aug;27(8):1539–45.
Li Z, Lizana R, Lukic SM, Peterchev AV, Goetz SM. Current Injection Methods for Ripple-Current Suppression in Delta-Configured Split-Battery Energy Storage. IEEE Transactions on Power Electronics. 2019 Aug 1;34(8):7411–21.
Alavi SMM, Goetz SM, Peterchev AV. Optimal Estimation of Neural Recruitment Curves Using Fisher Information: Application to Transcranial Magnetic Stimulation. IEEE Trans Neural Syst Rehabil Eng. 2019 Jun;27(6):1320–30.
Kritzer M, Lai C, Tharayil J, Rosario W, Botros P, Lowell A, et al. T114. Behavioral Changes and Glial Staining in Mice Subjected to the Chronic Social Defeat Stress Followed by Electroconvulsive Stimulation. In: Biological Psychiatry. Elsevier BV; 2019. p. S173–S173.
Lizana RF, Rivera S, Li Z, Luo J, Peterchev AV, Goetz SM. Modular Multilevel Series/Parallel Converter with Switched-Inductor Energy Transfer between Modules. IEEE Transactions on Power Electronics. 2019 May 1;34(5):4844–52.
McGaughey KD, Yilmaz-Swenson T, Elsayed NM, Cruz DA, Rodriguiz RM, Kritzer MD, et al. Relative abundance of Akkermansia spp. and other bacterial phylotypes correlates with anxiety- and depressive-like behavior following social defeat in mice. Sci Rep. 2019 Mar 1;9(1):3281.
Koponen L, Goetz S, Tucci D, Peterchev A. Sound comparison of seven TMS coils at matched stimulation strength. 2019;
Negahbani E, Stitt I, Davey M, Doan T, Dannhauer M, Hoover A, et al. Transcranial Alternating Current Stimulation (tACS) Entrains Alpha Oscillations by Preferential Phase Synchronization of Fast-Spiking Cortical Neurons to Stimulation Waveform. 2019;
Goetz S, Kozyrkov C, Luber B, Lisanby S, Murphy D, Grill W, et al. Accuracy of robotic coil positioning during transcranial magnetic stimulation. 2019;
Beynel L, Deng L, Crowell CA, Dannhauer M, Palmer H, Hilbig S, et al. Structural controllability predicts functional patterns and brain stimulation benefits associated with working memory. 2019;
McGaughey KD, Yilmaz-Swenson T, Elsayed NM, Cruz DA, Rodriguez RM, Kritzer MD, et al. Correction: Comparative evaluation of a new magnetic bead-based DNA extraction method from fecal samples for downstream next-generation 16S rRNA gene sequencing. PLoS One. 2019;14(2):e0212712.
Beynel L, Davis SW, Crowell CA, Hilbig SA, Lim W, Nguyen D, et al. Online repetitive transcranial magnetic stimulation during working memory in younger and older adults: A randomized within-subject comparison. PLoS One. 2019;14(3):e0213707.
Bikson M, Esmaeilpour Z, Adair D, Kronberg G, Tyler WJ, Antal A, et al. Transcranial electrical stimulation nomenclature. Brain Stimul. 2019;12(6):1349–66.
Davis SW, Crowell CA, Beynel L, Deng L, Lakhlani D, Hilbig SA, et al. Complementary topology of maintenance and manipulation brain networks in working memory. Sci Rep. 2018 Dec 13;8(1):17827.
Aberra AS, Peterchev AV, Grill WM. Biophysically realistic neuron models for simulation of cortical stimulation. J Neural Eng. 2018 Dec;15(6):066023.
Beynel L, Davis SW, Hilbig S, Lim W, Peterchev AV, Cabeza R, et al. Online Repetitive Transcranial Magnetic Stimulation Enhances Working Memory Performance in Younger and Older Adults. In: NEUROPSYCHOPHARMACOLOGY. NATURE PUBLISHING GROUP; 2018. p. S78–S78.
Smith JE, Peterchev AV. Electric field measurement of two commercial active/sham coils for transcranial magnetic stimulation. J Neural Eng. 2018 Oct;15(5):054001.
Gomez LJ, Goetz SM, Peterchev AV. Design of transcranial magnetic stimulation coils with optimal trade-off between depth, focality, and energy. J Neural Eng. 2018 Aug;15(4):046033.
Wang B, Aberra AS, Grill WM, Peterchev AV. Addendum: Modified cable equation incorporating transverse polarization of neuronal membranes for accurate coupling of electric fields (J. Neural Eng. 15 026003). Journal of Neural Engineering. 2018 Aug 1;15(4):049401–049401.
Wang B, Grill WM, Peterchev AV. Coupling Magnetically Induced Electric Fields to Neurons: Longitudinal and Transverse Activation. Biophys J. 2018 Jul 3;115(1):95–107.
Goetz SM, Li Z, Peterchev AV. Noninvasive Detection of Motor-Evoked Potentials in Response to Brain Stimulation Below the Noise Floor-How Weak Can a Stimulus Be and Still Stimulate. Annu Int Conf IEEE Eng Med Biol Soc. 2018 Jul;2018:2687–90.
Wang B, Shen MR, Deng Z-D, Smith JE, Tharayil JJ, Gurrey CJ, et al. Redesigning existing transcranial magnetic stimulation coils to reduce energy: application to low field magnetic stimulation. J Neural Eng. 2018 Jun;15(3):036022.
Tharayil JJ, Goetz SM, Bernabei JM, Peterchev AV. Field Distribution of Transcranial Static Magnetic Stimulation in Realistic Human Head Model. Neuromodulation. 2018 Jun;21(4):340–7.
Wang B, Aberra AS, Grill WM, Peterchev AV. Modified cable equation incorporating transverse polarization of neuronal membranes for accurate coupling of electric fields. J Neural Eng. 2018 Apr;15(2):026003.
Wang B, Grill WM, Peterchev AV. Coupling magnetically induced electric fields to neurons: longitudinal and transverse activation. 2018;
Beynel L, Davis SW, Crowell CA, Hilbig SA, Lim W, Nguyen D, et al. A systematic study of repetitive transcranial magnetic stimulation to enhance working memory manipulation abilities. 2018;
Aberra A, Peterchev A, Grill W. Biophysically Realistic Neuron Models for Simulation of Cortical Stimulation. 2018;
Aberra A, Wang B, Grill W, Peterchev A. Simulation of transcranial magnetic stimulation in head model with morphologically-realistic cortical neurons. 2018;
Loo CK, Husain MM, McDonald WM, Aaronson S, O’Reardon JP, Alonzo A, et al. International randomized-controlled trial of transcranial Direct Current Stimulation in depression. Brain Stimul. 2018;11(1):125–33.
McGaughey KD, Yilmaz-Swenson T, Elsayed NM, Cruz DA, Rodriguez RR, Kritzer MD, et al. Comparative evaluation of a new magnetic bead-based DNA extraction method from fecal samples for downstream next-generation 16S rRNA gene sequencing. PLoS One. 2018;13(8):e0202858.
Li Z, Lizana R, Peterchev AV, Goetz SM. Ripple current suppression methods for star-configured modular multilevel converters. In: Proceedings IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society. 2017. p. 1505–10.
Wang C, Lizana FR, Li Z, Peterchev AV, Goetz SM. Submodule short-circuit fault diagnosis based on wavelet transform and support vector machines for modular multilevel converter with series and parallel connectivity. In: Proceedings IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society. 2017. p. 3239–44.
Li Z, Lizana R, Peterchev AV, Goetz SM. Predictive control of modular multilevel series/parallel converter for battery systems. In: 2017 IEEE Energy Conversion Congress and Exposition, ECCE 2017. 2017. p. 5685–91.
Li Z, Lizana R, Peterchev AV, Goetz SM. Distributed balancing control for modular multilevel series/parallel converter with capability of sensorless operation. In: 2017 IEEE Energy Conversion Congress and Exposition, ECCE 2017. 2017. p. 1787–93.
Beynel L, Davis SW, Crowell C, Hilbig SA, Lim W, Nguyen D, et al. fMRI- and Computationally-Guided rTMS Enhances Performance in Working Memory Manipulation. In: NEUROPSYCHOPHARMACOLOGY. NATURE PUBLISHING GROUP; 2017. p. S114–5.
Goetz SM, Li Z, Liang X, Zhang C, Lukic SM, Peterchev AV. Control of Modular Multilevel Converter with Parallel Connectivity-Application to Battery Systems. IEEE Transactions on Power Electronics. 2017 Nov 1;32(11):8381–92.
Wang C, Li Z, Murphy DLK, Peterchev AV, Goetz SM. Photovoltaic multilevel inverter with distributed maximum power point tracking and dynamic circuit reconfiguration. In: 2017 IEEE 3rd International Future Energy Electronics Conference and ECCE Asia, IFEEC - ECCE Asia 2017. 2017. p. 1520–5.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Minimum Electric Field Exposure for Seizure Induction with Electroconvulsive Therapy and Magnetic Seizure Therapy. Neuropsychopharmacology. 2017 May;42(6):1192–200.
Peterchev AV. Transcranial electric stimulation seen from within the brain. Elife. 2017 Mar 28;6.
Peterchev AV, Luber B, Westin GG, Lisanby SH. Pulse Width Affects Scalp Sensation of Transcranial Magnetic Stimulation. Brain Stimul. 2017;10(1):99–105.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Comparison of electric field strength and spatial distribution of electroconvulsive therapy and magnetic seizure therapy in a realistic human head model. Eur Psychiatry. 2016 Aug;36:55–64.
Goetz SM, Li Z, Peterchev AV, Liang X, Zhang C, Lukic SM. Sensorless scheduling of the modular multilevel series-parallel converter: Enabling a flexible, efficient, modular battery. In: Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC. 2016. p. 2349–54.
Peterchev AV, Sikes-Keilp C, Koval M, Lisanby SH. Re-evaluating the Electroconvulsive Therapy Stimulus: Train Duration. In: BIOLOGICAL PSYCHIATRY. ELSEVIER SCIENCE INC; 2016. p. 401S-401S.
Goetz SM, Luber B, Lisanby SH, Murphy DLK, Kozyrkov IC, Grill WM, et al. Enhancement of Neuromodulation with Novel Pulse Shapes Generated by Controllable Pulse Parameter Transcranial Magnetic Stimulation. Brain Stimul. 2016;9(1):39–47.
D’Ostilio K, Goetz SM, Hannah R, Ciocca M, Chieffo R, Chen J-CA, et al. Effect of coil orientation on strength-duration time constant and I-wave activation with controllable pulse parameter transcranial magnetic stimulation. Clin Neurophysiol. 2016 Jan;127(1):675–83.
Goodwin BD, Butson CR. Subject-Specific Multiscale Modeling to Investigate Effects of Transcranial Magnetic Stimulation. Neuromodulation. 2015 Dec;18(8):694–704.
Grigsby EM, Koval MJ, Smith MV, Mueller JK, Deng ZD, Peterchev A, et al. Neural Effects of rTMS: Single Neuron Recordings From a Rhesus Macaque. JOURNAL OF ECT. 2015 Sep 1;31(3):E33–E33.
Sellers KK, Mellin JM, Lustenberger CM, Boyle MR, Lee WH, Peterchev AV, et al. Transcranial direct current stimulation (tDCS) of frontal cortex decreases performance on the WAIS-IV intelligence test. Behav Brain Res. 2015 Sep 1;290:32–44.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Electric Field Model of Transcranial Electric Stimulation in Nonhuman Primates: Correspondence to Individual Motor Threshold. IEEE Trans Biomed Eng. 2015 Sep;62(9):2095–105.
Peterchev AV, Krystal AD, Rosa MA, Lisanby SH. Individualized Low-Amplitude Seizure Therapy: Minimizing Current for Electroconvulsive Therapy and Magnetic Seizure Therapy. Neuropsychopharmacology. 2015 Aug;40(9):2076–84.
Deng Z-D, Lisanby SH, Peterchev AV. On the characterization of coils for deep transcranial magnetic stimulation. Clin Neurophysiol. 2015 Jul;126(7):1456–7.
Peterchev AV, Sikes-Keilp C, Rosa MA, Lisanby SH. Re-evaluating the Electroconvulsive Therapy Stimulus: Frequency and Directionality. In: BIOLOGICAL PSYCHIATRY. ELSEVIER SCIENCE INC; 2015. p. 23S-23S.
Deng Z-D, Lisanby SH, Peterchev AV. On the stimulation depth of transcranial magnetic stimulation coils. Clin Neurophysiol. 2015 Apr;126(4):843–4.
Hannah R, D’Ostilio K, Goetz S, Ciocca M, Chieffo R, Chen J-CA, et al. Effects of transcranial magnetic stimulation coil orientation and pulse width on short-latency afferent inhibition. Brain Stimulation. 2015 Mar;8(2):379–80.
Peterchev AV, Deng Z-D, Goetz S. Advances in Transcranial Magnetic Stimulation Technology. In: Reti IM, editor. John Wiley & Sons; 2015.
Peterchev AV, Murphy DLK, Goetz SM. Quiet transcranial magnetic stimulation: Status and future directions. In: Annu Int Conf IEEE Eng Med Biol Soc. 2015. p. 226–9.
Goetz SM, Lisanby SH, Murphy DLK, Price RJ, O’Grady G, Peterchev AV. Impulse noise of transcranial magnetic stimulation: measurement, safety, and auditory neuromodulation. Brain Stimul. 2015;8(1):161–3.
Deng Z-D, Lisanby SH, Peterchev AV. Effect of anatomical variability on electric field characteristics of electroconvulsive therapy and magnetic seizure therapy: a parametric modeling study. IEEE Trans Neural Syst Rehabil Eng. 2015 Jan;23(1):22–31.
Peterchev AV. Subject-Specific Multiscale Modeling to Investigate Effects of Transcranial Magnetic Stimulation COMMENT. NEUROMODULATION. 2015;18(8):703–4.
Goetz SM, Peterchev AV, Weyh T. Modular multilevel converter with series and parallel module connectivity: Topology and control. IEEE Transactions on Power Electronics. 2015 Jan 1;30(1):203–15.
Peterchev AV, DʼOstilio K, Rothwell JC, Murphy DL. Controllable pulse parameter transcranial magnetic stimulator with enhanced circuit topology and pulse shaping. J Neural Eng. 2014 Oct;11(5):056023.
Mueller JK, Grigsby EM, Prevosto V, Petraglia FW, Rao H, Deng Z-D, et al. Simultaneous transcranial magnetic stimulation and single-neuron recording in alert non-human primates. Nat Neurosci. 2014 Aug;17(8):1130–6.
Rivadulla C, Foffani G, Oliviero A. Magnetic field strength and reproducibility of neodymium magnets useful for transcranial static magnetic field stimulation of the human cortex. Neuromodulation. 2014 Jul;17(5):438–41.
Deng Z-D, Lisanby SH, Peterchev AV. Coil design considerations for deep transcranial magnetic stimulation. Clin Neurophysiol. 2014 Jun;125(6):1202–12.
D’Ostilio K, Goetz S, Ciocca M, Chieffo R, Chen J-CA, Peterchev AV, et al. P282: Effect of coil orientation on strength-duration time constant with controllable pulse parameter transcranial magnetic stimulation. Clinical Neurophysiology. 2014 Jun;125:S123–S123.
Lisanby SH, Lee WH, Deng Z-D, Peterchev AV. Individualized Low Amplitude Seizure Therapy (iLAST) - Magnetic and Electric Approaches to Enhance Focality and Safety for Depression Treatment. In: BIOLOGICAL PSYCHIATRY. ELSEVIER SCIENCE INC; 2014. p. 153S-153S.
Deng Z-D, Lisanby SH, Peterchev AV. Coil design considerations for deep transcranial magnetic stimulation. Clinical Neurophysiology. 2014;
Goetz SM, Luber B, Lisanby SH, Peterchev AV. A novel model incorporating two variability sources for describing motor evoked potentials. Brain Stimul. 2014;7(4):541–52.
Goetz SM, Murphy DLK, Peterchev AV. Transcranial Magnetic Stimulation Device with Reduced Acoustic Noise. IEEE Magnetics Letters. 2014 Jan 1;5.
Bernabei JM, Lee WH, Peterchev AV. Modeling transcranial electric stimulation in mouse: a high resolution finite element study. In: Annu Int Conf IEEE Eng Med Biol Soc. 2014. p. 406–9.
Barnes WL, Lee WH, Peterchev AV. Approximating transcranial magnetic stimulation with electric stimulation in mouse: a simulation study. In: Annu Int Conf IEEE Eng Med Biol Soc. 2014. p. 6129–32.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Stimulation strength and focality of electroconvulsive therapy and magnetic seizure therapy in a realistic head model. Annu Int Conf IEEE Eng Med Biol Soc. 2014;2014:410–3.
Peterchev AV. Reduction of TMS strength near MRI scanner could be explained by electromagnetic coupling to MRI magnet. Brain Stimul. 2014;7(6):916–7.
Mueller JK, Grigsby EM, Prevosto V, Petraglia FW, Rao H, Deng ZD, et al. Simultaneous transcranial magnetic stimulation and single-neuron recording in alert non-human primates. Nature Neuroscience. 2014 Jan 1;17(8):1130–6.
Peterchev A, Profice P. Magnetic Field Strength and Reproducibility of Neodymium Magnets Useful for Transcranial Static Magnetic Field Stimulation of the Human Cortex COMMENTS. NEUROMODULATION. 2014;17(5):441–2.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Anatomical variability predicts individual differences in transcranial electric stimulation motor threshold. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2013 Dec 1;2013:815–8.
Klein RC, Goetz SM, Liedtke WB, Moore SD, Peterchev AV. Static magnetic field modulates excitatory activity in layer II/III pyramidal neurons of the rat motor cortex. In: International IEEE/EMBS Conference on Neural Engineering, NER. 2013. p. 1190–3.
Peterchev AV, Murphy DL. Controllable pulse parameter transcranial magnetic stimulator with enhanced pulse shaping. In: International IEEE/EMBS Conference on Neural Engineering, NER. 2013. p. 121–4.
Deng ZD, Peterchev AV, Krystal AD, Luber B, McClintock SM, Husain MM, et al. Topography of seizures induced by electroconvulsive therapy and magnetic seizure therapy. In: International IEEE/EMBS Conference on Neural Engineering, NER. 2013. p. 577–80.
Deng Z-D, Lisanby SH, Peterchev AV. Controlling stimulation strength and focality in electroconvulsive therapy via current amplitude and electrode size and spacing: comparison with magnetic seizure therapy. J ECT. 2013 Dec;29(4):325–35.
McClintock SM, Husain M, Cullum CM, Peterchev AV, Bernstein I, Stool L, et al. The Effects of an Index Course of Magnetic Seizure Therapy and Electroconvulsive Therapy on Verbal Learning and Memory. NEUROPSYCHOPHARMACOLOGY. 2013 Dec 1;38:S426–7.
Peterchev AV. Optimizing Stimulus Pulse Characteristics for Transcranial Magnetic Stimulation and Electroconvulsive Therapy via Device Development, Computational Modeling, and Biophysically-motivated Dosing Paradigms. NEUROPSYCHOPHARMACOLOGY. 2013 Dec 1;38:S30–1.
Goetz SM, Luber B, Lisanby S, Kozyrkov CI, Grill WM, Peterchev AV. Enhancement of rTMS Neuromodulatory Effects with Novel Waveforms Demonstrated via Controllable Pulse Parameter TMS (cTMS). NEUROPSYCHOPHARMACOLOGY. 2013 Dec 1;38:S246–7.
Deng ZD, Lisanby SH, Peterchev AV. Controlling Stimulation Strength and Focality in Electroconvulsive Therapy via Current Amplitude and Electrode Size and Spacing: Comparison With Magnetic Seizure Therapy. J ECT. 2013 Nov 7;
Peterchev A, Murphy D. P 230. Third generation controllable pulse parameter transcranial magnetic stimulation device. Clinical Neurophysiology. 2013 Oct;124(10):e175–6.
Peterchev AV, Goetz SM, Westin GG, Luber B, Lisanby SH. Pulse width dependence of motor threshold and input-output curve characterized with controllable pulse parameter transcranial magnetic stimulation. Clin Neurophysiol. 2013 Jul;124(7):1364–72.
Luber B, Steffener J, Tucker A, Habeck C, Peterchev AV, Deng Z-D, et al. Extended remediation of sleep deprived-induced working memory deficits using fMRI-guided transcranial magnetic stimulation. Sleep. 2013 Jun 1;36(6):857–71.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Anatomical variability predicts individual differences in ECT seizure threshold: a combined preclinical and computational modeling study. JOURNAL OF ECT. 2013 Jun 1;29(2):150–1.
Paulus W, Peterchev AV, Ridding M. Transcranial electric and magnetic stimulation: technique and paradigms. Handb Clin Neurol. 2013;116:329–42.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Anatomical variability predicts individual differences in transcranial electric stimulation motor threshold. Annu Int Conf IEEE Eng Med Biol Soc. 2013;2013:815–8.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Electric field characteristics of electroconvulsive therapy with individualized current amplitude: a preclinical study. Annu Int Conf IEEE Eng Med Biol Soc. 2013;2013:3082–5.
Goetz SM, Truong CN, Gerhofer MG, Peterchev AV, Herzog H-G, Weyh T. Analysis and optimization of pulse dynamics for magnetic stimulation. PLoS One. 2013;8(3):e55771.
Sturcken N, O’Sullivan EJ, Wang N, Herget P, Webb BC, Romankiw LT, et al. A 2.5D integrated voltage regulator using coupled-magnetic-core inductors on silicon interposer. IEEE Journal of Solid-State Circuits. 2013 Jan 1;48(1):244–54.
Deng Z-D, Lisanby SH, Peterchev AV. Electric field depth-focality tradeoff in transcranial magnetic stimulation: simulation comparison of 50 coil designs. Brain Stimul. 2013 Jan;6(1):1–13.
Goetz SM, Peterchev AV. A model of variability in brain stimulation evoked responses. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012 Dec 1;6434–7.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Stimulation strength and focality of electroconvulsive therapy with individualized current amplitude: a preclinical study. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012 Dec 1;6430–3.
Goetz SM, Truong NC, Gerhofer MG, Peterchev AV, Herzog HG, Weyh T. Optimization of magnetic neurostimulation waveforms for minimum power loss. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012 Dec 1;4652–5.
Peterchev AV, Wagner TA, Miranda PC, Nitsche MA, Paulus W, Lisanby SH, et al. Fundamentals of transcranial electric and magnetic stimulation dose: definition, selection, and reporting practices. Brain Stimul. 2012 Oct;5(4):435–53.
Sturcken N, Petracca M, Warren S, Mantovani P, Carloni LP, Peterchev AV, et al. A switched-inductor integrated voltage regulator with nonlinear feedback and network-on-chip load in 45 nm SOI. IEEE Journal of Solid-State Circuits. 2012 Jun 13;47(8):1935–45.
Lee W-H, Lisanby SH, Curtis RM, Laine AF, Peterchev AV. Stimulation strength in hippocampus for various ECT electrode configurations computed in a realistic head model. JOURNAL OF ECT. 2012 Jun 1;28(2):149–50.
Peterchev AV, Chan B, Luber B, Meng Z-DD, Schroeder CE, Lisanby SH. Measurement of intracerebral electric field induced by electroconvulsive therapy. JOURNAL OF ECT. 2012 Jun 1;28(2):146–7.
Rosa MA, Abdo GL, Rosa MO, Lisanby SH, Peterchev AV. Frontomedial electrode placement with low current amplitude: a case report. JOURNAL OF ECT. 2012 Jun 1;28(2):146–146.
Sturcken N, O’Sullivan E, Wang N, Herget P, Webb B, Romankiw L, et al. A 2.5D integrated voltage regulator using coupled-magnetic-core inductors on silicon interposer delivering 10.8A/mm ². Digest of Technical Papers - IEEE International Solid-State Circuits Conference. 2012 May 11;55:400–1.
Spellman T, Peterchev AV, Lisanby SH. Erratum: Focal electrically administered seizure therapy: A novel form of ECT illustrates the roles of current directionality, polarity, and electrode configuration in seizure induction (Neuropsychopharmacology (2009) 34 (2002-2010) DOI: 10.1038/npp.2009.12). Neuropsychopharmacology. 2012 Mar 1;37(4):1077.
Lee WH, Deng Z-D, Kim T-S, Laine AF, Lisanby SH, Peterchev AV. Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity. Neuroimage. 2012 Feb 1;59(3):2110–23.
Goetz SM, Peterchev AV. A model of variability in brain stimulation evoked responses. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012;2012:6434–7.
Goetz SM, Truong NC, Gerhofer MG, Peterchev AV, Herzog HG, Weyh T. Optimization of magnetic neurostimulation waveforms for minimum power loss. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012;2012:4652–5.
Goetz SM, Truong NC, Gerhofer MG, Peterchev AV, Herzog H-G, Weyh T. Optimization of magnetic neurostimulation waveforms for minimum power loss. Annu Int Conf IEEE Eng Med Biol Soc. 2012;2012:4652–5.
Goetz SM, Peterchev AV. A model of variability in brain stimulation evoked responses. Annu Int Conf IEEE Eng Med Biol Soc. 2012;2012:6434–7.
Peterchev AV, Dhamne SC, Kothare R, Rotenberg A. Transcranial magnetic stimulation induces current pulses in transcranial direct current stimulation electrodes. Annu Int Conf IEEE Eng Med Biol Soc. 2012;2012:811–4.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Stimulation strength and focality of electroconvulsive therapy with individualized current amplitude: a preclinical study. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2012;2012:6430–3.
Lee WH, Lisanby SH, Laine AF, Peterchev AV. Stimulation strength and focality of electroconvulsive therapy with individualized current amplitude: a preclinical study. Annu Int Conf IEEE Eng Med Biol Soc. 2012;2012:6430–3.
PETERCHEV ANGEL VLADIMIROV. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2012;
Rosa MA, Abdo GL, Lisanby SH, Peterchev A. Seizure induction with low-amplitude-current (0.5 A) electroconvulsive therapy. J ECT. 2011 Dec;27(4):341–2.
Sturcken N, Petracca M, Warren S, Carloni LP, Peterchev AV, Shepard KL. An integrated four-phase buck converter delivering 1A/mm² with 700ps controller delay and network-on-chip load in 45-nm SOI. Proceedings of the Custom Integrated Circuits Conference. 2011 Nov 9;
Peterchev AV. Circuit topology comparison and design analysis for controllable pulse parameter transcranial magnetic stimulators. 2011 5th International IEEE/EMBS Conference on Neural Engineering, NER 2011. 2011 Jul 20;646–9.
Peterchev AV, Murphy DL, Lisanby SH. Repetitive transcranial magnetic stimulator with controllable pulse parameters. J Neural Eng. 2011 Jun;8(3):036016.
Deng Z-D, Lisanby S, Peterchev A. PTMS31 Comparative electric field characteristics of deep transcranial magnetic stimulation coils. Clinical Neurophysiology. 2011 Jun;122:S189–S189.
Götz S, Whiting P, Peterchev A. PTMS59 Threshold estimation with transcranial magnetic stimulation: algorithm comparison. Clinical Neurophysiology. 2011 Jun;122:S197–S197.
Peterchev A. S17.4 Devices for controllable pulse parameter transcranial magnetic stimulation (cTMS): overview of capabilities. Clinical Neurophysiology. 2011 Jun;122:S41–S41.
Peterchev A, Westin G, Luber B, Lisanby S. PTMS37 Corticospinal response characterization with controllable pulse parameter transcranial magnetic stimulation (cTMS). Clinical Neurophysiology. 2011 Jun;122:S191–S191.
Rosa MA, Abdo G, Lisanby SH, Peterchev AV. Seizure Induction With Low-Amplitude-Current Electroconvulsive Therapy: A Case Series. JOURNAL OF ECT. 2011 Jun 1;27(2):179–179.
Deng Z-D, Lisanby SH, Peterchev AV. Electric field strength and focality in electroconvulsive therapy and magnetic seizure therapy: a finite element simulation study. J Neural Eng. 2011 Feb;8(1):016007.
Bikson M, Datta A, Elwassif M, Bansal V, Peterchev AV. Introduction to electrotherapy technology. 2011 Jan 1;1–13.
Deng Z-D, Peterchev AV. Transcranial magnetic stimulation coil with electronically switchable active and sham modes. Annu Int Conf IEEE Eng Med Biol Soc. 2011;2011:1993–6.
Lee WH, Deng Z-D, Laine AF, Lisanby SH, Peterchev AV. Influence of white matter conductivity anisotropy on electric field strength induced by electroconvulsive therapy. Annu Int Conf IEEE Eng Med Biol Soc. 2011;2011:5473–6.
PETERCHEV ANGEL VLADIMIROV, LISANBY SARAH HOLLINGSWORTH, DENG ZHI-DE. METHODS, APPARATUS, AND SYSTEMS FOR MAGNETIC STIMULATION. 2011;
PETERCHEV ANGEL VLADIMIROV, LISANBY SARAH HOLLINGSWORTH, DENG ZHI-DE. METHODS, APPARATUS, AND SYSTEMS FOR MAGNETIC STIMULATION. 2011;
Peterchev AV, Murphy DL, Lisanby SH. Repetitive transcranial magnetic stimulator with controllable pulse parameters (cTMS). Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2010 Dec 1;2922–6.
Deng ZD, Lisanby SH, Peterchev AV. Transcranial magnetic stimulation in the presence of deep brain stimulation implants: Induced electrode currents. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2010 Dec 1;6821–4.
Lee WH, Deng ZD, Kim TS, Laine AF, Lisanby SH, Peterchev AV. Regional electric field induced by electroconvulsive therapy: a finite element simulation study. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2010 Dec 1;2045–8.
Deng ZD, Hardesty DE, Lisanby SH, Peterchev AV. Electroconvulsive therapy in the presence of deep brain stimulation implants: electric field effects. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2010 Dec 1;2049–52.
Peterchev AV, Rosa MA, Deng Z-D, Prudic J, Lisanby SH. Electroconvulsive therapy stimulus parameters: rethinking dosage. J ECT. 2010 Sep;26(3):159–74.
Peterchev AV, Murphy DL, Lisanby SH. Repetitive transcranial magnetic stimulator with controllable pulse parameters (cTMS). Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:2922–6.
Deng Z-D, Hardesty DE, Lisanby SH, Peterchev AV. Electroconvulsive therapy in the presence of deep brain stimulation implants: electric field effects. Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:2049–52.
Deng Z-D, Lisanby SH, Peterchev AV. Transcranial magnetic stimulation in the presence of deep brain stimulation implants: Induced electrode currents. Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:6821–4.
Deng ZD, Hardesty DE, Lisanby SH, Peterchev AV. Electroconvulsive therapy in the presence of deep brain stimulation implants: electric field effects. Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2010;2010:2049–52.
Lee WH, Deng Z-D, Kim T-S, Laine AF, Lisanby SH, Peterchev AV. Regional electric field induced by electroconvulsive therapy: a finite element simulation study. Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:2045–8.
PETERCHEV ANGEL VLADIMIROV. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2010;
PETERCHEV ANGEL VLADIMIROV. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2010;
PETERCHEV ANGEL VLADIMIROV. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2010;
PETERCHEV ANGEL VLADIMIROV, LISANBY SARAH HOLLINGSWORTH, DENG ZHI-DE. METHODS, APPARATUS AND SYSTEMS FOR MAGNETICS STIMULATION. 2010;
Rossi S, Hallett M, Rossini PM, Pascual-Leone A, Safety of TMS Consensus Group. Safety, ethical considerations, and application guidelines for the use of transcranial magnetic stimulation in clinical practice and research. Clin Neurophysiol. 2009 Dec;120(12):2008–39.
Bikson M, Datta A, Elwassif M, Bansal V, Peterchev AV. Introduction to electrotherapy technology. Journal of Pain Management. 2009 Dec 1;2(3):231–8.
Deng ZD, Lisanby SH, Peterchev AV. Effect of anatomical variability on neural stimulation strength and focality in electroconvulsive therapy (ECT) and magnetic seizure therapy (MST). Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2009 Dec 1;682–8.
Spellman T, Peterchev AV, Lisanby SH. Focal electrically administered seizure therapy: a novel form of ECT illustrates the roles of current directionality, polarity, and electrode configuration in seizure induction. Neuropsychopharmacology. 2009 Jul;34(8):2002–10.
Deng Z-D, Peterchev AV, Lisanby SH. Focality of Neural Stimulation with Magnetic Seizure Therapy (MST) and Electroconvulsive Therapy (ECT) in Humans and Non-Human Primates. BIOLOGICAL PSYCHIATRY. 2009 Apr 15;65(8):219S-220S.
PETERCHEV ANGEL V. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2009;
Huang Y-Z, Sommer M, Thickbroom G, Hamada M, Pascual-Leonne A, Paulus W, et al. Consensus: New methodologies for brain stimulation. Brain Stimul. 2009 Jan;2(1):2–13.
Deng Z-D, Lisanby SH, Peterchev AV. Effect of anatomical variability on neural stimulation strength and focality in electroconvulsive therapy (ECT) and magnetic seizure therapy (MST). Annu Int Conf IEEE Eng Med Biol Soc. 2009;2009:682–8.
Deng ZD, Peterchev AV, Lisanby SH. Coil design considerations for deep-brain transcranial magnetic stimulation (dTMS). Conference proceedings : . Annual International Conference of the IEEE Engineering in Medicine and Biology Society IEEE Engineering in Medicine and Biology Society Conference. 2008 Dec 1;5675–9.
Peterchev AV, Jalinous R, Lisanby SH. A transcranial magnetic stimulator inducing near-rectangular pulses with controllable pulse width (cTMS). IEEE Trans Biomed Eng. 2008 Jan;55(1):257–66.
Deng Z-D, Peterchev AV, Lisanby SH. Coil design considerations for deep-brain transcranial magnetic stimulation (dTMS). Annu Int Conf IEEE Eng Med Biol Soc. 2008;2008:5675–9.
Lisanby SH, Peterchev AV. Magnetic seizure therapy for the treatment of depression. Advances in Biological Psychiatry. 2007 Dec 1;23:155–71.
Radman T, Datta A, Peterchev AV. In vitro modulation of endogenous rhythms by AC electric fields: Syncing with clinical brain stimulation. J Physiol. 2007 Oct 15;584(Pt 2):369–70.
Peterchev AV, Kirov G, Ebmeier K, Scott A, Husain M, Lisanby SH. Frontiers in TMS technology development: Controllable pulse shape TMS (cTMS) and magnetic seizure therapy (MST) at 100 Hz. In: BIOLOGICAL PSYCHIATRY. ELSEVIER SCIENCE INC; 2007. p. 107S-107S.
PETERCHEV ANGEL V. SYSTEMS AND METHODS FOR INDUCING ELECTRIC FIELD PULSES IN A BODY ORGAN. 2007;
Peterchev AV, Spellman TJ, Lisanby SH. cTMS: A novel TMS device inducing near rectangular pulses with controllable pulse width. In: NEUROPSYCHOPHARMACOLOGY. NATURE PUBLISHING GROUP; 2006. p. S130–S130.
Peterchev AV, Sanders SR. Load-line regulation with estimated load-current feedforward: Application to microprocessor voltage regulators. IEEE Transactions on Power Electronics. 2006 Nov 1;21(6):1704–17.
Peterchev AV, Sanders SR. Digital multimode buck converter control with loss-minimizing synchronous rectifier adaptation. IEEE Transactions on Power Electronics. 2006 Nov 1;21(6):1588–99.
Xiao J, Peterchev AV, Zhang J, Sanders SR. A 4-μA quiescent-current dual-mode digitally controlled buck converter IC for cellular phone applications. IEEE Journal of Solid-State Circuits. 2004 Dec 1;39(12):2342–8.
Peterchev AV, Sanders SR. Design of ceramic-capacitor VRM's with estimated load current feedforward. PESC Record - IEEE Annual Power Electronics Specialists Conference. 2004 Nov 29;6:4325–32.
Peterchev AV, Sanders SR. Digital loss-minimizing multi-mode synchronous buck converter control. PESC Record - IEEE Annual Power Electronics Specialists Conference. 2004 Nov 29;5:3694–9.
Xiao J, Peterchev A, Zhang J, Sanders S. A 4μA-quiescent-current dual-mode buck converter IC for cellular phone applications. Digest of Technical Papers - IEEE International Solid-State Circuits Conference. 2004 Jun 2;47.
Xiao J, Peterchev A, Zhang J, Sanders S. An ultra-low-power digitally-controlled buck converter IC for cellular phone applications. Conference Proceedings - IEEE Applied Power Electronics Conference and Exposition - APEC. 2004 Jan 1;1:383–91.
Peterchev AV, Xiao J, Sanders SR. Architecture and IC implementation of a digital VRM controller. IEEE Transactions on Power Electronics. 2003 Jan 1;18(1 II):356–64.
Peterchev AV, Sanders SR. Quantization resolution and limit cycling in digitally controlled PWM converters. IEEE Transactions on Power Electronics. 2003;18(1 II):301–8.
Peterchev AV, Sanders SR. Low conversion ratio VRM design. PESC Record - IEEE Annual Power Electronics Specialists Conference. 2002 Jan 1;4:1571–5.
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